CN218279381U - Air fryer - Google Patents

Abstract

The present embodiments provide an air fryer comprising: the side wall of the machine shell is provided with a mounting opening; the lining assembly is arranged in the shell and comprises an upper lining and a lower lining, the lower lining is approximately enclosed into a cylinder shape, the upper lining covers the top of the lower lining, and an exhaust port is arranged at the position of the upper lining corresponding to the mounting port; the exhaust window seat is connected with the upper liner at a position corresponding to the exhaust port, and the exhaust window is embedded in the mounting port and connected with the exhaust window; a part of the power supply lead extends upwards along the gap between the lower lining and the shell and then turns inwards beyond the upper edge of the upper lining; the wire supporting seat is arranged on the exhaust window seat and comprises a first supporting part, at least part of the first supporting part is higher than the upper edge of the lower lining and is positioned between the upward extension line of the lower lining and the casing, and the first supporting part faces the side surface and the upper surface of the casing and is used for supporting the turning part of the power supply wire, so that the power supply wire can be prevented from being scratched by the edge of the lining assembly.

Description

Air fryer

Technical Field

The utility model relates to a cooking equipment field, concretely relates to air is fried pot.

Background

In the current vertical air fryer, a power supply wire usually extends into the casing from the bottom of the side wall of the casing, then extends upwards along a gap between the casing and the lower liner, then turns and extends above the upper liner, and is connected with electric elements such as a driving motor and the like above the upper liner to supply power. However, the power supply lead is easily scratched by the upper edge of the lower liner, and potential safety hazards such as electric leakage and the like easily occur.

SUMMERY OF THE UTILITY MODEL

Therefore, an object of the utility model is to provide an air fryer to solve at least that the power supply wire is very easy by the top edge scratch of lower inside lining, the problem of potential safety hazards such as electric leakage easily appears.

An aspect embodiment of the utility model provides an air is fried and is cooked, and air is fried and cooked and include: the side wall of the machine shell is provided with a mounting opening; the lining assembly is arranged in the shell and comprises an upper lining and a lower lining, the lower lining is approximately enclosed into a cylinder shape, the upper lining covers the top of the lower lining, and an exhaust port is arranged at the position of the upper lining corresponding to the mounting port; the exhaust window seat is connected with the upper lining at a position corresponding to the exhaust port, and the exhaust window is embedded in the mounting port and connected with the exhaust window; a power supply wire, a part of which extends upward along the gap between the lower liner and the housing and then turns inward beyond the upper edge of the upper liner; the wire supporting seat sets up in the exhaust window seat, and the wire supporting seat includes first supporting part, and the at least part of first supporting part is higher than the top edge of inside lining down and lies in between the ascending extension line of inside lining down and the casing, and first supporting part is used for supporting the turn department of power supply wire towards the side surface and the upper surface of casing.

The air fryer that this aspect embodiment provided sets up the inside lining subassembly in the casing, encloses into the culinary art chamber through last inside lining and lower inside lining, makes things convenient for the culinary art to place the edible material in the culinary art intracavity. Set up the gas vent on last inside lining, with the position installation that the exhaust window seat corresponds the gas vent on last inside lining to make the exhaust window fix the installing port on the exhaust window seat, make things convenient for the high-temperature gas in the culinary art intracavity to discharge through gas vent, exhaust window seat and exhaust window, avoid the culinary art intracavity atmospheric pressure too big, improve the security. Moreover, the exhaust window can be simultaneously supported by the casing and the exhaust window seat, and the installation firmness of the exhaust window is improved. Leave the clearance between lower inside lining and the casing, avoid the heat of lower inside lining to transmit the casing in a large number and lead to the casing melten gel, in addition, for the power supply wire provides certain line space of walking, make the partly clearance that can follow between lower inside lining and the casing of power supply wire upwards extend, then cross the top edge of last inside lining and turn to the inboard side, make things convenient for the power consumption component power supply of power supply wire for last inside lining top. Set up the wire supporting seat on the exhaust window seat, wherein the at least part of first supporting part is higher than the top edge of inside lining down, lie in between the ascending extension line of inside lining and the casing down, utilize first supporting part to prop up the turn-round department of power supply wire towards the side surface and the upper surface of casing, can make the power supply wire keep away from the top edge of inside lining down, thereby avoid the power supply wire by the sharp limit scratch of inside lining subassembly, reduce the damage of power supply wire surface, the electric leakage, withstand voltage bad probability, reduce the user risk of electrocuting an electric shock. In addition, the first supporting part can also support the power supply lead to enable the power supply lead to be far away from the outer surface of the lower lining and the upper surface of the upper lining, and particularly the part of the power supply lead close to the first supporting part can reduce the contact probability of the power supply lead and the high-temperature lining assembly and improve the safety. Moreover, the wire supporting seat is arranged on the exhaust window seat, and compared with the wire supporting seat arranged on the lining assembly, the temperature of the wire supporting seat is not too high, and the wire is conveniently and safely supported and supplied.

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

in some embodiments, the first supporting portion is vertically disposed between the lower liner and the casing, a top end of the first supporting portion is higher than an upper edge of the upper liner, and a bottom end of the first supporting portion extends in a direction of the lower edge of the upper liner.

In the embodiments, the first supporting portion is vertically arranged between the machine shells of the lower inner liner, the top end of the first supporting portion is higher than the upper edge of the upper inner liner, after the upper surface of the first supporting portion supports the power supply lead, the turning position of the power supply lead is far away from the upper edge of the upper inner liner and is higher than the connecting position of the upper inner liner and the lower inner liner, and the risk of being scratched by sharp edges is reduced. In addition, the bottom of first supporting part extends to the lower limb place direction of the inside lining of top, can increase the side surface area of first supporting part orientation casing to be favorable to the large tracts of land to prop up the power supply wire, reduce the probability of the outer surface contact of inside lining under power supply wire and the high temperature, reduce the electric leakage risk.

In some embodiments, the wire support stand further comprises: the second supporting part is positioned on one side, away from the lower lining, of the upper lining, and the upper surface of the second supporting part is used for supporting the bent power supply conducting wire; the second supporting part is connected with the top end of the first supporting part, or the second supporting part is separated from the first supporting part.

In these embodiments, the wire support base further includes a second support portion located on a side of the upper liner away from the lower liner, the upper surface of the second support portion is used for supporting the power supply wire, and the portion of the first support portion higher than the upper edge of the lower liner is used for supporting the turning portion of the power supply wire, so that the probability of contact between the power supply wire and the upper surface of the high-temperature upper liner can be reduced, and the risk of electric leakage is reduced. The second supporting part is connected with the top end of the first supporting part, for example, the second supporting part is approximately distributed in a 7 shape, the processing is convenient, and the structural strength of the lead supporting seat is improved. Of course, the second support part and the first support part can be distributed at intervals, so that the power supply lead can be better supported to be far away from the upper surface of the upper liner.

In some embodiments, two ends of the first supporting portion in the width direction are provided with first limiting ribs protruding in the direction away from the lower liner, and the first limiting ribs are used for being in limiting fit with the power supply wires. The first limiting ribs on two sides are used for limiting the moving range of the power supply wire, so that the power supply wire can be prevented from greatly shifting to be separated from the support of the first supporting part, and the contact probability of the power supply wire and the lining component is reduced.

In some embodiments, one side of the second supporting portion in the width direction is connected with the side wall of the exhaust window seat, and the other side of the second supporting portion in the width direction is provided with a second limiting rib protruding upwards, and the second limiting rib is used for being in limiting fit with a power supply lead. Utilize the activity range of exhaust window seat and the spacing muscle of second restriction power supply wire, can avoid power supply wire drunkenness by a wide margin and break away from the support of second supporting part, reduce the probability of power supply wire and inside lining subassembly contact.

In some embodiments, an end of the second support toward the first support is lapped on an upper edge of the lower liner. The power supply lead can be bent inwards close to the upper edge of the lower lining, and the occupied space of the power supply lead in the shell is reduced. In addition, be favorable to improving the installation stability of wire supporting seat and exhaust window seat.

In some embodiments, the wire support stand further comprises: the first wire limiting buckle is arranged at the top of the first supporting part or the upper surface of the second supporting part, the first wire limiting buckle is approximately in an inverted L shape, and the first wire limiting buckle is surrounded into a first wiring hole for a power supply wire to pass through. The position of the power supply wire is limited by the first wire limiting buckle, the power supply wire is prevented from shifting greatly to be separated from the wire supporting seat, and the contact probability of the power supply wire and the lining component is reduced.

In some embodiments, the first support portion is positioned laterally above the upper liner, and one end of the first support portion projects laterally beyond the upper edge of the lower liner. The first supporting part is simple in structure and convenient to process. Moreover, the first supporting part can support the bent part and the bent part of the power supply lead, so that the power supply lead can be prevented from being scratched by the edge of the lining assembly, such as the upper edge of the lower lining, and the power supply lead can be far away from the upper surface of the upper lining, especially the part of the power supply lead close to the first supporting part, so that the probability of contact between the power supply lead and the high-temperature lining assembly can be reduced, and the safety is improved.

In some embodiments, the first support portion is formed in a rod shape and stands on the width-direction side wall of the exhaust window seat, and the first support portion is substantially flush with the upper edge of the adjacent lower liner. The first supporting part is simple in structure, materials are saved, cost is saved, and occupation of space in the machine shell can be reduced. Moreover, the first supporting part can support the turning part of the power supply lead, so that the turning part and the edge of the lining assembly are prevented from being scratched due to friction of the upper edge of the lower lining, and the risk of electric leakage of the power supply guide pipe is reduced.

In some embodiments, the wire support base is connected to one end of the exhaust window base in the width direction. The exhaust cannot be influenced, and the power supply wire supported by the wire supporting seat can be shielded by a part of the shell on the periphery of the mounting opening, so that a user can be prevented from observing the power supply wire through the exhaust window. In addition, the wire supporting seat and the exhaust window seat are conveniently connected together.

In some embodiments, the wire support base is integrally formed with the exhaust window base. Is beneficial to ensuring the connection stability of the two. And the processing is convenient, reduces the spare part, and convenient equipment.

In some embodiments, the length of the wire support base in the horizontal direction ranges from 5mm to 50mm. It is advantageous to provide sufficient support length for the power supply leads.

In some embodiments, the air fryer further comprises: the junction box is arranged at the bottom of the side wall of the machine shell and is positioned below the mounting opening, a wire outlet is formed in the part of the junction box extending into the machine shell, the wire outlet is positioned right below the wire supporting seat, and a wire inlet is formed in the part of the junction box exposed out of the machine shell; the power supply lead sequentially penetrates through the lead inlet and the lead outlet and extends towards the direction of the lead support seat, and the power supply lead positioned between the lead inlet and the lead support seat is suspended and vertically extends upwards compared with the outer surface of the lower lining. The power supply wire can be prevented from contacting with the outer surface of the lower lining, the influence of the high-temperature lower lining on the power supply wire is reduced, and the problems of electric leakage, electric shock by mistake of a user, poor voltage resistance and the like are avoided.

In some embodiments, the air fryer further comprises: the motor base is arranged in the machine shell and positioned above the upper lining, the driving motor is arranged on the motor base, a second wire limiting buckle is arranged on the motor base, a second wire routing hole for a power supply wire to pass through is defined by the second wire limiting buckle, and the power supply wire passes through the second wire routing hole and is connected with the driving motor; and the timer is arranged in the shell and positioned above the upper lining, and the power supply conducting wire is also connected with the timer.

In these embodiments, after the power supply conducting wire passes over the upper edge of the lower lining and turns inwards, the power supply conducting wire can pass over the motor base through the limit of the second conducting wire limit buckle to be electrically connected with the driving motor, so that power can be conveniently supplied to the driving motor. The power supply wire can also supply power with a timer above the upper lining, the power supply is convenient, and the power supply wire is tidy in routing.

In some embodiments, the exhaust window seat is provided with an internal threaded column, and the side wall of the upper liner is provided with a mounting hole through which a screw is inserted into the internal threaded column. The connection is firm.

In some embodiments, a side of the exhaust window seat facing the upper liner is provided with a limiting column, and the upper liner is provided with a limiting hole matched with the limiting column. The exhaust window seat is convenient to mount, the limiting columns are enabled to be quickly aligned to the limiting holes, and the exhaust window seat is rapidly mounted in place.

In some embodiments, the louver is snap-fit to the louver seat. Simple structure and convenient connection.

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 invention will become more apparent from the following description of the embodiments taken in conjunction with the accompanying drawings, in which:

FIG. 1 illustrates a schematic structural view of an air fryer pot according to an embodiment of the present application;

FIG. 2 illustrates a schematic view of the internal structure of an air fryer in accordance with an embodiment of the present application;

FIG. 3 illustrates a schematic view of the exhaust window mount and wire support mount of an embodiment of the present application;

FIG. 4 illustrates another schematic structural view of an exhaust window mount and wire support mount of an embodiment of the present application;

FIG. 5 illustrates a partially disassembled schematic view of an air fryer pot according to an embodiment of the present application;

FIG. 6 illustrates a partial longitudinal cross-sectional schematic view of an air fryer according to an embodiment of the present application.

Fig. 1 to 6 are numbered as follows:

10 a machine shell, 110 a shell main body, 120 a shell bottom cover,

20 liner assembly, 210 upper liner, 211 fitting hole, 212 limiting hole, 220 lower liner,

310 exhaust window seats, 311 internal thread columns, 312 spacing columns, 320 exhaust windows,

40 of the power supply lead wire,

50 a lead supporting seat, 510 a first supporting part, 511 a first limiting rib, 520 a second supporting part, 521 a second limiting rib, 530 a first lead limiting buckle,

60 terminal blocks, 610 wire outlets, 620 wire inlets,

710 motor seat, 711 second wire limit buckle, 712 third wire limit buckle, 713 fourth wire limit buckle, 720 driving motor,

80 of the time-out device,

and 90, controlling the temperature.

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 present disclosure, in addition to operations that must occur in a particular order. Moreover, descriptions of features known in the art may be omitted for greater 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.

In the present application, the definitions of the terms "upper", "lower", "top" and "bottom" are based on the orientation of the product in the normal use state, unless otherwise specified.

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.

An air fryer provided by an embodiment of the present invention will be described with reference to fig. 1 to 6.

As shown in fig. 1 and 2, an embodiment of the present invention provides an air fryer, which includes: the device comprises a machine shell 10, wherein a mounting opening is formed in the side wall of the machine shell 10; the inner liner assembly 20 is arranged in the casing 10, the inner liner assembly 20 comprises an upper inner liner 210 and a lower inner liner 220, the lower inner liner 220 approximately encloses a cylinder shape, the upper inner liner 210 covers the top of the lower inner liner 220, and the upper inner liner 210 is provided with an air outlet corresponding to the position of the mounting opening; the exhaust window seat 310 is connected with the upper liner 210 at a position corresponding to the exhaust port, and the exhaust window 320 is embedded in the mounting port and connected with the exhaust window 320; a power supply wire 40, a portion of the power supply wire 40 extending upward along the gap between the lower liner 220 and the cabinet 10 and then being bent inward beyond the upper edge of the upper liner 210; and a wire support seat 50 disposed on the exhaust window seat 310, wherein the wire support seat 50 includes a first support portion 510, at least a portion of the first support portion 510 is higher than an upper edge of the lower liner 220 and is located between an upward extension line of the lower liner 220 and the casing 10, and the first support portion 510 faces a side surface and an upper surface of the casing 10 to support a turn of the power supply wire 40.

According to the air fryer provided by the embodiment of the aspect, the lining component 20 is arranged in the machine shell 10, and the cooking cavity is enclosed by the upper lining 210 and the lower lining 220, so that food materials placed in the cooking cavity can be cooked conveniently. Set up the gas vent on last inside lining 210, with exhaust window seat 310 corresponding to the position installation on last inside lining 210 of gas vent to make exhaust window 320 fix the installing port on exhaust window seat 310, make things convenient for the high temperature gas in the culinary art intracavity to discharge through gas vent, exhaust window seat 310 and exhaust window 320, avoid the culinary art intracavity atmospheric pressure too big, improve the security. Furthermore, the casing 10 and the exhaust window holder 310 may be used to support the exhaust window 320, thereby improving the installation firmness of the exhaust window 320. A gap is left between the lower liner 220 and the casing 10, so that a large amount of heat of the lower liner 220 is prevented from being transferred to the casing 10 to cause glue melting of the casing 10, and a certain routing space is provided for the power supply wires 40, so that a part of the power supply wires 40 can extend upwards along the gap between the lower liner 220 and the casing 10 and then turn inwards over the upper edge of the upper liner 210, and the power supply wires 40 are convenient for supplying power to the electric elements above the upper liner 210. The wire support seat 50 is disposed on the exhaust window seat 310, wherein at least a portion of the first support portion 510 is higher than the upper edge of the lower liner 220 and is located between the upward extension line of the lower liner 220 and the casing 10, and the turning point of the power supply wire 40 is supported by the first support portion 510 toward the side surface and the upper surface of the casing 10, so that the power supply wire 40 can be far away from the upper edge of the lower liner 220, thereby preventing the power supply wire 40 from being scratched by the edge of the liner assembly 20, reducing the probability of surface damage, electric leakage and poor withstand voltage of the power supply wire 40, and reducing the risk of electric shock of users. Moreover, the first supporting portion 510 can support the power supply lead 40 away from the outer surface of the lower liner 220 and the upper surface of the upper liner 210, especially the portion of the power supply lead 40 close to the first supporting portion 510, which can reduce the probability of the power supply lead 40 contacting the high temperature liner assembly 20 and improve the safety. Moreover, the wire support seat 50 is disposed on the exhaust window seat 310, which is more favorable for preventing the temperature of the wire support seat 50 from being too high than the wire support seat 50 disposed on the lining assembly 20, thereby facilitating the safe support of the power supply wire 40.

With regard to the structure of the wire support base 50, in some embodiments, as shown in fig. 2 and 3, the first support part 510 is vertically disposed between the lower liner 220 and the casing 10, a top end of the first support part 510 is higher than an upper edge of the upper liner 210, and a bottom end of the first support part 510 extends in a direction of a lower edge of the upper liner 210.

In these embodiments, the first supporting portion 510 is vertically disposed between the chassis 10 of the lower liner 220, and the top end of the first supporting portion 510 is higher than the upper edge of the upper liner 210, so that after the upper surface of the first supporting portion 510 supports the power supply wire 40, the turning part of the power supply wire 40 is far away from the upper edge of the upper liner 210 and is higher than the connection part of the upper liner 210 and the lower liner 220, thereby reducing the risk of sharp edge scratching. In addition, the bottom end of the first supporting portion 510 extends towards the lower edge of the upper liner 210, so that the area of the side surface of the first supporting portion 510 facing the casing 10 can be increased, thereby facilitating the large-area supporting of the power supply wire 40, reducing the probability of the power supply wire 40 contacting the outer surface of the upper liner 220 at high temperature, and reducing the risk of electric leakage.

Further, as shown in fig. 3 and 4, two ends of the first supporting portion 510 in the width direction are provided with a first limiting rib 511 protruding in a direction away from the lower liner 220, and the first limiting rib 511 is used for limiting and matching with the power supply lead 40. The first limiting ribs 511 at both sides are used for limiting the moving range of the power supply lead 40, so that the power supply lead 40 can be prevented from moving greatly and being separated from the support of the first support part 510, and the probability of the power supply lead 40 contacting the lining assembly 20 is reduced.

In some embodiments, as shown in fig. 2, 3 and 4, the wire support seat 50 further comprises: the second supporting part 520 is positioned on one side of the upper inner liner 210, which faces away from the lower inner liner 220, and the upper surface of the second supporting part 520 is used for supporting the bent power supply lead 40; the second supporting part 520 is connected to the top end of the first supporting part 510, or the second supporting part 520 is separated from the first supporting part 510.

In these embodiments, the wire support base 50 further includes a second support portion 520 located on a side of the upper liner 210 away from the lower liner 220, the upper surface of the second support portion 520 supports the power supply wire 40, and the portion of the first support portion 510 higher than the upper edge of the lower liner 220 supports the bent portion of the power supply wire 40, so as to reduce the probability that the power supply wire 40 contacts the upper surface of the upper liner 210 at high temperature and reduce the risk of electric leakage. The second supporting portion 520 is connected to the top end of the first supporting portion 510, for example, the second supporting portion is substantially 7-shaped, which is convenient to process and is beneficial to improving the structural strength of the wire supporting base 50. Of course, the second supporting portion 520 may be spaced apart from the first supporting portion 510 to better support the power supply wires 40 away from the upper surface of the upper liner 210.

Further, as shown in fig. 3 and 4, one side of the second supporting portion 520 in the width direction is connected to the sidewall of the exhaust window seat 310, the other side of the second supporting portion 520 in the width direction has a second limiting rib 521 protruding upwards, and the second limiting rib 521 is used for limiting and matching with the power supply lead 40. The exhaust window seat 310 and the second limiting rib 521 are used for limiting the moving range of the power supply lead 40, so that the power supply lead 40 can be prevented from being separated from the support of the second support part 520 due to large-amplitude movement, and the probability of contact between the power supply lead 40 and the lining assembly 20 is reduced.

Of course, the second limiting ribs 521 may be provided at both ends of the second support part 520 in the width direction to limit the power supply lead 40.

Further, as shown in fig. 2, an end of the second support part 520 toward the first support part 510 is lapped on an upper edge of the lower liner 220. So that the power supply wires 40 can be bent inward closer to the upper edge of the lower liner 220, reducing the occupied space of the power supply wires 40 in the housing 10. In addition, it is advantageous to improve the installation stability of the wire support base 50 and the exhaust window base 310. Of course, the second supporting portion 520 may also be suspended from the upper liner 210.

In some embodiments, as shown in fig. 2, 3 and 4, the wire support base 50 further comprises: the first wire stopper 530 is disposed on the top of the first supporting portion 510 or the upper surface of the second supporting portion 520, the first wire stopper 530 is substantially in an inverted L shape, and the first wire stopper 530 surrounds a first wire passing hole through which the power supply wire 40 passes. The position of the power supply wire 40 is limited by the first wire limiting buckle 530, so that the power supply wire 40 is prevented from moving greatly and separating from the wire supporting seat 50, and the contact probability of the power supply wire 40 and the lining assembly 20 is reduced.

With respect to the structure of the wire support base 50, in other embodiments, the first support portion 510 is disposed transversely above the upper liner 210, and one end of the first support portion 510 protrudes transversely beyond the upper edge of the lower liner 220. The first support part 510 has a simple structure and is convenient to process. Moreover, the first supporting portion 510 can support the bent portion and a part of the power supply wire 40, so as to prevent the power supply wire 40 from being scratched by the edge of the lining assembly 20, such as by the upper edge of the lower lining 220, and also to make the power supply wire 40 away from the upper surface of the upper lining 210, especially the portion of the power supply wire 40 close to the first supporting portion 510, so as to reduce the probability of the power supply wire 40 contacting the high temperature lining assembly 20, and improve the safety.

Further, two ends of the first supporting portion 510 in the width direction are provided with third limiting ribs, and one end of each third limiting rib close to the casing 10 is exposed out of the first supporting portion 510, so that the power supply lead 40 is limited by the third limiting ribs, and the power supply lead 40 is prevented from being easily separated from the first supporting portion 510.

In this case, a third lead stopper 712 may be provided on the upper surface of the first support part 510 to further limit the power supply lead 40.

With regard to the structure of the wire support base 50, in further embodiments, the first support portion 510 is formed in a rod shape and stands on the width-direction sidewall of the exhaust window base 310, and the first support portion 510 is substantially flush with the upper edge of the adjacent lower liner 220. The first supporting portion 510 has a simple structure, saves materials and costs, and can reduce the space occupied in the casing 10. Moreover, the first supporting portion 510 can support the bent portion of the power supply wire 40, so as to prevent the bent portion from rubbing and scratching the edge of the lining assembly 20, such as the upper edge of the lower lining 220, thereby reducing the risk of current leakage of the power supply conduit.

Further, the end of the first supporting portion 510, which is far away from the exhaust window seat 310, has a fourth limiting rib, which is beneficial to limiting the power supply wire 40 through the fourth limiting rib and the exhaust window seat 310, and thus the power supply wire 40 is prevented from being easily separated from the first supporting portion 510.

In this case, a fourth wire stopper 713 may be provided on the upper surface of the first support part 510 to further limit the power supply wire 40.

In some embodiments, as shown in fig. 2, 3 and 4, the wire support base 50 is attached to one end of the exhaust window base 310 in the width direction. The exhaust is not affected, and the power supply wire 40 supported by the wire support seat 50 is shielded by a part of the housing 10 at the periphery of the mounting opening, so that the user can be prevented from observing the power supply wire 40 through the exhaust window 320. In addition, it is convenient to connect the wire support base 50 and the exhaust window base 310 together.

In some embodiments, the wire support base 50 is integrally formed with the exhaust window base 310. Is favorable for ensuring the connection stability of the two. And the processing is convenient, reduces the spare part, and convenient equipment.

Of course, in other embodiments, the wire support base 50 and the exhaust window base 310 may be formed as a separate structure and then assembled together.

In some embodiments, as shown in fig. 3, the length L of the wire support seat 50 in the horizontal direction ranges from 5mm to 50mm. It is advantageous to provide sufficient support length for the power supply lead 40.

In some embodiments, as shown in fig. 2 and 5, the air fryer further comprises: the junction box 60 is arranged at the bottom of the side wall of the casing 10 and is positioned below the mounting opening, a wire outlet 610 is arranged on the part of the junction box 60 extending into the casing 10, the wire outlet 610 is positioned right below the wire supporting seat 50, and a wire inlet 620 is arranged on the part of the junction box 60 exposed out of the casing 10; the power supply wire 40 sequentially passes through the wire inlet 620 and the wire outlet 610 and extends toward the wire support base 50, and the power supply wire 40 between the wire inlet 620 and the wire support base 50 is suspended and vertically extends upward compared to the outer surface of the lower liner 220. The power supply lead 40 can be prevented from contacting with the outer surface of the lower liner 220, the influence of the liner 220 on the power supply lead 40 at high temperature is reduced, and the problems of electric leakage, electric shock by mistake of a user, poor voltage resistance and the like are avoided.

Further, as shown in fig. 2, the wire inlet 620 is located on a side wall in the width direction of the junction box 60. The power supply wire 40 enters the junction box 60 from the side direction of the junction box 60, and under the condition that the routing length of the power supply wire 40 from the position where the power supply wire 40 extends into the junction box 60 to the line branching point of the power supply wire 40 is consistent, compared with the condition that the power supply wire 40 extends straightly in the junction box 60, the line branching point of the power supply wire 40 is beneficial to being far away from the metal structure in the casing 10 and cannot be sent to the casing 10 straightly, so that the phenomenon that the temperature rise of the line branching point of the power supply wire 40 is too high under the influence of the high temperature in the casing 10 is avoided, and the use safety of the power supply wire 40 is improved.

Further, as shown in fig. 2, the wire outlet 610 is also located on the side wall in the width direction of the junction box 60. The power supply wires 40 may extend substantially in a chevron shape 21274in the terminal box 60, and the side wall of the terminal box 60 near the lining assembly 20 may also insulate the power supply wires 40 in the terminal box 60, thereby improving the safety of the power supply wires 40 in use. In addition, compared with the wire outlet 610 disposed on the side wall of the junction box 60 facing the inner liner assembly 20, the wire outlet 610 is advantageously far away from the lower inner liner 220, so that the power supply wire 40 does not get too close to the lower inner liner 220 after extending out of the wire outlet 610, thereby reducing the risk of electric leakage.

Further, as shown in fig. 1 and 2, the set cover 10 includes a case main body 110 and a case bottom cover 120, and a portion of the terminal block 60 is integrally formed with the case bottom cover 120.

In some embodiments, as shown in fig. 2 and 5, the air fryer further comprises: the motor base 710 is arranged in the machine shell 10 and positioned above the upper liner 210, the driving motor 720 is arranged on the motor base 710, a second lead limiting buckle 711 is arranged on the motor base 710, the second lead limiting buckle 711 is surrounded to form a second wiring hole for the power supply lead 40 to pass through, and the power supply lead 40 passes through the second wiring hole and is connected with the driving motor 720; and a timer 80 disposed in the casing 10 and above the upper liner 210, wherein the power supply line 40 is further connected to the timer 80.

In these embodiments, after the power supply wire 40 turns inward over the upper edge of the lower liner 220, the power supply wire may pass through the motor seat 710 via the second wire retaining buckle 711 to be electrically connected to the driving motor 720, so as to supply power to the driving motor 720. The power supply wire 40 can also supply power to the timer 80 above the upper liner 210, so that the power supply is convenient, and the power supply wire 40 is neatly wired.

Of course, the power supply wire 40 may also supply power to other electric elements, such as the temperature controller 90 mounted on the upper liner 210, as shown in fig. 2 and 5, etc., which are not listed here.

Further, as shown in fig. 5, other wire-limiting buckles, such as a third wire-limiting buckle 712 and a fourth wire-limiting buckle 713, may be further disposed on the motor base 710 to limit another part of the power supply wires 40, so that the power supply wires 40 are neatly wired in the chassis 10.

Further, the air fryer also comprises a heating pipe and an air guide fan blade, wherein a terminal of the heating pipe penetrates through the upper liner 210 and is connected with a power supply lead 40 positioned above the upper liner 210, the air guide fan blade is positioned in a cooking cavity surrounded by the upper liner 210 and the lower liner 220, and an output shaft of the driving motor 720 penetrates through the upper liner 210 and is connected with the air guide fan blade.

As for the connection manner of the exhaust window holder 310, in some embodiments, as shown in fig. 3, 4, 5 and 6, an internally threaded column 311 is provided on the exhaust window holder 310, a fitting hole 211 is provided on a sidewall of the upper liner 210, and a screw is inserted into the internally threaded column 311 through the fitting hole 211. The connection is firm.

In some embodiments, as shown in fig. 3, 4, 5 and 6, a limiting column 312 is disposed on a side of the exhaust window seat 310 facing the upper liner 210, and a limiting hole 212 adapted to the limiting column 312 is disposed on the upper liner 210. The limiting column 312 can be conveniently aligned to the limiting hole 212 quickly in the process of installing the exhaust window seat 310, so that the exhaust window seat 310 can be installed in place quickly.

In a specific application, as shown in fig. 3 and 4, the number of the internal threaded columns 311 is two and is distributed on two sides of the exhaust window seat 310 in the width direction, and the number of the limiting columns 312 is two and is distributed on two sides of the exhaust window seat 310 in the width direction. The two limiting columns 312 are respectively located above one internal thread column 311.

Regarding the connection manner of the exhaust window seat 310 and the exhaust window 320, in some embodiments, the exhaust window 320 is in snap connection with the exhaust window seat 310. Simple structure and convenient connection. Of course, in other embodiments, the two can be connected together by screws.

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, comprising:

the device comprises a machine shell (10), wherein a mounting opening is formed in the side wall of the machine shell (10);

the inner liner assembly (20) is arranged in the machine shell (10), the inner liner assembly (20) comprises an upper inner liner (210) and a lower inner liner (220), the lower inner liner (220) is approximately enclosed into a cylinder shape, the upper inner liner (210) covers the top of the lower inner liner (220), and an exhaust port is formed in the position, corresponding to the mounting port, of the upper inner liner (210);

the exhaust window seat (310) is connected with the upper lining (210) at a position corresponding to the exhaust port, and the exhaust window (320) is embedded in the mounting port and connected with the exhaust window (320);

a power supply wire (40), a portion of which (40) extends upward along a gap between the lower liner (220) and the cabinet (10) and then turns inward beyond an upper edge of the upper liner (210);

wire supporting seat (50), set up in exhaust window seat (310), wire supporting seat (50) includes first supporting part (510), at least part of first supporting part (510) is higher than the upper edge of lower inside lining (220) and is located the ascending extension line of lower inside lining (220) with between casing (10), first supporting part (510) orientation the side surface and the upper surface of casing (10) are used for supporting power supply wire (40) the turn.

2. An air fryer according to claim 1, wherein the first support portion (510) is provided upright between the lower liner (220) and the cabinet (10), a top end of the first support portion (510) being higher than an upper edge of the upper liner (210), a bottom end of the first support portion (510) extending in a direction of a lower edge of the upper liner (210).

3. An air fryer according to claim 2 wherein said wire support base (50) further comprises:

a second support part (520) located on a side of the upper liner (210) facing away from the lower liner (220), wherein an upper surface of the second support part (520) is used for supporting the power supply lead (40) after bending;

wherein the second supporting part (520) is connected to the top end of the first supporting part (510), or the second supporting part (520) is separated from the first supporting part (510).

4. An air fryer according to claim 3, wherein both ends of the first supporting part (510) in the width direction are provided with first limiting ribs (511) protruding in the direction away from the lower liner (220), and the first limiting ribs (511) are used for limiting and matching with the power supply lead (40); and/or

One side of the second supporting part (520) in the width direction is connected with the side wall of the exhaust window seat (310), the other side of the second supporting part (520) in the width direction is provided with a second limiting rib (521) protruding upwards, and the second limiting rib (521) is used for being in limiting fit with the power supply lead (40); and/or

The second support part (520) is erected on an upper edge of the lower liner (220) toward one end of the first support part (510).

5. An air fryer according to claim 3, wherein said wire support base (50) further comprises:

the first wire limiting buckle (530) is arranged at the top of the first supporting part (510) or on the upper surface of the second supporting part (520), the first wire limiting buckle (530) is approximately in an inverted L shape, and the first wire limiting buckle (530) surrounds a first wiring hole for the power supply wire (40) to pass through.

6. An air fryer according to claim 1 wherein said first support (510) is positioned laterally above said upper liner (210), one end of said first support (510) projecting laterally beyond an upper edge of said lower liner (220); or

The first supporting portion (510) is in a rod shape and is vertically arranged on the side wall of the exhaust window seat (310) in the width direction, and the first supporting portion (510) is approximately flush with the upper edge of the adjacent lower lining (220).

7. The air fryer according to claim 1, wherein said wire support base (50) is attached to one end of said exhaust window base (310) in a width direction; and/or

The lead supporting seat (50) and the exhaust window seat (310) are integrally formed; and/or

The length range of the lead supporting seat (50) in the horizontal direction is 5mm to 50mm.

8. The air fryer according to any one of claims 1 to 7, further comprising:

the junction box (60) is arranged at the bottom of the side wall of the machine shell (10) and is positioned below the mounting opening, a wire outlet (610) is arranged on the part, extending into the machine shell (10), of the junction box (60), the wire outlet (610) is positioned right below the wire supporting seat (50), and a wire inlet (620) is arranged on the part, exposed out of the machine shell (10), of the junction box (60);

the power supply lead (40) sequentially passes through the lead inlet (620) and the lead outlet (610) and extends towards the direction of the lead support seat (50), and the power supply lead (40) between the lead inlet (620) and the lead support seat (50) is suspended and vertically extends upwards compared with the outer surface of the lower liner (220).

9. The air fryer according to any one of claims 1 to 7, further comprising:

the motor base (710) is arranged in the machine shell (10) and located above the upper lining (210), the driving motor (720) is arranged on the motor base (710), a second lead limiting buckle (711) is arranged on the motor base (710), the second lead limiting buckle (711) surrounds a second wiring hole for the power supply lead (40) to pass through, and the power supply lead (40) passes through the second wiring hole and is connected with the driving motor (720);

the timer (80) is arranged in the shell (10) and is positioned above the upper lining (210), and the power supply lead (40) is also connected with the timer (80).

10. An air fryer according to any one of claims 1 to 7, wherein the exhaust window holder (310) is provided with an internally threaded post (311), the side wall of the upper liner (210) is provided with a fitting hole (211), and a screw is inserted into the internally threaded post (311) through the fitting hole (211);

one side, facing the upper lining (210), of the exhaust window seat (310) is provided with a limiting column (312), and the upper lining (210) is provided with a limiting hole (212) matched with the limiting column (312);

the exhaust window (320) is connected with the exhaust window seat (310) in a buckling mode.

Images