CN215383295U - Air fryer reasonable in layout - Google Patents

Abstract

The utility model relates to an air fryer with reasonable layout. The casing of current air fryer is higher, influences the convenience is accomodate in safety in utilization and transport. The electric fryer comprises a shell with a cooking cavity, wherein a heating cavity is arranged above the cooking cavity, a hot air assembly is arranged in the heating cavity and comprises a fan and a heating pipe, a fryer assembly is arranged in the cooking cavity, hot air generated by the hot air assembly flows downwards into the cooking cavity to cook food materials in the fryer assembly, a biased motor is arranged in the shell and drives the fan to rotate through a transmission assembly, so that the top height of the motor is reduced. Effectively utilize casing lateral space through the biasing motor, and then reduce casing height and volume through reducing motor top height, can promote operating stability through reducing the focus, still conveniently accomodate and transport, promote to use and experience.

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

Present air is fried pot and is equipped with the chamber that generates heat in establishing including, the chamber top of cooking is equipped with the hot-blast subassembly that generates heat, the hot-blast subassembly includes fan and heating tube, the culinary art intracavity is equipped with fried pot subassembly, and hot-blast downward inflow that hot-blast subassembly produced cooks the chamber and explodes the edible material in the pot subassembly with the system cooked, the casing is located the fan top and is equipped with orders about fan pivoted motor, the drive shaft and the coaxial setting of fan of motor for the casing needs reserve the mounted position for the motor in the fan top, leads to casing height increase and focus to promote, both can influence the transportation because of the casing is higher, accomodate the convenience, still can influence the stability when moving because of the focus is too high, influence use experience.

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 top height of the motor is reduced by the offset motor, so that the height of the shell is reduced, the operation stability is improved, the storage and the transportation are convenient, and the use experience is improved.

The utility model is realized by the following modes: the utility model provides a rationally distributed air is fried pot, establishes the casing in the culinary art chamber including establishing, culinary art chamber top is equipped with the chamber that generates heat, the intracavity that generates heat is equipped with hot-blast subassembly, hot-blast subassembly includes fan and heating tube, the culinary art intracavity is equipped with fried pot subassembly, and the hot-blast downward inflow that hot-blast subassembly produced cooks the chamber and fries the edible material in the pot subassembly with the system cooked, be equipped with biased motor in the casing, the motor orders about the fan through drive assembly and rotates to reduce motor top height. Effectively utilize casing lateral space through the biasing motor, and then reduce casing height and volume through reducing motor top height, can promote operating stability through reducing the focus, still conveniently accomodate and transport, promote to use and experience. The motor drives the fan to rotate through the transmission assembly after being biased, so that the fan can stably run and is matched with the heating pipe to form hot air.

Preferably, the motor and the fan are vertically arranged in a staggered manner, and a driving shaft of the motor is linked with a transmission shaft of the fan through the transmission assembly. The motor is vertical to avoid the fan, so that the motor can be effectively utilized the shell is positioned in the space of the side part of the fan, the height of the shell can be reduced through the height of the motor, the linkage of a driving shaft and a driving shaft through a transmission assembly can be further ensured, and the normal operation of the fan is ensured.

Preferably, the transmission assembly comprises a driving wheel linked with the driving shaft and a transmission wheel linked with the transmission shaft, and the driving wheel drives the fan to rotate through the transmission wheel. The driving wheel is fixedly connected to the driving shaft and coaxially linked, the driving wheel is fixedly connected to the transmission shaft and coaxially linked, and the motor drives the fan to rotate through the driving wheel linked with the driving wheel.

Preferably, the driving wheel and the transmission wheel are arranged at the same height. The axes of the driving wheel and the driving wheel are arranged in parallel, and the driving wheel are arranged at equal height, so that the driving wheel and the driving wheel are ensured to be in direct or indirect linkage fit.

Preferably, the transmission assembly comprises a chain bridged between the driving wheel and the transmission wheel, so that the transmission efficiency of the acting force between the transmission wheel and the driving wheel is ensured, and the slipping condition is effectively prevented.

Preferably, the transmission assembly comprises a belt bridged between the driving wheel and the transmission wheel, noise is transmitted, and the motor can be protected by relative sliding between the belt and the driving wheel or the transmission wheel.

Preferably, the driving wheel and the driving wheel are in matched meshing transmission, the driving wheel and the driving wheel are both gears, and matching linkage is realized through meshing.

Preferably, the housing comprises an upper shell and a lower shell, and the upper shell covers the lower shell and encloses the cooking cavity. The shell is split into the upper shell and the lower shell, and the frying pan assembly is conveniently taken and placed by detaching the upper shell. The motor sets up at the epitheca lateral part, effectively reduces the epitheca height.

Preferably, the motor is arranged in the side part of the lower shell, and a driving shaft of the motor is linked with the transmission assembly through a driving assembly, so that the motor drives the fan to rotate. The motor sets up in the lateral part of inferior valve, effectively utilizes inferior valve lateral part space, and the drive shaft of motor passes through drive assembly and drive assembly separation and reunion linkage, has both ensured the convenient dismouting of epitheca and inferior valve, still ensures the smooth transmission between motor and fan.

Preferably, the drive assembly is a shaft coupling and comprises an upper coupling shaft part arranged in the upper shell and connected with the drive assembly and a lower coupling shaft part arranged in the lower shell and connected with the drive shaft, and when the upper shell is closed to the lower shell, the upper coupling shaft part is matched with the lower coupling shaft part for insertion and circumferential linkage. Go up antithetical couplet axial region and both made things convenient for the split, make things convenient for epitheca and inferior valve separation, still make things convenient for circumferential direction linkage after pegging graft, on the drive wheel of transmission assembly is transmitted with the circumference effort of drive shaft, ensure that motor and fan match the linkage.

Preferably, the drive assembly is a magnetic connector and comprises an upper magnetic transmission disc and a lower magnetic transmission disc, wherein the upper magnetic transmission disc is arranged in the upper shell and connected with the drive assembly, the lower magnetic transmission disc is arranged in the lower shell and connected with the drive shaft, and when the upper shell cover is closed to the lower shell, the upper magnetic transmission disc and the lower magnetic transmission disc are matched with magnetic attraction and are linked in the circumferential direction. The magnetic connector realizes circumferential acting force transmission by utilizing magnetic force, ensures that the magnetic connector is hidden in the upper shell and the lower shell, plays a role in protecting the upper magnetic transmission disc and the lower magnetic transmission disc, and can realize adsorption linkage of the upper magnetic transmission disc and the lower magnetic transmission disc after the upper shell is covered in place.

Preferably, the motors are arranged below the driving assembly and are coaxial with each other. The drive shaft of motor and drive assembly's axis each other are coincidence, ensure that the last circumference power of drive shaft can directly transmit to transmission assembly through drive assembly, reduce the loss on the way, and then reduce the energy consumption. The motor sets up in drive assembly below, ensures that drive assembly top can be connected with transmission assembly.

The utility model has the beneficial effects that: effectively utilize casing lateral space through the biasing motor, and then reduce casing height and volume through reducing motor top height, can promote operating stability through reducing the focus, still conveniently accomodate and transport, promote to use and experience.

Drawings

FIG. 1 is a schematic partial cross-sectional view of a fryer assembly according to one embodiment;

FIG. 2 is a schematic drawing in section showing a portion of a fryer assembly according to a second embodiment;

FIG. 3 is a schematic partial cross-sectional view of a fryer assembly according to a third embodiment;

FIG. 4 is a schematic drawing in section with portions broken away showing a fryer assembly according to a fourth embodiment;

FIG. 5 is a schematic drawing in section showing a portion of a fryer assembly according to fifth embodiment;

in the figure: 1. the deep fryer comprises a shell, 11, a fan, 12, a heating pipe, 13, a motor, 14, an upper shell, 15, a lower shell, 2, a deep fryer component, 3, a transmission component, 31, a driving wheel, 32, a transmission wheel, 33, a belt, 4, a driving component, 41, an upper shaft connecting part, 42, a lower shaft connecting part, 43, an upper magnetic transmission disc, 44 and a lower magnetic transmission disc.

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.

The air fryer shown in figure 1 comprises a shell 1 with a cooking cavity arranged therein, wherein a heating cavity is arranged above the cooking cavity, a hot air component is arranged in the heating cavity and comprises a fan 11 and a heating pipe 12, a fryer component 2 is arranged in the cooking cavity, hot air generated by the hot air component flows downwards into the cooking cavity to cook food materials in the fryer component 2, a biased motor 13 is arranged in the shell 1, and the motor 13 drives the fan 11 to rotate through a transmission component 3 so as to reduce the top height of the motor 13.

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 pipe 12, the fan 11 is located above the heating pipe 12, the fan 11 radially extracts air flowing upwards along the side wall of the wind scooper and forms airflow blowing downwards along the axial direction, the airflow absorbs heat through the heating pipe 12 and forms 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 periphery 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 top of the housing 1 is provided with a motor 13 for driving the fan 11 to rotate, the motor 13 is disposed above the wind scooper in a manner that the driving shaft is vertically disposed, the driving shaft of the motor 13 is vertically aligned with the axis of the fan 11, during installation, the driving shaft of the motor 13 passes through the wind scooper from top to bottom and is inserted and fixedly connected to the middle of the fan 11, and during use, the driving shaft rotates and drives the fan 11 to rotate, so that the fan 11 obtains hot air required for heating food materials by driving peripheral air to flow to the heating pipe 12. Because motor 13 erects in the top of fan 11, lead to motor 13 top position higher, both can lead to the high increase of casing 1, lead to the air fryer to influence transport, accomodate the convenience because of the volume is great, still can have the risk of toppling over easily in the operation because of the air fryer focus is higher, influence safety in utilization. For this reason, install motor 13 biasing in casing 1 to drive fan 11 through transmission assembly 3 and rotate, highly reduce casing 1 height through reducing motor 13, both conveniently carry and accomodate through reducing casing 1 volume, still promote operating stability and safety in utilization through reducing the focus, prevent to take place the condition of empting, promote and use experience.

In this embodiment, an offset motor 13 is disposed in the housing 1, and the motor 13 drives the fan 11 to rotate through the transmission assembly 3, so as to reduce the height of the top of the motor 13. The axial line position of motor 13 is improved to the structure with 11 axis dislocation sets of fan by original with 11 coaxial settings of fan axis, effectively utilizes unnecessary space in the casing 1 to reduce motor 13's mounting height, and then highly promotes through reducing casing 1 and uses experience.

In the embodiment, the motor 13 can be set to be lower in height by adjusting the axis setting direction, the axial length of the motor 13 is accommodated by effectively utilizing the horizontal space on the top of the casing 1 above the fan 11, and the top height of the motor 13 is further reduced, and in addition, the motor 13 can also accommodate the motor 13 with the axis vertical to the side space of the casing 1, so that the installation height of the motor 13 is reduced.

Example two:

the present embodiment provides a specific air fryer configuration.

As shown in fig. 2, the motor 13 and the fan 11 are vertically disposed in a staggered manner, and a driving shaft of the motor 13 is linked with a transmission shaft of the fan 11 through the transmission assembly 3. Motor 13 sets up in 1 lateral part of casing, through rational utilization 1 inner chamber of casing is located the motor 13 is installed to the space of fan 11 and culinary art chamber side, specifically, motor 13 is installed at 1 lateral part of casing with the axis mode of erectting, the drive shaft of motor 13 extends from bottom to top and drives fan 11 through drive assembly 3 and rotate, and existing effect utilizes 1 lateral part of casing space, still reduces casing 1 height through the mounted height who reduces motor 13, promotes and uses experience.

In this embodiment, the transmission assembly 3 includes a driving wheel 31 linked with the driving shaft and a transmission wheel 32 linked with the driving shaft, and the driving wheel 31 drives the fan 11 to rotate through the transmission wheel 32. The transmission assembly 3 comprises a belt 33 spanning between the drive wheel 31 and the transmission wheel 32. Specifically, the driving wheel 31 is fixedly sleeved on the driving shaft along the axial direction thereof, the driving wheel 32 is fixedly sleeved on the transmission shaft along the axial direction thereof, the lower end portion of the transmission shaft penetrates through the wind scooper from top to bottom and is fixedly inserted in the middle of the top surface of the fan 11, and the driving wheel 32 and the driving wheel 31 are linked through a tightly hooped belt 33.

In use, the motor 13 is activated and transmits a circumferential force outwards from the drive shaft, which drives the belt 33 via the drive wheel 31, so that the drive wheel 32 drives the fan 11 via the drive shaft to rotate, thereby generating a circulating air flow in the cooking chamber. Acting force transmission is realized between the belt 33 and the driving wheel 31 and between the belt 33 and the transmission wheel 32 through friction, and when any transmission part along the way is clamped, the safety of the motor 13 can be ensured through the relative sliding of the belt 33, and the service life of the transmission assembly 3 is prolonged.

In this embodiment, the driving wheel 31 and the driving wheel 32 are disposed at the same height, the belt 33 is disposed between the driving wheel 32 and the driving wheel 31 in a horizontal posture, and the contact area between the belt 33 and the driving wheel 31 and between the belt 33 and the driving wheel 32 is increased to improve the transmission efficiency of the acting force, thereby ensuring the stable rotation of the fan 11. In addition, the motor 13 is arranged below the driving wheel 31, and the fan 11 is arranged below the driving wheel 32, so that the height of the shell 1 is effectively reduced by limiting the installation height of the motor 13, and the volume of the shell 1 is further reduced.

In this embodiment, the casing 1 is of an integral structure, and an opening is formed in the front wall of the casing 1, so that the fryer assembly can be inserted, pulled out and taken out through the opening.

It should be understood that the transmission assembly 3 includes a chain connected between the driving wheel 31 and the transmission wheel 32, the chain is in a ring shape and is closely sleeved between the driving wheel 31 and the transmission wheel 32, so as to ensure that the driving wheel 31 and the transmission wheel 32 are in matching linkage, and this should also be regarded as a specific embodiment of this embodiment.

It is understood that the driving wheel 31 and the transmission wheel 32 are both gears, and the linkage is realized by matching engagement, which should also be regarded as a specific implementation manner of the present embodiment.

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. 3, the housing 1 includes an upper shell 14 and a lower shell 15, and the upper shell 14 covers the lower shell 15 and encloses the cooking cavity. The motor 13 is arranged in a space at the side of the air guiding cover in the inner cavity of the upper shell 14 in an axis vertical mode, the motor 13 is linked with the fan 11 through the transmission component 3, and when the upper shell 14 is detached from the lower shell 15, the motor 13 is detached from the lower shell 15 along with the upper shell 14, so that the transmission reliability between the motor 13 and the fan 11 is ensured. Specifically, the motor 13 is selected from the type with a smaller axial length, and the height of the upper shell 14 is reduced by shortening the axial length of the motor 13, so that the motor is convenient to carry and store.

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 third embodiment, this embodiment provides another specific air fryer configuration.

As shown in fig. 4, the motor 13 is disposed in the side portion of the lower casing 15, and a driving shaft of the motor 13 is linked with the transmission assembly 3 through the driving assembly 4, so that the motor 13 drives the fan 11 to rotate. The motor 13 is arranged in the side part of the lower shell 15, and a detachable structure is arranged between the upper shell 14 and the lower shell 15, therefore, a driving component 4 capable of being in clutch linkage is arranged between a driving shaft of the motor 13 and the transmission component 3, the driving component 4 can be separated when the upper shell 14 and the lower shell 15 are detached, the use safety is ensured by limiting the rotation of the fan 11, the linkage can be realized after the assembly of the upper shell 14 and the lower shell 15, and the use stability is ensured by driving the rotation of the fan 11.

In this embodiment, the driving assembly 4 is a shaft coupling, and includes an upper coupling shaft portion 41 disposed in the upper casing 14 and connected to the transmission assembly 3 and a lower coupling shaft portion 42 disposed in the lower casing 15 and connected to the driving shaft, and when the upper casing 14 covers the lower casing 15, the upper coupling shaft portion 41 and the lower coupling shaft portion 42 are matched, inserted and linked circumferentially. During installation, the upper end of the upper shaft portion 41 is coaxially inserted into the driving wheel 32 and is circumferentially linked, the lower end extends downward and is exposed on the bottom surface of the upper shell 14, the lower end of the lower shaft portion 42 is fixedly connected with the driving shaft and is circumferentially linked, and the upper end extends upward and is exposed on the top surface of the lower shell 15. When the upper shell 14 is precisely covered above the lower shell 15, the lower end part of the upper shaft part 41 moves from top to bottom and is in inserted linkage with the upper end part of the lower shaft part 42, so that the motor 13 can drive the fan 11 to rotate sequentially through the driving component 4 and the transmission component 3, the use reliability is ensured, the fan 11 can only rotate after the upper shell 14 is covered in place, and the use safety is ensured.

In the present embodiment, the motors 13 are disposed below the driving assembly 4 and are disposed coaxially with each other. The motor 13 is hidden in the lower shell 15, the lower shell 15 is used for hiding and protecting the motor 13, the service life of the motor 13 is prolonged, and the attractiveness is effectively improved.

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

Example five:

in contrast to the fourth embodiment, the present embodiment provides another air fryer structure.

As shown in fig. 5, the driving assembly 4 is a magnetic connector, and includes an upper magnetic transmission disc 43 disposed in the upper casing 14 and connected to the driving assembly 3, and a lower magnetic transmission disc 44 disposed in the lower casing 15 and connected to the driving shaft, wherein when the upper casing 14 is covered on the lower casing 15, the upper magnetic transmission disc 43 and the lower magnetic transmission disc 44 are magnetically attracted and linked in the circumferential direction. The upper magnetic transmission disc 43 is completely hidden in the upper shell 14 and is in circumferential linkage with the transmission wheel 32, the lower magnetic transmission disc 44 is completely hidden in the lower shell 15 and is in circumferential linkage with the driving shaft, the upper magnetic transmission disc 43 and the lower magnetic transmission disc 44 are hidden to play a role in protection, the situation that transmission is unsmooth due to the fact that external foreign matters are clamped cannot happen to the upper magnetic transmission disc 43 and the lower magnetic transmission disc 44 is guaranteed, linkage reliability is guaranteed, the bottom surface of the upper shell 14 and the top surface of the lower shell 15 are also guaranteed to be flat, and attractiveness is guaranteed.

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

Claims (10)

1. The utility model provides a rationally distributed air explodes pot, establishes the casing in the culinary art chamber including, culinary art chamber top is equipped with the chamber that generates heat, the intracavity that generates heat is equipped with hot-blast subassembly, hot-blast subassembly includes fan and heating tube, the culinary art intracavity is equipped with explodes pot subassembly, and the hot-blast downward inflow that hot-blast subassembly produced cooks the chamber and explodes the edible material in the pot subassembly with the system is cooked, a serial communication port, be equipped with the off-set motor in the casing, the motor orders about the fan through drive assembly and rotates to reduce motor top height.

2. The air fryer with reasonable layout according to claim 1, wherein the motor and the fan are vertically arranged in a staggered manner, and a driving shaft of the motor is linked with a transmission shaft of the fan through the transmission assembly.

3. A rationally distributed air fryer according to claim 2, wherein said drive assembly comprises a drive wheel operatively associated with said drive shaft and a drive wheel operatively associated with said drive shaft, said drive wheel driving said fan through said drive wheel.

4. A rationally distributed air fryer according to claim 3, wherein said drive wheels and drive wheels are disposed at equal heights.

5. A rationally distributed air fryer according to claim 3, wherein said drive assembly comprises a chain extending between said drive wheel and drive wheel; or the transmission assembly comprises a belt bridged between the driving wheel and the transmission wheel; or the driving wheel and the transmission wheel are in matched meshing transmission.

6. A deep fryer according to any one of claims 1 to 5, wherein said housing comprises an upper shell and a lower shell, said upper shell covering said lower shell and enclosing said cooking chamber.

7. A rationally distributed air fryer according to claim 6, wherein said motor is disposed within said lower shell side portion, and a drive shaft of said motor is coupled to said drive assembly through a drive assembly, such that said motor drives said fan to rotate.

8. The air fryer with reasonable layout according to claim 7, wherein the driving assembly is a shaft coupling, and comprises an upper coupling shaft part which is arranged in the upper shell and connected with the transmission assembly and a lower coupling shaft part which is arranged in the lower shell and connected with the driving shaft, and when the upper shell cover is closed on the lower shell, the upper coupling shaft part is matched and inserted with the lower coupling shaft part and is linked circumferentially.

9. An air fryer in accordance with claim 7 wherein the drive assembly is a magnetic coupling comprising an upper magnetic drive disk disposed within the upper shell and connected to the drive assembly and a lower magnetic drive disk disposed within the lower shell and connected to the drive shaft, the upper and lower magnetic drive disks cooperating with magnetic attraction and being circumferentially linked when the upper shell is closed onto the lower shell.

10. A rationally distributed air fryer according to claim 7, wherein said motors are disposed coaxially with each other below said drive assembly.

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