CN215348443U - Air fryer reasonable in layout - Google Patents

Abstract

The utility model relates to an air fryer with reasonable layout. The motor setting of current air fryer is in the chamber top of cooking, leads to the casing higher, influences the use and experiences. The electric fryer comprises a shell with a built-in cooking cavity, wherein a hot air assembly is arranged at the top of the cooking cavity and comprises a fan and a heating element, a fryer assembly is arranged in the cooking cavity, an opening for inserting and pulling the fryer assembly is formed in the front wall of the cooking cavity, hot air generated by the hot air assembly is input into the cooking cavity to cook food materials in the fryer assembly, and a motor is arranged on the side of the shell and drives the fan to rotate through a transmission assembly so as to reduce the height of the shell. With the motor setting at the casing lateral part, effectively utilize casing lateral part space, reduce the casing height, both come convenient transportation and accomodate through reducing the casing size, still through reducing the casing focus to promote the stationarity when the air fried pot moves, promote to use and experience. The motor transmits driving force to the fan through the transmission assembly after being biased, and normal rotation of the fan is guaranteed.

Description

Air fryer reasonable in layout

Technical Field

The utility model relates to the field of food processing, in particular to an air fryer.

Background

The current air is fried pot and is included the casing of built-in culinary art chamber, culinary art chamber top is equipped with hot-blast subassembly, hot-blast subassembly includes the fan and generates heat the piece, the culinary art intracavity is equipped with fried pot subassembly, the antetheca in culinary art chamber is seted up and is supplied the opening of frying a pot subassembly plug, and the hot-blast input that hot-blast subassembly produced cooks the chamber and eats the material in order to make the fried pot subassembly thoroughly, and the casing top is equipped with driving fan pivoted motor, the motor sets up in the fan top and each other be coaxial setting, leads to the casing height great, has both increased the casing volume, is unfavorable for the transportation and accomodates, still leads to the air to fry the pot because of the focus rises and influence the operation stationarity, influences the use and experiences.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides the air fryer with reasonable layout, the motor is arranged on the side part of the shell, so that the height of the shell is reduced, the storage and the transportation are convenient, the operation stability is improved, and the use experience is improved.

The utility model is realized by the following modes: the utility model provides a rationally distributed air fryer, includes the casing of built-in culinary art chamber, culinary art chamber top is equipped with hot-blast subassembly, hot-blast subassembly includes the fan and generates heat the piece, the culinary art intracavity is equipped with the fryer subassembly, the opening that supplies to fry the plug of pot subassembly is seted up to the antetheca in culinary art chamber, and the hot-blast input that hot-blast subassembly produced cooks the chamber and eats the material in order to make cooked fryer subassembly, the casing lateral part is equipped with the motor, the motor orders about the fan through transmission assembly and rotates to reduce casing height. With the motor setting at the casing lateral part, effectively utilize casing lateral part space, reduce the casing height, both come convenient transportation and accomodate through reducing the casing size, still through reducing the casing focus to promote the stationarity when the air fried pot moves, promote to use and experience. The motor transmits driving force to the fan through the transmission assembly after being biased, and normal rotation of the fan is guaranteed.

Preferably, the transmission assembly comprises a vertically arranged transmission rod, the top end of the transmission rod is exposed and linked with the motor shaft, and the bottom end of the transmission rod downwards penetrates through the top wall of the cooking cavity and is coaxially and fixedly connected with the fan. The transmission rod is used for receiving the driving force from the motor and transmitting the driving force to the fan, so that the fan can rotate under the driving of the motor. The transfer line is coaxial setting each other with the fan for transfer line and fan homoenergetic carry out the rotation in predetermineeing the space, effectively reduce transfer line and fan and rotate required space, and then reduce the casing volume.

Preferably, the motor is mounted on the side of the housing with its axis horizontally disposed so that the motor shaft extends outwardly along its axis and drives the drive rod to rotate via the drive assembly. The motor is arranged on the side part of the shell in a mode that the axis is horizontally arranged, so that the motor shaft extends towards the middle part of the shell and is conveniently connected with the transmission assembly. Because the casing is the axis level setting, utilizes the radial space of casing to hold the axial length of motor for the casing only needs to provide less radial length who highly holds the motor, effectively reduces the height in the required space of installation motor, and then reduces the casing height.

Preferably, the transmission assembly comprises two conical teeth which are engaged in a matching manner, and the conical teeth are fixedly connected to the top end of the transmission rod and the extension end of the motor shaft respectively. The axes of the two conical teeth are perpendicular to each other and are respectively fixedly connected and linked with the transmission rod and the motor shaft, so that the driving force is effectively transmitted. The tapered teeth can rotate, the space required by the operation of the transmission assembly is effectively controlled, and the size of the shell is further reduced.

Preferably, the transmission assembly comprises a worm fixedly connected with the motor shaft and a worm wheel fixedly connected with the transmission rod. The axes of the worm and the worm wheel are perpendicular to each other and are respectively fixedly connected and linked with the transmission rod and the motor shaft, so that the effective transmission of the driving force is realized. The worm has the speed reduction function when cooperating with the worm wheel for the fan has the bigger moment of torsion, and the amount of wind that produces when effectively increasing the fan rotates promotes heat transfer efficiency.

Preferably, the motor is arranged on the side part of the shell in an axis vertical mode, so that the top end of the motor shaft drives the transmission rod to rotate through the transmission assembly. The motor sets up at the casing lateral part with the axis is vertical, and the motor shaft extends from bottom to top and links through drive assembly and fan, can effectively utilize casing lateral part space, reduces the casing height through reducing motor mounting height, still ensures the motor shaft and the stable linkage of fan.

Preferably, the transmission assembly comprises a driving gear and a transmission gear, the axes of the driving gear and the transmission gear are arranged in parallel, the driving gear is fixedly sleeved on the top end of the motor shaft, and the transmission gear is fixedly sleeved on the top end of the transmission rod. The axes of the driving gear and the transmission gear are vertically arranged and are respectively matched and linked with the motor shaft and the transmission rod, so that the effective transmission of the driving force is ensured. Because the driving gear and the transmission gear are both vertically arranged along the axis, the influence of the thickness of the driving gear and the transmission gear on the height of the shell is small, and the height of the shell can be effectively reduced.

Preferably, the transmission assembly comprises a driving wheel, a transmission wheel and a belt connected between the driving wheel and the transmission wheel, the driving wheel is sleeved and fixedly connected to the top end of the motor shaft, and the transmission wheel is sleeved and fixedly connected to the top end of the transmission rod. The axes of the driving wheel and the driving wheel are vertically arranged and are respectively matched and linked with the motor shaft and the transmission rod, so that the effective transmission of the driving force is ensured. The driving force is transmitted between the driving wheel and the driving wheel by the aid of the belt, diameters of the driving wheel and the driving wheel can be effectively reduced, appropriate installation space can be obtained by increasing the offset amplitude of the motor, and the installation space occupied by the driving assembly is reduced.

Preferably, the transmission ratio of the transmission assembly is A, and A is more than 1. The transmission assembly has a speed reduction function, and the fan generates larger air volume through increasing torque, so that the heat transfer efficiency is improved.

Preferably, the motor is fixedly connected to the side of the housing through a bracket, so that the motor shaft drives the fan to rotate through the transmission assembly. The support plays the fixed action to the motor, guarantees the condition that the skew can not take place for the motor when the operation, and then guarantees that the motor shaft is with the stable linkage of transmission assembly.

The utility model has the beneficial effects that: with the motor setting at the casing lateral part, effectively utilize casing lateral part space, reduce the casing height, both come convenient transportation and accomodate through reducing the casing size, still through reducing the casing focus to promote the stationarity when the air fried pot moves, promote to use and experience. The motor transmits driving force to the fan through the transmission assembly after being biased, and normal rotation of the fan is guaranteed.

Drawings

FIG. 1 is a schematic cross-sectional view of an air fryer in accordance with an embodiment;

FIG. 2 is a partially disassembled view of the air fryer in accordance with the second embodiment;

FIG. 3 is a partial schematic structural view of the transmission assembly according to the second embodiment;

FIG. 4 is a partially disassembled view of the air fryer in accordance with the third embodiment;

FIG. 5 is a partially disassembled schematic view of an air fryer in accordance with an embodiment four;

in the figure: 1. the deep fryer comprises a shell, 11, a fan, 12, a heating element, 13, a motor, 131, a motor shaft, 14, a support, 2, a deep fryer component, 3, a transmission component, 31, a transmission rod, 32, tapered teeth, 33, a worm, 34, a worm wheel, 35, a driving gear, 36 and a transmission gear.

Detailed Description

The essential features of the utility model will be further explained below with reference to the drawings and the detailed description of the specification.

The first embodiment is as follows:

the embodiment provides an air fryer with reasonable layout.

An air fryer reasonable in layout as shown in figure 1 comprises a shell 1 with a built-in cooking cavity, wherein a hot air assembly is arranged at the top of the cooking cavity and comprises a fan 11 and a heating element 12, the cooking cavity is internally provided with a fryer assembly 2, an opening for plugging and unplugging the fryer assembly 2 is formed in the front wall of the cooking cavity, hot air generated by the hot air assembly is input into the cooking cavity to cook food materials in the fryer assembly 2, a motor 13 is arranged on the side part of the shell 1, and the motor 13 drives the fan 11 to rotate through a transmission assembly 3 so as to reduce the height of the shell 1.

In this embodiment, the heating cavity is arranged above the cooking cavity, a hot air assembly is arranged in the heating cavity, an air guide cover is arranged at the top of the shell 1, the bottom surface of the air guide cover is upwards sunken to form the top wall and the side wall of the heating cavity and wrap the hot air assembly, an opening communicated with the cooking cavity is formed in the bottom of the air guide cover, and hot air generated by the hot air assembly flows downwards into the cooking cavity under the guidance of the air guide cover, so that food materials in the fryer assembly 2 are heated and cooked. In this structure, the wind scooper both plays the effect of guiding hot-blast towards predetermineeing regional flow, ensures that the heat is concentrated and is carried to the culinary art intracavity, promotes to eat material cooked efficiency, still plays thermal-insulated effect, prevents that the heat that hot-blast subassembly produced from to the transmission of casing 1 top, prevents that the electric element in the casing 1 top from breaking down because of the ambient temperature that is located rises, ensures the stability in use of air fryer, promotes and uses experience.

In this embodiment, the hot air assembly includes a fan 11 and a heating element 12, the fan 11 is located above the heating element 12, the fan 11 axially extracts air in the cooking cavity and forms an air flow blowing downwards along the side wall of the wind scooper, the air flow passes through the heating element 12 to absorb heat and form hot air flowing into the cooking cavity, and the hot air contacts with the food material after flowing into the air fryer and realizes heat transfer, so that the food material is gradually cooked from outside to inside. The hot-blast can lead to the temperature to reduce and spread to the culinary art chamber because of eating the material contact, provides the air supply for being extracted the heating once more by hot-blast subassembly to this carries out circulation extraction heating to the air and promotes heat utilization efficiency.

In this embodiment, the fryer assembly 2 includes a pot body and a handle, the front wall of the housing 1 is provided with an opening, when the fryer assembly is installed, a user holds the handle and drives the pot body to pass through the opening from front to back and insert the pot body into the cooking cavity, and when the fryer assembly is installed in place, the front wall of the pot body seals the opening, so that the cooking cavity is isolated from the external space, and the cooking efficiency is improved by reducing heat loss.

The top center of the existing air fryer is provided with a motor 13 for driving a fan 11 to rotate, the motor 13 is arranged above an air guide cover in an axis vertical arrangement mode, a motor shaft 131 is vertically aligned with the axis of the fan 11, when the air fryer is installed, the motor shaft 131 penetrates through the air guide cover from top to bottom and is inserted and fixedly connected in the middle of the fan 11, when the air fryer is used, the motor shaft 131 rotates and drives the fan 11 to rotate, so that the fan 11 obtains hot air required by heating food materials by driving peripheral air to flow to a heating part 12. Because motor 13 erects in the top of fan 11, lead to motor 13 top position higher, casing 1 need provide installation space for the motor 13 of erectting, both can lead to the high increase of casing 1, lead to the air to explode the pot because of the great inconvenience of bringing of transportation and accomodating of volume, still can have the risk of empting easily in the operation because of the air explodes the pot focus higher, influence safety in utilization. For this reason, set up motor 13 in casing 1 lateral part, and motor shaft 131 drives fan 11 through drive assembly 3 and rotates, reduces casing 1 height through rational utilization casing 1 lateral part space, can promote the transportation through reducing casing 1 height, accomodate the convenience, promotes to use and experiences, can highly promote through reducing casing 1 again and prevent empting the performance, promotes the stability of air fryer when the operation, ensures safe in utilizationly.

In the present embodiment, the motor 13 is disposed at a side of the housing 1. Compare in the scheme of the vertical superpose of motor 13 and culinary art chamber in original structure, have the characteristics of the lateral space of rational utilization casing 1, provide installation space for motor 13 through avoiding the culinary art chamber, effectively reduce installation space's the height that sets up, and then reduce casing 1's overall height. Due to the distance between the offset motor 13 and the axis of the fan 11, a transmission structure is required to transmit the driving force between the motor shaft 131 and the fan 11.

Example two:

in contrast to the first embodiment, the present embodiment provides a specific air fryer structure.

As shown in fig. 2, the transmission assembly 3 includes a transmission rod 31 vertically disposed, a top end of the transmission rod 31 is exposed and linked with the motor shaft 131, and a bottom end thereof downwardly passes through a top wall of the cooking cavity and is coaxially and fixedly connected with the fan 11. Specifically, the transmission rod 31 is a rod vertically arranged, the bottom end of the transmission rod 31 penetrates through the wind scooper from top to bottom and is fixedly connected with the middle part of the fan 11, and the top end of the transmission rod 31 is exposed above the wind scooper and is used for receiving the driving force from the motor shaft 131.

In this embodiment, the motor 13 is installed at the side of the housing 1 with its axis horizontally, so that the motor shaft 131 extends outward along its axis and drives the transmission rod 31 to rotate through the transmission assembly 3. The motor shaft 131 is horizontally arranged, so that the installation space required by the motor 13 is changed from the original vertical cylindrical profile to the horizontal cylindrical profile, and the radial dimension of the motor 13 is smaller than the axial dimension, so that the height of the installation space is reduced, and the overall height of the shell 1 is further reduced.

In this embodiment, the transmission rod 31 and the motor shaft 131 are driven by two matching and engaging conical teeth 32 (as shown in fig. 3), and the conical teeth 32 are respectively fixed to the top end of the transmission rod 31 and the extension end of the motor shaft 131. The tapered teeth 32 are frustum-shaped, and the tapered surfaces of the tapered teeth 32 are provided with tooth bodies, so that the tapered teeth 32 with mutually perpendicular axes are in matching meshing transmission through the tooth bodies. Specifically, the transmission rod 31 and the motor shaft 131 are vertically arranged in the same vertical plane, the top end of the transmission rod 31 and the extension end of the motor shaft 131 are respectively inserted and fixedly connected into the corresponding conical teeth 32, and when the fan is used, the rotating motor shaft 131 drives the transmission rod 31 to rotate through the conical teeth 32 which are engaged in a matching manner, so that the fan 11 is driven to rotate in the hot air cavity and generate air flow required for transferring heat.

In the present embodiment, the tapered teeth 32 have different diameters, the transmission ratio of the transmission assembly 3 is a, a =1.5, and both the size difference between the tapered teeth 32 is reduced to reduce the installation space required by the transmission assembly 3 and ensure that the transmission assembly 3 has the function of speed reduction, and the rotation torque of the fan 11 is increased to increase the air volume.

In this embodiment, the motor 13 is fixed to the side of the housing 1 by a bracket 14, so that the motor shaft 131 drives the fan 11 to rotate through the transmission assembly 3. The bracket 14 is fixedly connected to the inner side wall of the housing 1 and provides stable support for the motor 13, so that the motor shaft 131 and the conical teeth 32 fixed thereon can rotate around a fixed axis, the conical teeth 32 are prevented from being separated due to radial deviation of the motor shaft 131, and the transmission stability is ensured.

In this embodiment, a D-shaped through hole is formed in the middle of the bottom surface of the conical tooth 32, and the radial cross sections of the top end of the transmission rod 31 and the outer extension end of the motor shaft 131 are both D-shaped, so that the transmission rod 31 and the motor shaft 131 can be matched and linked with the corresponding conical tooth 32, and further, the stable transmission of the driving force between the motor shaft 131 and the fan 11 is ensured.

It is understood that the parameter a may also be 1.1, 1.4, 1.6, 2, 3, etc., as long as the requirement that a > 1 is met.

Other structures and effects of the air fryer in this embodiment are consistent with those of the embodiment, and are not described again.

Example three:

in contrast to the second embodiment, this embodiment provides another specific air fryer structure.

As shown in fig. 4, the transmission assembly 3 includes a worm 33 fixed to the motor shaft 131 and a worm wheel 34 fixed to the transmission rod 31. The axis of the worm 33 is perpendicular to the axis of the worm wheel 34, so that the motor shaft 131 is matched and linked with the transmission rod 31.

When the motor is installed, the worm 33 is fixedly connected to the extended end of the motor shaft 131, the worm wheel 34 is fixedly connected to the top end of the transmission rod 31 in a sleeved manner, and the motor 13 drives the worm 33 to rotate and drives the transmission rod 31 to rotate through the worm wheel 34. After the worm 33 is installed in place, the worm wheel 34 is arranged above the cooking cavity in an axis vertical mode and is coaxially arranged with the fan 11, the motor 13 is arranged on the side portion of the shell 1, and the axis of the motor shaft 131 is overlapped with the tangent line of the worm wheel 34, so that the worm 33 can be matched and meshed with the peripheral teeth of the worm wheel 34 after being installed.

In the embodiment, the transmission mode of the worm 33 and the worm wheel 34 has a speed reduction function, and the torque of the fan 11 is increased by greatly reducing the rotating speed, so that a larger airflow flow rate is obtained.

Other structures and effects of the air fryer in this embodiment are consistent with those of the second embodiment, and are not described again.

Example four:

in contrast to the second embodiment, this embodiment provides another specific air fryer structure.

As shown in fig. 5, the motor 13 is mounted on the side of the housing 1 in an axis-vertical manner, so that the top end of the motor shaft 131 drives the transmission rod 31 to rotate through the transmission assembly 3. The motor 13 is arranged in the space on the side of the cooking cavity of the shell 1, the installation height of the motor 13 is reduced by reasonably utilizing the space on the side of the cooking cavity, and then the height of the shell 1 is reduced. After the motor shaft 131 and the transmission rod 31 are vertically arranged after being installed in place, and are connected through the transmission assembly 3.

In this embodiment, the transmission assembly 3 includes a driving gear 35 and a transmission gear 36, the axes of which are parallel to each other, the driving gear 35 is fixedly sleeved on the top end of the motor shaft 131, and the transmission gear 36 is fixedly sleeved on the top end of the transmission rod 31. The driving gear 35 and the transmission gear 36 are both flat, so that the height of the installation space required by the transmission assembly 3 is effectively reduced. During installation, the driving gear 35 is sleeved on the extending end of the motor shaft 131 in an axial vertical posture, the transmission gear 36 is sleeved on the top end of the transmission rod 31 in an axial vertical posture, and the driving gear 35 and the transmission gear 36 are arranged at equal heights, so that matching meshing of tooth bodies between the driving gear 35 and the transmission gear 36 is ensured, and the transmission stability is improved by increasing the contact area.

It should be understood that the transmission assembly 3 may be a driving wheel, a transmission wheel, and a belt connected between the driving wheel and the transmission wheel, the driving wheel is sleeved and fixedly connected to the top end of the motor shaft 131, the transmission wheel is sleeved and fixedly connected to the top end of the transmission rod 31, and the driving wheel and the transmission wheel arranged at the same height are transmitted through the belt to cope with the situation that the distance between the motor shaft 131 and the transmission rod 31 is relatively large, which should also be regarded as a specific embodiment of this embodiment.

Other structures and effects of the air fryer in this embodiment are consistent with those of the second embodiment, and are not described again.

Claims (10)

1. The utility model provides a rationally distributed air fryer, includes the casing of built-in culinary art chamber, culinary art chamber top is equipped with hot-blast subassembly, hot-blast subassembly includes the fan and generates heat the piece, the culinary art intracavity is equipped with the fryer subassembly, the opening that supplies the plug of fryer subassembly is seted up to the antetheca in culinary art chamber, and the hot-blast input that hot-blast subassembly produced cooks the chamber and eats the material in order to make cooked fryer subassembly, a serial communication port, the casing lateral part is equipped with the motor, the motor orders about the fan through transmission assembly and rotates to reduce casing height.

2. The air fryer of claim 1, wherein the drive assembly comprises a vertically disposed drive rod having a top end exposed and operatively coupled to the motor shaft and a bottom end extending downwardly through the top wall of the cooking chamber and coaxially secured to the fan.

3. A rational air fryer according to claim 2, wherein said motor is mounted on the side of the housing with its axis horizontal so that the motor shaft extends outwardly along its axis and drives the drive rod through the drive assembly.

4. A rational arrangement air fryer according to claim 3, wherein said drive assembly includes two mating and engaging conical teeth fixedly attached to the top end of said drive rod and the outer extension of the motor shaft, respectively.

5. A rationally distributed air fryer according to claim 3, wherein said drive assembly comprises a worm fixedly connected to the motor shaft and a worm gear fixedly connected to the drive rod.

6. A rational arrangement air fryer according to claim 2, wherein said motor is mounted on the side of the housing in an axially upright manner such that the top end of the motor shaft rotates the drive rod through the drive assembly.

7. The air fryer with reasonable layout as claimed in claim 6, wherein the transmission assembly comprises a driving gear and a transmission gear, the axes of the driving gear and the transmission gear are arranged in parallel, the driving gear is sleeved and fixedly connected to the top end of the motor shaft, and the transmission gear is sleeved and fixedly connected to the top end of the transmission rod.

8. An air fryer with reasonable layout according to claim 6, wherein the transmission assembly comprises a driving wheel, a transmission wheel and a belt connected between the driving wheel and the transmission wheel, the driving wheel is fixedly sleeved on the top end of the motor shaft, and the transmission wheel is fixedly sleeved on the top end of the transmission rod.

9. A rationally distributed air fryer according to any one of claims 1-8, wherein said drive assembly has a drive ratio A > 1.

10. A rationally distributed air fryer according to any one of claims 1-8, wherein said motor is attached to the side of the housing by a bracket such that the motor shaft drives the fan to rotate via a drive assembly.

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