CN217408573U

CN217408573U - Frying and baking machine

Info

Publication number: CN217408573U
Application number: CN202220938779.1U
Authority: CN
Inventors: 林秀宝; 黄杰泉; 肖伏凤
Original assignee: Guangdong Midea Consumer Electric Manufacturing Co Ltd
Current assignee: Guangdong Midea Consumer Electric Manufacturing Co Ltd
Priority date: 2022-04-22
Filing date: 2022-04-22
Publication date: 2022-09-13
Anticipated expiration: 2032-04-22

Abstract

An embodiment of the utility model provides a fry in shallow oil roast machine, fry in shallow oil roast machine includes: a first housing; the second shell is movably connected with the first shell; the supporting component is arranged on the second shell; the trigger assembly can drive the support assembly to move relative to the second shell so as to adjust the distance between the second shell and the first shell; the rotating part is connected with the trigger component; and the limiting assembly is arranged on the second shell, and the triggering assembly can drive the rotating member to rotate so as to enable the rotating member to be matched with the limiting assembly. Thereby can lock the second casing in the position after adjusting, and then when adjusting according to eating material kind or heating demand interval between second casing and the first casing, can improve the position stability after the second casing is adjusted, prevent to fall owing to poor stability at frying in shallow oil roast quick-witted heating process second casing, and then will eat the problem of material crushing, promote the user and experience the use of frying in shallow oil roast machine.

Description

Frying and baking machine

Technical Field

The embodiment of the utility model relates to a life electrical apparatus technical field particularly, relates to a machine of baking by frying in shallow oil.

Background

At present, when a frying and roasting machine heats food materials of partial types, an upper cover can contact and press the food materials, so that the food materials are damaged.

Frying in shallow oil roast machine among the correlation technique is for avoiding the upper cover to compel to eat the material, props up the space that the upper cover increases the culinary art chamber by a take the altitude, however, the upper cover stability by propping up is relatively poor, leads to the upper cover to take place the risk of whereabouts in the heating process easily, reduces user's use and experiences.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims at solving one of the technical problem that exists among the prior art at least.

To this end, a first aspect of an embodiment of the present invention provides a grill machine.

In view of this, according to the first aspect of the embodiments of the present invention, there is provided a frying and baking machine, including: a first housing; the second shell is movably connected with the first shell; the supporting component is arranged on the second shell; the trigger assembly can drive the support assembly to move relative to the second shell so as to adjust the distance between the second shell and the first shell; the rotating part is connected with the trigger component; and the limiting assembly is arranged on the second shell, and the triggering assembly can drive the rotating member to rotate so as to enable the rotating member to be matched with the limiting assembly.

The embodiment of the utility model provides a fry in shallow oil roast machine includes first casing, second casing, supporting component, triggers the subassembly, rotates piece and spacing subassembly, particularly, first casing can swing joint with the second casing, can understand that first casing can be arranged from top to bottom along the direction of height with the second casing, and first casing can be the base promptly, and the second casing is the upper cover, also is that the second casing is located the top of first casing. The specific setting can be carried out according to actual needs. The first shell can be provided with a baking tray or a cooking cavity, the second shell can move relative to the first shell to open or close the baking tray or the cooking cavity, and the second shell can also move up and down relative to the first shell.

In addition, the frying and baking machine further comprises at least one heating element, and particularly, the heating element can be arranged in the first shell to heat a baking tray or a cooking cavity on the first shell. Of course, the heating element also can be arranged in the second shell, and then the heating element in the second shell heats the food material on the baking tray or in the cooking cavity. In addition, a baking tray can be arranged on the second shell, heating elements are arranged in the first shell and the second shell respectively, and when the first shell is opened by the second shell, the food materials can be heated by the first shell and the second shell respectively, so that the heating area is increased. The specific setting can be carried out according to actual needs.

The support assembly is disposed on the second housing, and specifically, the support assembly is disposed on a side of the second housing facing the first housing, that is, when the first housing and the second housing are arranged up and down, the support assembly is located between the first housing and the second housing. Further, the trigger assembly can drive the support assembly to move relative to the second shell so as to adjust the distance between the first shell and the second shell. That is, during the movement of the support assembly relative to the second housing, the adjustment of the spacing between the first housing and the second housing can be achieved. And then can be according to the kind of waiting to cook and eat the material, or according to user's heating demand, drive the spacing between first casing and the second casing through touching the subassembly and move, effectively avoid because second casing self gravity and will eat the problem that the material crushed, widen the application range of frying in shallow oil roast machine, promote user's use and experience.

Moreover, the regulation of the distance between the first shell and the second shell can be realized by driving the supporting component to move through the touch component, the structure is simple, the operation is convenient, and the controllability of the frying and baking machine is improved.

Specifically, under the drive of the touch component, the support component moves towards one side where the first shell is located, part of the support component can extend out of the second shell to be abutted against the first shell, and the second shell is jacked up through abutting of part of the support component against the first shell, so that the distance between the second shell and the first shell is increased. It can be understood that, the supporting component can also move to one side of deviating from the first shell place, namely, a part of the supporting component can retract into the second shell, so that the second shell contacts with the first shell, and the adjustment of the distance between the second shell and the first shell is realized, so that the distance between the second shell and the first shell can be adjusted according to the type of food materials and the heating requirement of a user on the food materials, and the use experience of the user on the frying and baking machine is improved.

Further, rotate the piece and link to each other with the trigger subassembly, that is to say, when the trigger subassembly drives the supporting component and for the motion of second casing, the trigger subassembly can also drive and rotate the piece and rotate for the second casing, and at the pivoted in-process, make to rotate the piece and cooperate with spacing subassembly, thereby can lock the second casing in the position after adjusting, and then when eating material kind or heating demand to interval between second casing and the first casing and adjusting, can improve the position stability after the second casing is adjusted, prevent to fall owing to poor stability at the second casing of frying in shallow oil roaster heating process, and then will eat the problem of material crushing, promote the user and experience the use of frying in shallow oil roaster.

It is worth explaining, can set up a plurality of cooperation positions with rotating piece and spacing subassembly, the height at the second casing place that every cooperation position corresponds is different to can further realize the regulation of a plurality of heights of second casing according to eating material kind or heating demand, and spacing after the regulation, further widen the application range of frying in shallow oil roast machine.

For example, the rotating member and the limiting assembly have a first matching position, a second matching position and a third matching position, wherein the first matching position, the second matching position and the third matching position are sequentially raised corresponding to the height of the second housing. Specifically, in the process that the trigger assembly drives the support assembly to move, the second shell is gradually jacked up relative to the first shell, when the first height is jacked up, the rotating part and the limiting assembly are limited at a first matching position, and the second shell is locked at the first height. If the height is not the required height of the user, the trigger assembly can be continuously driven to drive the supporting assembly to move, the rotating member continuously rotates, when the second shell is jacked up to the second height, the rotating member and the limiting assembly are limited at the second matching position, and the second shell is locked at the second height. If the height is not the height required by the user, the trigger assembly can be continuously driven to drive the supporting assembly to move, and the rotating member can be continuously rotated. Until the second housing reaches the required height. It will be appreciated that when the trigger assembly is moved in the reverse direction, the second housing may be returned to the initial position, i.e. the position in which the second housing is in contact with the first housing.

In addition, according to the utility model discloses above-mentioned technical scheme provides fry in shallow oil roast machine still has following additional technical characterstic:

in a possible technical scheme, rotate the piece including rotating the body and at least one first spacing portion, wherein, trigger the subassembly and can drive and rotate the body and rotate, at least one first spacing portion is located and is rotated the body towards spacing one side of subassembly, spacing subassembly can cooperate with at least one first spacing portion.

In this technical scheme, it includes that rotation body and at least one first spacing portion to have injectd the rotation piece, particularly, triggers the subassembly and can drive the rotation body and rotate, and first spacing portion sets up on the rotation body towards one side of spacing subassembly, that is to say, at rotation body pivoted in-process, can drive at least one first spacing portion and rotate.

Spacing subassembly can cooperate with first spacing portion, that is to say, drive at least one first spacing portion pivoted in-process at the rotation body, when rotating a certain position, spacing subassembly can cooperate with first spacing portion, thereby can lock the second casing on the position after adjusting, and then when eating material kind or heating demand to interval between second casing and the first casing and adjusting, can improve the position stability after the second casing is adjusted, prevent to fry in shallow oil roast quick-witted heating process second casing because poor stability and whereabouts, and then will eat the problem of material crushing, promote the user and experience frying in shallow oil roast machine's use.

It should be noted that, the number of the first limiting portions may be multiple, that is, a plurality of first limiting portions are arranged on one side of the rotating body facing the limiting assembly, specifically, the plurality of first limiting portions are circumferentially distributed along the axis of the rotating shaft of the rotating body, so that the heights of the plurality of first limiting portions are different in the rotating process of the rotating body. Through the cooperation of spacing subassembly and the first spacing portion of different place heights, can realize the regulation of a plurality of heights of second casing to and spacing after the regulation, further widen the application range of frying in shallow oil roast machine.

Wherein, the quantity of specific first spacing portion can set up according to actual need.

In a possible technical solution, the number of the first position-limiting parts is multiple.

In this technical scheme, the quantity of having injectd first spacing portion is a plurality of, sets up a plurality of first spacing portions towards one side of spacing subassembly at the rotating body promptly, specifically, a plurality of first spacing portions along the pivot axis circumference distribution of rotating the body to at the rotating body pivoted in-process, the height at a plurality of first spacing portions place is different. Through the cooperation of spacing subassembly and the first spacing portion of different place heights, can realize the regulation of a plurality of heights of second casing to and spacing after the regulation, further widen the application range of frying in shallow oil roast machine.

For example, the first limiting portion is a groove, the rotating body is circumferentially provided with a first groove, a second groove and a third groove, that is, the rotating member and the limiting assembly have a first matching position, a second matching position and a third matching position, wherein the first matching position, the second matching position and the third matching position are sequentially raised corresponding to the height of the second housing. Specifically, in the process that the trigger assembly drives the support assembly to move, the second shell is gradually jacked up relative to the first shell, when the first height is jacked up, the limiting assembly is clamped in the first groove, and the second shell is locked at the first height. If the height is not the required height of the user, the trigger assembly can be continuously driven to drive the supporting assembly to move, the rotating member continuously rotates, the limiting assembly slides out of the first groove, when the second shell is jacked up to the second height, the limiting assembly is limited in the second groove, and the second shell is locked on the second height. If the height is not the height required by the user, the trigger assembly can be continuously driven to drive the supporting assembly to move, and the rotating member can be continuously rotated. Until the second housing reaches the required height. It will be appreciated that when the trigger assembly is moved in the reverse direction, the second housing may be returned to the initial position, i.e. the position in which the second housing is in contact with the first housing.

In one possible technical solution, the limiting component includes a limiting member, and the limiting member can be matched with at least one first limiting portion; the rotating part can push the limiting part to move relative to the second shell in a rotating mode.

In this technical scheme, it includes the locating part to have injectd spacing subassembly, specifically speaking, the locating part can cooperate with at least one first spacing portion. Specifically, drive at least one first spacing portion pivoted in-process at the rotation body, when rotating a certain position, the locating part can cooperate with first spacing portion, thereby can lock the second casing in the position after adjusting, and then when adjusting according to eating material kind or heating demand to the interval between second casing and the first casing, can improve the position stability after the second casing is adjusted, prevent to fry in shallow oil roast quick-witted heating process second casing because poor stability and whereabouts, and then will eat the problem of material crushing, promote the user and experience the use of frying in shallow oil roast machine.

The rotating part rotates to push the limiting part to move relative to the second shell, specifically, when the rotating body rotates, the rotating body is firstly abutted with the limiting part and pushes the limiting part to move towards the direction far away from the rotating body, and after the rotating body rotates for a certain angle, a first limiting part on the rotating body is matched with the limiting part, so that the trigger assembly is locked at the position, and then the position of the second shell is locked.

When the height of the second shell cannot meet the use requirement of a user, a certain force is applied to enable the trigger assembly to continue rotating, and the rotating body pushes the limiting part to be disengaged from the previous first limiting part until the limiting part is engaged with the next first limiting part. Thereby ensuring a sustainable adjustment of the distance between the second housing and the first housing.

In practical application, a spring can be arranged on the limiting part, when the rotating body pushes the limiting part to move in the direction away from the rotating body, the spring is compressed, and when the first limiting part faces the limiting part, the spring can push the limiting part to be matched with the first limiting part, so that the sustainable adjustment of the distance between the second shell and the first shell is further ensured.

In addition, when the limiting part is matched with the first limiting part, the spring can still be in a compressed state, so that the clamping degree of the limiting part and the rotating body can be improved, and the stability of the second shell after position adjustment is further improved.

In a possible technical solution, the limiting member includes a limiting body and a second limiting portion, wherein the second limiting portion is connected to the limiting body, and the second limiting portion is matched with the first limiting portion.

In this technical scheme, it includes spacing body and the spacing portion of second to have injectd the locating part, particularly, the spacing portion of second and spacing body coupling, and the spacing portion of second and the looks adaptation of first spacing portion, thereby ensure rotating the body and rotate, when making first spacing portion towards the locating part, the spacing portion of second can cooperate with first spacing portion, in order to realize the locking after the second casing position control, prevent to fall owing to poor stability the second casing in frying and baking machine heating process, and then will eat the problem of material crushing, promote the user and experience the use of frying and baking machine.

It should be noted that, the second limiting portion and the limiting body are of an integral structure, and it can be understood that the integral structure has good mechanical properties, so that the connection strength between the second limiting portion and the limiting body can be improved, effective matching between the limiting member and the first limiting portion is ensured, and the position stability of the second shell after adjustment is further improved. In addition, the integral structure is convenient to process and produce, so that the production efficiency of the limiting part can be improved, and the production cost of the limiting part and the frying and baking machine can be reduced.

In one possible embodiment, one of the first and second limiting parts is designed as a groove and the other of the first and second limiting parts is designed as a projection, which can be inserted into the groove.

In this technical scheme, first spacing portion is the recess, and correspondingly, the spacing portion of second is the arch. First spacing portion is the arch, and correspondingly, the spacing portion of second is the recess, specifically can set up according to actual need, and the arch can insert in the recess to realize the effective cooperation between first spacing portion and the spacing portion of second.

In a possible technical scheme, the limiting assembly further comprises a first elastic piece, the first elastic piece is sleeved on the limiting body, the first end of the first elastic piece is connected with the limiting body, and the second end of the first elastic piece is connected with the second shell.

In this technical scheme, it still includes first elastic component to have injectd spacing subassembly, particularly, first elastic component overlaps and establishes on spacing body, and the one end and the spacing body coupling of first elastic component, the other end and the second casing coupling of first elastic component. Specifically, when the rotating body pushes the limiting part to move in a direction away from the rotating body, the first elastic part is compressed, and when the first limiting part faces the limiting part, the first elastic part can push the limiting part to be matched with the first limiting part, so that the sustainable adjustment of the distance between the second shell and the first shell is further ensured.

In practical application, when the limiting part is matched with the first limiting part, the first elastic part can still be in a compressed state, so that the clamping degree of the limiting part and the rotating body can be improved, and the stability of the second shell after position adjustment is further improved.

Wherein, the first elastic component is a spring.

In a possible technical scheme, a limiting channel is arranged on the second shell, the limiting part can move in the limiting channel, and the first elastic part is located in the limiting channel.

In this technical scheme, limited to be equipped with spacing passageway on the second casing, specifically speaking, the locating part can move in spacing passageway, that is to say, at the pivoted in-process of rotating the body, can promote the locating part and move from top to bottom in spacing passageway to it is spacing to realize the cooperation of locating part and first spacing portion. And the first elastic piece is positioned in the limiting channel. Through setting up spacing passageway, can be realizing the locking after the second casing position control, prevent to fall owing to poor stability at roast quick-witted heating process of frying in shallow oil second casing, and then when will eat the material crushing problem, reduce roast machine of frying in shallow oil occupation space on the direction of height, and then reduce roast quick-witted holistic occupation space of frying in shallow oil, further promote user's use and experience.

In a possible technical solution, the triggering component includes a rotating shaft and a cam, wherein the rotating shaft is rotatably disposed on the second housing, the rotating member is connected to the rotating shaft, the cam is disposed on the rotating shaft, and the cam is used for pushing the supporting component to move.

In this solution, it is defined that the trigger assembly includes a rotating shaft and a cam, specifically, the rotating shaft is disposed on the second housing and is capable of rotating relative to the second housing. The cam is arranged on the rotating shaft, so that the cam can be driven to rotate in the rotating process of the rotating shaft. The rotating part is connected with the rotating shaft, so that the rotating part can be driven to rotate when the rotating shaft rotates.

When the cam rotates, one part of the supporting component can be pushed to move relative to the second shell, and when one part of the supporting component moves, the other part of the supporting component is driven to extend out of the second shell and abut against the first shell, so that the distance between the second shell and the first shell is increased, and the distance between the second shell and the first shell can be adjusted.

In practical application, the rotating shaft and the cam can be of an integrated structure, and it can be understood that the integrated structure has good mechanical property, so that the connecting strength between the rotating shaft and the cam can be improved, the effective transmission of power is ensured, and the stability and the reliability of the frying and baking machine in the using process are further improved. In addition, the integrated structure is convenient for processing and production, thereby improving the production efficiency of the trigger assembly and reducing the production cost of the trigger assembly and the frying and baking machine.

In a possible technical scheme, the trigger assembly further comprises a baffle, the baffle is arranged on the rotating shaft, the baffle and the cam are sequentially arranged along the axial direction of the rotating shaft, and the baffle can limit the rotating shaft in the axis direction of the rotating shaft.

In this technical scheme, it still includes the baffle to have injectd trigger subassembly, specifically speaking, the baffle setting is in the pivot, and along the axial direction of pivot, and the baffle arranges in proper order with the cam, and the baffle setting is in the inboard of cam promptly. Further, the baffle can carry out spacingly to the pivot on the axis direction of pivot, promptly on supporting component's direction of motion, also on the axis direction of perpendicular to pivot, at least partly protrusion cam setting of baffle to can carry out spacingly to triggering the subassembly in the axial direction, avoid triggering the subassembly skew and supporting component complex position, further ensure to trigger the subassembly power transmission effectively, promote transmission precision and reliability.

In practical application, the quantity of baffle be can two, and two baffles are close to the both ends setting of pivot respectively, can further inject the axial displacement who triggers the subassembly, avoid triggering the subassembly skew and supporting component complex position, further ensure to trigger the subassembly power transmission effectively, promote transmission precision and reliability. The number of the specific baffles can be set according to actual needs.

It should be noted that, the baffle and the cam can be an integrated structure, and it can be understood that the integrated structure has good mechanical properties, so that the connection strength between the baffle and the cam can be improved, effective limitation of the trigger assembly by the baffle is ensured, and the stability and reliability of the frying and baking machine in the use process are further improved. In addition, the integrated structure is convenient to process and produce, so that the production efficiency of the trigger assembly can be improved, and the production cost of the trigger assembly and the frying and baking machine can be reduced.

In a possible technical scheme, the frying and baking machine further comprises a knob, wherein the knob is connected with the rotating shaft and is positioned on the outer side of the second shell.

In this technical scheme, it still includes the knob to have injectd frying and roasting machine, specifically speaking, the knob is connected with the pivot, and the knob sets up the outside at the second casing. Specifically, the user rotates the knob, and the knob rotates and can drive the pivot and rotate, and the pivot rotates and then drives the cam and rotate, and at cam pivoted in-process, the cam is with a part looks butt of supporting component to drive a part of supporting component for second casing up-and-down motion, a part motion of supporting component and then drive another part of supporting component and stretch out the second casing through the through-hole, and with first casing looks butt, in order to increase the interval between second casing and the first casing. Through setting up the knob, can provide convenient condition for the user operation trigger assembly, make things convenient for the user to adjust the distance between second casing and the first casing.

In practical application, the number of the knobs can be at least two, and at least two knobs are located on the outer side of the second shell, so that a user can conveniently operate the knobs to adjust the distance between the second shell and the first shell.

In a possible technical solution, the supporting assembly includes a connecting member and at least one supporting member, wherein the at least one supporting member is connected to the connecting member, and the cam can drive the at least one supporting member to move relative to the second housing through the connecting member, so as to adjust a distance between the second housing and the first housing.

In this solution, it is defined that the support assembly comprises a connector and at least one support, in particular at least one support is connected with the connector. Under the drive of trigger subassembly, the connecting piece can move for the second casing, and simultaneously, the connecting piece can drive at least one support piece and move for the second casing, and at least one support piece can realize the regulation of second casing and first casing interval at the in-process of motion. And then can be according to the kind of waiting to cook and eat the material, or according to user's heating demand, adjust the interval between second casing and the first casing through triggering the motion of subassembly drive supporting component, effectively avoid because second casing self gravity and will eat the problem of material crushing, widen the application range of frying in shallow oil roast machine, promote user's use and experience.

In addition, drive the adjustment of interval between second casing and the first casing through triggering the subassembly and moving, simple structure, convenient operation promotes the controllability of frying in shallow oil roast machine.

Specifically, under the drive of trigger assembly, the connecting piece drives at least one support piece to the one side motion at first casing place, and at least part support piece can stretch out the second casing and with first casing looks butt to through support piece and first casing looks butt with second casing jack-up, with the interval between increase second casing and the first casing. It can be understood that, at least one support piece can also move to the side of deviating from first casing place, and at least part support piece can retract in the second casing promptly to make second casing and first casing contact, realize the regulation of interval between second casing and the first casing, thereby can adjust the interval between second casing and the first casing according to the kind of eating the material and the user to the heating demand of eating the material, promote the user to fry in shallow oil roast machine's use experience.

Further, the connecting piece and at least one support piece can be a body structure, and it can be understood that the body structure has good mechanical properties, so that the connecting strength between the connecting piece and the at least one support piece can be effectively improved, and further the connecting piece can drive the corresponding second shell of the at least one support piece to move under the driving of the trigger assembly, so that the adjustment of the distance between the second shell and the first shell is realized, and an effective power transmission process is ensured.

In addition, set up connecting piece and at least one support piece as an organic whole structure, the processing production of the supporting component of still being convenient for realizes supporting component's batch production, improves production efficiency, reduces the manufacturing cost of the machine of frying in shallow oil of supporting component and this supporting component.

In practical application, the number of the supporting pieces can be multiple, namely the supporting pieces are connected with the connecting pieces, so that the supporting effect between the supporting pieces and the first shell is improved while the distance between the second shell and the first shell is adjusted, and the stability and the reliability of the frying and baking machine in the heating process are ensured.

It is worth mentioning that the number of the supporting components can be at least two, and the at least two supporting components are symmetrically arranged or uniformly distributed on the second shell, so that the supporting effect between the supporting component and the first shell is improved while the distance between the second shell and the first shell is adjusted, and the stability and the reliability of the frying and baking machine in the heating process are ensured.

In a possible technical scheme, the frying and baking machine further comprises at least one through hole, the at least one through hole is formed in the second shell, the at least one through hole is arranged corresponding to the at least one supporting piece, at least one part of the supporting piece penetrates through the through hole to be in contact with the first shell based on the fact that the triggering assembly rotates to the first angle, and the second shell and the first shell are separated by a first distance; based on the trigger assembly rotating to the second angle, the first shell and the second shell are separated by the second distance.

In this technical solution, it is defined that the frying and roasting machine further includes at least one through hole, and specifically, the at least one through hole is disposed on the second housing, and it can be understood that the support member extends out of the second housing through the through hole to be abutted against the first housing, and the distance between the second housing and the first housing is increased by jacking up the second housing.

Specifically, when the trigger assembly rotates to a first angle, the trigger assembly pushes the connecting piece, and then drives at least one support piece to move towards one side close to the first shell, so that the at least one support piece extends out of the second shell and is abutted against the first shell, so that a first distance is arranged between the first shell and the second shell, namely, the distance between the second shell and the first shell is increased by jacking up the first height of the second shell, the problem that the food material is crushed due to the self gravity of the second shell is effectively avoided, and the use experience of a user is improved. At the moment, the limiting part is matched with a first limiting part on the rotating part, the second shell is locked on the first height, and the position stability of the second shell after adjustment is improved.

When the trigger assembly rotates to a second angle, the trigger assembly continues to push the connecting piece, and then drives the at least one supporting piece to continue to move to one side close to the first shell, so that the at least one supporting piece further extends out of the second shell and is abutted against the first shell, the distance between the second shell and the first shell is increased by jacking up the second height of the second shell, namely the second distance, wherein the second distance is greater than the first distance, at the moment, the limiting piece is matched with the next first limiting part on the rotating piece, and the second shell is locked at the second height.

It can be understood that, when the trigger assembly rotates to the second angle, the abutting joint with the connecting member may be cancelled for the trigger assembly, the connecting member drives the at least one supporting member to retract into the second housing, that is, the at least one supporting member cancels the abutting joint with the first housing, the second housing resets under the effect of its own gravity, and the second housing contacts with the first housing, that is, the second distance, where the second distance is smaller than the first distance. At this time, the rotating member is disengaged from the limiting assembly.

The adjustment of the distance between the second shell and the first shell is realized by adjusting the rotation angle of the trigger component. And then can be according to the kind of waiting to cook and eat the material, or according to user's heating demand, adjust the interval between second casing and the first casing through triggering the motion of subassembly drive supporting component, effectively avoid because second casing self gravity and will eat the problem of material crushing, widen the application range of frying in shallow oil roast machine, promote user's use and experience.

It should be noted that the first distance may be greater than the second distance, and the second distance may also be greater than the first distance, which may be specifically set according to actual needs.

In a possible technical scheme, the frying and baking machine further comprises a second elastic piece, and the second elastic piece is sleeved on the supporting piece; the second elastic piece generates elastic deformation based on the fact that the trigger assembly rotates to a first angle; based on the trigger assembly rotates to the second angle, the second elastic piece drives the supporting piece to reset.

In this technical solution, it is limited that the frying and roasting machine further comprises a second elastic member, specifically, the second elastic member is sleeved on the supporting member. Specifically, when the trigger assembly rotates a first angle, the trigger assembly pushes the connecting piece to move, the connecting piece moves to further drive the at least one supporting piece to extend out of the second shell through the through hole, so that the at least one supporting piece is abutted to the first shell, the distance between the first shell and the second shell is increased, at the moment, the second elastic piece generates elastic deformation, and specifically, the second elastic piece is compressed and is in a compression state.

When triggering the subassembly reverse motion, when triggering the subassembly antiport second angle promptly, also when triggering the subassembly and canceling the butt with the connecting piece, second elastic component release elastic potential energy promotes the connecting piece and drives at least one support piece and moves towards the direction of keeping away from first casing, promotes support piece retraction promptly in the second casing, accomplishes support component's automatic re-setting, and then realizes promoting support component's maneuverability, promotes user's use and experiences.

It should be noted that the second elastic member may be a spring. The specific setting can be carried out according to actual needs.

In a possible technical scheme, a first limiting structure used for limiting the second elastic piece along the axial direction is arranged in the through hole; one end of the supporting piece close to the connecting piece is provided with a second limiting structure used for limiting the second elastic piece along the axial direction.

In the technical scheme, the first limiting structure and the second limiting structure which are used for limiting the second elastic piece are respectively arranged in the through hole and on the supporting piece. Wherein, first limit structure sets up inside the through-hole, and second limit structure sets up the one end that is close to the connecting piece at support piece.

One end of the second elastic piece is in contact with the first limiting structure, and the other end of the second elastic piece is in contact with the second limiting structure.

Specifically, when the trigger assembly rotates a first angle, the trigger assembly drives the connecting piece and drives the at least one support piece to extend out of the second shell through the through hole, so that the at least one support piece is abutted to the first shell, the distance between the first shell and the second shell is increased, at the moment, the second elastic piece generates elastic deformation, the distance between the first limiting structure and the second limiting structure is shortened, namely, the second elastic piece is compressed and is in a compression state.

When triggering the subassembly reverse motion, when triggering the subassembly promptly and withdrawing the butt with the connecting piece, second elastic component release elastic potential energy promotes the connecting piece and drives at least one support piece and moves towards the direction of keeping away from first casing, and at this moment, second limit structure moves to the direction of keeping away from first limit structure, promotes support piece retraction promptly in the second casing, accomplishes support component's automatic re-setting, and then realizes promoting support component's maneuverability, promotes user's use and experiences.

In a possible technical scheme, the frying and baking machine further comprises a positioning assembly, the positioning assembly is arranged on the second shell, and the positioning assembly can limit the radial movement of the rotating shaft.

In this technical scheme, it still includes locating component to have injectd frying and roasting machine, specifically speaking, locating component sets up on the second casing, and locating component can carry out spacingly to the radial movement of pivot, and locating component can restrict the displacement of pivot in its self radial direction promptly.

Specifically, through setting up the locating component who restricts the radial direction motion of pivot, make the pivot can be pinpointed at predetermined operating position, avoid external factors such as user operation, vibration to lead to the pivot dislocation and influence the problem of second casing lift effect, improve reliability and stability in the roast machine use of frying in shallow oil, promote the trigger assembly transmission precision, reduce the dead probability of mechanism's transmission emergence card, further promote the user and experience the use of roast machine of frying in shallow oil.

In a possible technical scheme, the locating component comprises a bearing part, a first locating part, a second locating part and a shielding part, wherein a limiting groove is formed in the bearing part, the rotating shaft is arranged in the limiting groove, the limiting groove is used for limiting the rotating shaft in the radial direction, the first locating part and the second locating part are arranged on the second shell, the bearing part is located between the first locating part and the second locating part, the shielding part is connected with the first locating part and the second locating part, and the shielding part is located at one end, deviating from the second shell, of the first locating part and the second locating part.

In this technical scheme, it includes holds carrier, first locating part, second locating part and shielding piece to have injectd locating component, particularly, holds carrier setting on the second casing, holds and is provided with the spacing groove on the carrier, and the pivot is located the spacing inslot, and the pivot can be at spacing inslot rotation, and the spacing groove can be radially spacing to the countershaft.

The first positioning piece and the second positioning piece are positioned on two sides of the bearing piece, so that the first positioning piece and the second positioning piece are matched with the bearing piece to effectively prevent the rotating shaft from being separated. On this basis, the shielding piece is connected with the one end that second casing was kept away from to first locating piece and second locating piece to the spacing groove of cooperation forms the spacing hole that can supply the pivot to run through, and the pivot can rotate in spacing hole, and when the pivot took place radial displacement because of external factor, first locating piece, second locating piece and shielding piece can play the effect of blockking, thereby accomplish the radial spacing of pivot. And then make the pivot can be by accurate positioning at predetermined operating position, avoid external factors such as user operation, vibration to lead to the pivot dislocation and influence the problem of second casing lift effect, improve reliability and stability in the roast machine of frying in shallow oil use, promote the subassembly transmission precision that triggers, reduce the mechanism transmission and take place the dead probability of card, further promote the user and experience the use of frying in shallow oil roast machine.

In practical application, the shielding part is detachably connected with the first positioning part and the second positioning part, the rotating shaft is firstly placed into a limiting groove between the first positioning part and the second positioning part in the assembling process, and the shielding part covers the first positioning part and the second positioning part to complete the assembling of the rotating shaft. Compared with the technical scheme that the rotating shaft is inserted into the positioning assembly in the related art, the structure has the advantages of low assembly difficulty and strong operability, and the insertion channel reserved for the rotating shaft can be omitted, so that the structural complexity is reduced. On the other hand, a removable shutter may provide a convenient condition during maintenance of the spindle. For example, when the pivot broke down, the user can directly take out the pivot after dismantling the shielding piece to high-efficient pivot maintenance or pivot change are accomplished, and then promote the user and use experience.

In one possible solution, the number of support assemblies is at least two; at least two supporting components are uniformly distributed on the second shell; and/or at least two support assemblies are symmetrically distributed on the second shell.

In the technical scheme, at least two supporting components are arranged on the frying and baking machine and distributed on different areas of the second shell. Compared with the single support assembly, the adjustment freedom degree of the distance between the first shell and the second shell can be improved by arranging at least two support assemblies, so that a user can independently adjust the interval of the region through the support assembly corresponding to the target adjustment region, the top shell can incline relative to the bottom shell, and the frying and baking machine can heat various foods with different sizes between the first shell and the second shell. Thereby realizing the technical effects of improving the operability of the frying and baking machine and providing convenient conditions for users.

The at least two support members may be evenly distributed on the second housing. Specifically, on the second shell, at least two supporting assemblies are uniformly distributed on the same circle taking a central line vertically penetrating through the second shell as an axis so as to form an annular supporting assembly array on the second shell, so that the plurality of supporting assemblies can effectively support the top shell at a plurality of angles, and the top shell is prevented from deflecting due to unfavorable supporting. Simultaneously, evenly distributed a plurality of supporting components can equally divide the weight of top casing on a plurality of supporting components, reduce certain supporting component and damage because of the atress is too big.

The at least two support members may also be symmetrically distributed on the second housing. The symmetrical distribution is that a plurality of supporting components are symmetrically distributed on two sides of the central axis of the second shell. For example, when two support members are provided, the two support members are symmetrically provided at both left and right ends of the second housing. When three support assemblies are arranged, two support assemblies are symmetrically arranged on two sides of the central axis, and the rest support assemblies are symmetrically separated by the central axis. The symmetrically distributed multiple support assemblies can improve the support effectiveness of the top shell on the one hand, and can provide convenience conditions for users to adjust the inclination angle of the top shell on the other hand. And then realize optimizing supporting component distribution mode, promote the technical effect of frying in shallow oil roast machine practicality and reliability.

In a possible technical solution, the frying and baking machine further includes a heating element, and the heating element is disposed on the second casing and/or the first casing and located between the second casing and the first casing.

In this technical solution, it is defined that the frying and roasting machine further includes a heating element, specifically, the heating element can be disposed on the second shell and/or the first shell, specifically, the heating element can be disposed on a surface of the first shell facing the second shell, and the heating element can be disposed on a surface of the second shell facing the first shell, so that the food material placed between the second shell and the first shell can be heated by the heating element. The specific setting can be carried out according to actual needs.

It is worth mentioning that both the second housing and the first housing are provided with heating elements. In the heating process, the bottom of the food material is in contact with a heating element on the first shell, and the heating element transfers heat to the food material through contact heat transfer. And heating member and the edible material top looks interval on the second casing, the heat is during via air transfer to food to avoid food compression damage on the basis that satisfies high-efficient heating demand.

Specifically, the heating member can be an electric heating member, and can be specifically set according to actual needs.

In a possible technical scheme, the frying and baking machine can also be an electric baking pan or an electric baking tray, and the patent does not limit the invention.

In this technical scheme, electric baking pan or frying and roasting machine satisfy the heating demand of not unidimensional food through adjusting the interval between first casing and the second casing to guarantee that food can not damaged in the heating process, promote user's use and experience.

Additional aspects and advantages in accordance with the invention 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 invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows one of the exploded views of a grill according to one embodiment of the present invention;

fig. 2 shows one of the schematic structural views of a grill according to an embodiment of the present invention;

fig. 3 shows a second schematic structural diagram of a frying and roasting machine according to an embodiment of the present invention;

fig. 4 is a schematic view showing a partial structure of a frying and baking machine according to an embodiment of the present invention;

fig. 5 shows a third schematic structural diagram of a frying and roasting machine according to an embodiment of the present invention;

fig. 6 shows a fourth schematic structural diagram of a frying and baking machine according to an embodiment of the present invention;

fig. 7 shows a fifth structural schematic diagram of a frying and baking machine according to an embodiment of the present invention;

fig. 8 shows a second exploded view of a grill in accordance with an embodiment of the present invention;

FIG. 9 shows a sixth schematic structural view of a grill in accordance with an embodiment of the present invention;

fig. 10 shows a seventh schematic structural diagram of the frying and roasting machine according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 10 is:

100 frying and roasting machine, 110 first shell, 120 second shell, 130 supporting component, 131 connecting component, 132 supporting component, 140 triggering component, 141 rotating shaft, 142 cam, 143 baffle, 150 rotating component, 151 rotating body, 152 first limiting part, 160 limiting component, 161 limiting part, 1611 limiting body, 1612 second limiting part, 162 first elastic component, 170 knob, 180 through hole, 190 second elastic component, 210 first positioning component, 220 second positioning component and 230 bearing component.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A grill 100 according to some embodiments of the present invention will be described with reference to fig. 1 to 10.

The first embodiment is as follows:

as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10, an embodiment of a first aspect of the present invention provides a grill 100, where the grill 100 includes: a first housing 110; a second housing 120 movably connected to the first housing 110; a support assembly 130 disposed on the second housing 120; the trigger component 140, the trigger component 140 can drive the support component 130 to move relative to the second housing 120, so as to adjust the distance between the second housing 120 and the first housing 110; a rotating member 150 connected to the trigger assembly 140; the limiting component 160 is disposed on the second housing 120, and the triggering component 140 can drive the rotating component 150 to rotate, so that the rotating component 150 is matched with the limiting component 160.

The embodiment of the present invention provides a frying and roasting machine 100, which comprises a first casing 110, a second casing 120, a supporting component 130, a triggering component 140, a rotating component 150 and a limiting component 160, wherein the first casing 110 and the second casing 120 can be movably connected, and it can be understood that the first casing 110 and the second casing 120 can be arranged up and down along the height direction, that is, the first casing 110 can be a base, the second casing 120 is an upper cover, that is, the second casing 120 is located above the first casing 110. The setting can be specifically carried out according to actual needs. The first housing 110 may be provided with a baking tray or a cooking cavity, the second housing 120 can move relative to the first housing 110 to open or close the baking tray or the cooking cavity, and the second housing 120 can also move up and down relative to the first housing 110.

In addition, the frying and baking machine 100 further comprises at least one heating element, and particularly, the heating element can be disposed in the first casing 110 to heat the baking tray or the cooking cavity on the first casing 110. Of course, the heating element may also be disposed in the second housing 120, and then the food material on the baking tray or in the cooking cavity is heated by the heating element in the second housing 120. In addition, a baking tray may be disposed on the second casing 120, heating members are disposed in the first casing 110 and the second casing 120, respectively, and when the first casing 110 is opened in the second casing 120, the food materials may be heated by the first casing 110 and the second casing 120, respectively, so as to increase the heating area. The specific setting can be carried out according to actual needs.

The supporting component 130 is disposed on the second casing 120, specifically, the supporting component 130 is disposed on a side of the second casing 120 facing the first casing 110, that is, when the first casing 110 and the second casing 120 are arranged on top of each other, the supporting component 130 is located between the first casing 110 and the second casing 120. Further, the trigger assembly 140 can drive the support assembly 130 to move relative to the second housing 120, so as to adjust the distance between the first housing 110 and the second housing 120. I.e., during movement of the support assembly 130 relative to the second housing 120, adjustment of the spacing between the first housing 110 and the second housing 120 can be achieved. Further, according to the type of the food material to be cooked or the heating requirement of the user, the supporting component 130 is driven by the touch component to move to adjust the distance between the first casing 110 and the second casing 120, so as to effectively avoid the problem that the food material is crushed by the gravity of the second casing 120, widen the application range of the frying and baking machine 100, and improve the user experience.

Moreover, the adjustment of the distance between the first casing 110 and the second casing 120 can be realized by the trigger component driving the supporting component 130 to move, the structure is simple, the operation is convenient, and the controllability of the frying and baking machine 100 is improved.

Specifically, under the driving of the touch component, the supporting component 130 moves towards the side where the first housing 110 is located, and a portion of the supporting component 130 can extend out of the second housing 120 to abut against the first housing 110, and the supporting component 130 abuts against the first housing 110 to jack up the second housing 120, so as to increase the distance between the second housing 120 and the first housing 110. It can be understood that the supporting assembly 130 can also move towards the side away from the first housing 110, that is, a part of the supporting assembly 130 can be retracted into the second housing 120, so that the second housing 120 is in contact with the first housing 110, and the adjustment of the distance between the second housing 120 and the first housing 110 is realized, so that the distance between the second housing 120 and the first housing 110 can be adjusted according to the type of the food material and the heating requirement of the user on the food material, and the use experience of the user on the frying and baking machine 100 is improved.

Further, the rotating member 150 is connected to the triggering member 140, that is, while the triggering member 140 drives the supporting member 130 to move relative to the second housing 120, the triggering member 140 can also drive the rotating member 150 to rotate relative to the second housing 120, and in the rotating process, the rotating member 150 is matched with the limiting member 160, so that the second housing 120 can be locked at the adjusted position, and further, while the distance between the second housing 120 and the first housing 110 is adjusted according to the type of food material or the heating requirement, the position stability of the second housing 120 after adjustment can be improved, thereby preventing the second housing 120 from falling down due to poor stability in the heating process of the frying and baking machine 100, further crushing the food material, and improving the user experience of the frying and baking machine 100.

It should be noted that a plurality of matching positions can be set for the rotating member 150 and the limiting assembly 160, and the height of the second housing 120 corresponding to each matching position is different, so that the adjustment of a plurality of heights of the second housing 120 and the limitation after the adjustment can be further realized according to the food material type or the heating requirement, and the application range of the frying and baking machine 100 can be further widened.

For example, the rotating member 150 and the limiting assembly 160 have a first matching position, a second matching position and a third matching position, wherein the first matching position, the second matching position and the third matching position are sequentially raised corresponding to the height of the second housing 120. Specifically, in the process that the trigger assembly 140 drives the support assembly 130 to move, the second housing 120 is gradually jacked up relative to the first housing 110, when the first height is jacked up, the rotating member 150 and the limiting assembly 160 are limited at the first matching position, and the second housing 120 is locked at the first height. If the height is not the height required by the user, the triggering component 140 can be continuously driven to drive the supporting component 130 to move, the rotating component 150 can be continuously rotated, when the second housing 120 is jacked up to the second height, the rotating component 150 and the limiting component 160 are limited at the second matching position, and the second housing 120 is locked at the second height. If the height is not the desired height of the user, the trigger assembly 140 can be driven to move the supporting assembly 130, and the rotating member 150 can be driven to rotate. Until the second housing 120 reaches a desired height. It can be appreciated that when the trigger assembly 140 is moved in reverse, the second housing 120 can be returned to the initial position, i.e., the position where the second housing 120 is in contact with the first housing 110.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, on the basis of the above embodiment, the rotating member 150 further includes a rotating body 151 and at least one first limiting portion 152, wherein the triggering component 140 can drive the rotating body 151 to rotate, the at least one first limiting portion 152 is disposed on a side of the rotating body 151 facing the limiting component 160, and the limiting component 160 can be matched with the at least one first limiting portion 152.

In this embodiment, the rotating component 150 is defined to include a rotating body 151 and at least one first limiting portion 152, specifically, the triggering component 140 can drive the rotating body 151 to rotate, and the first limiting portion 152 is disposed on a side of the rotating body 151 facing the limiting component 160, that is, during the rotation of the rotating body 151, the at least one first limiting portion 152 can be driven to rotate.

Spacing subassembly 160 can cooperate with first spacing portion 152, that is to say, drive at least one first spacing portion 152 pivoted in-process at rotating body 151, when rotating a certain position, spacing subassembly 160 can cooperate with first spacing portion 152, thereby can lock second casing 120 in the position after adjusting, and then when eating material kind or heating demand to interval between second casing 120 and first casing 110 and adjusting, can improve the position stability after second casing 120 adjusts, prevent to fall because the poor stability of second casing 120 in frying in shallow oil roast machine 100 heating process, and then will eat the problem of material crushing, promote the user and experience frying in roast machine 100's use.

It should be noted that the number of the first limiting portions 152 may be multiple, that is, the rotating body 151 is provided with a plurality of first limiting portions 152 on one side facing the limiting assembly 160, specifically, the plurality of first limiting portions 152 are circumferentially distributed along the axis of the rotating shaft 141 of the rotating body 151, so that the heights of the plurality of first limiting portions 152 are different in the rotating process of the rotating body 151. The spacing assembly 160 is matched with the first spacing portions 152 with different heights, so that the adjustment of multiple heights of the second shell 120 and the spacing after adjustment can be realized, and the application range of the frying and baking machine 100 is further widened.

The number of the first limiting portions 152 can be set according to actual needs.

In a specific embodiment, the number of the first position-limiting portions 152 is more than one.

In this embodiment, it is defined that the number of the first position-limiting portions 152 is plural, that is, a plurality of the first position-limiting portions 152 are disposed on a side of the rotating body 151 facing the position-limiting assembly 160, specifically, the plurality of the first position-limiting portions 152 are circumferentially distributed along the axis of the rotating shaft 141 of the rotating body 151, so that the heights of the plurality of the first position-limiting portions 152 are different during the rotation of the rotating body 151. The spacing assembly 160 is matched with the first spacing portions 152 with different heights, so that the adjustment of multiple heights of the second shell 120 and the spacing after adjustment can be realized, and the application range of the frying and baking machine 100 is further widened.

For example, the first position-limiting portion 152 is a groove, and the rotating body 151 is circumferentially provided with a first groove, a second groove and a third groove, that is, the rotating member 150 and the position-limiting assembly 160 have a first matching position, a second matching position and a third matching position, wherein the first matching position, the second matching position and the third matching position are sequentially raised corresponding to the height of the second housing 120. Specifically, in the process that the trigger assembly 140 drives the support assembly 130 to move, the second housing 120 is gradually jacked up relative to the first housing 110, when the first height is jacked up, the limiting assembly 160 is clamped in the first groove, and the second housing 120 is locked at the first height. If the height is not the height required by the user, the trigger assembly 140 can be continuously driven to drive the support assembly 130 to move, the rotating member 150 can be continuously rotated, the limiting assembly 160 slides out of the first groove, when the second housing 120 is jacked up to the second height, the limiting assembly 160 is limited in the second groove, and the second housing 120 is locked at the second height. If the height is not the desired height of the user, the trigger assembly 140 can be driven to move the supporting assembly 130, and the rotating member 150 can be driven to rotate. Until the second housing 120 reaches a desired height. It can be appreciated that when the trigger assembly 140 is moved in reverse, the second housing 120 can be returned to the initial position, i.e., the position where the second housing 120 is in contact with the first housing 110.

Example two:

as shown in fig. 1, fig. 3 and fig. 4, on the basis of the above embodiment, further, the limiting component 160 includes a limiting member 161, and the limiting member 161 can cooperate with at least one first limiting portion 152; the rotation of the rotating member 150 can push the limiting member 161 to move relative to the second housing 120.

In this embodiment, the limiting component 160 includes a limiting member 161, and specifically, the limiting member 161 can cooperate with at least one first limiting portion 152. Specifically, in the process that the rotating body 151 drives at least one first limiting portion 152 to rotate, when rotating to a certain position, the limiting member 161 can be matched with the first limiting portion 152, so as to lock the second housing 120 in the adjusted position, and further adjust the distance between the second housing 120 and the first housing 110 according to the type of food material or the heating requirement, so as to improve the position stability of the second housing 120 after adjustment, prevent the second housing 120 from falling due to poor stability in the heating process of the frying and baking machine 100, and further crush the food material, thereby improving the user experience of the frying and baking machine 100.

The rotating member 150 can push the limiting member 161 to move relative to the second housing 120, specifically, when the rotating body 151 rotates, the rotating body 151 abuts against the limiting member 161 first, and pushes the limiting member 161 to move in a direction away from the rotating body 151, and after the rotating body 151 rotates by a certain angle, the first limiting portion 152 on the rotating body 151 is matched with the limiting member 161, so that the triggering component 140 is locked at the position, and the position of the second housing 120 is locked.

When the height of the second housing 120 cannot meet the user's requirement, a certain force is applied to continue to rotate the trigger assembly 140, and the rotating body 151 pushes the limiting member 161 to disengage from the previous first limiting portion 152 until the limiting member 161 engages with the next first limiting portion 152. Thereby ensuring a sustainable adjustment of the spacing between the second housing 120 and the first housing 110.

In practical applications, a spring may be disposed on the limiting member 161, and when the rotating body 151 pushes the limiting member 161 to move away from the rotating body 151, the spring is compressed, and when the first limiting portion 152 faces the limiting member 161, the spring can push the limiting member 161 to cooperate with the first limiting portion 152, so as to further ensure the continuous adjustment of the distance between the second housing 120 and the first housing 110.

In addition, when the limiting member 161 is engaged with the first limiting portion 152, the spring may still be in a compressed state, so that the clamping degree of the limiting member 161 and the rotating body 151 may be improved, and the stability after the position of the second housing 120 is adjusted may be further improved.

As shown in fig. 3 and 4, on the basis of the above embodiment, the limiting member 161 further includes a limiting body 1611 and a second limiting portion 1612, wherein the second limiting portion 1612 is connected to the limiting body 1611, and the second limiting portion 1612 is adapted to the first limiting portion 152.

In this embodiment, it is limited that the limiting part 161 includes a limiting body 1611 and a second limiting part 1612, and specifically, the second limiting part 1612 is connected to the limiting body 1611, and the second limiting part 1612 is adapted to the first limiting part 152, so as to ensure that when the rotating body 151 rotates and the first limiting part 152 faces the limiting part 161, the second limiting part 1612 can cooperate with the first limiting part 152, so as to realize locking after the position of the second housing 120 is adjusted, prevent the second housing 120 from falling due to poor stability in the heating process of the frying and baking machine 100, and further crush the food material, and improve the user experience of the frying and baking machine 100.

It should be noted that, the second position-limiting portion 1612 and the position-limiting body 1611 are an integral structure, and it can be understood that the integral structure has good mechanical properties, so that the connection strength between the second position-limiting portion 1612 and the position-limiting body 1611 can be improved, effective matching between the position-limiting member 161 and the first position-limiting portion 152 is ensured, and the position stability of the second housing 120 after adjustment is further improved. In addition, the integral structure is convenient for processing and production, so that the production efficiency of the limiting member 161 can be improved, and the production cost of the limiting member 161 and the frying and baking machine 100 can be reduced.

In a specific embodiment, further, one of the first and second position-limiting

portions

152 and 1612 is configured as a groove, and the other of the first and second position-limiting

portions

152 and 1612 is configured as a projection, and the projection can be inserted into the groove.

In this embodiment, the first position-limiting portion 152 is a groove, and correspondingly, the second position-limiting portion 1612 is a protrusion. First spacing portion 152 is the arch, and correspondingly, second spacing portion 1612 is the recess, specifically can set up according to actual need, and the arch can insert in the recess to realize the effective cooperation between first spacing portion 152 and the spacing portion 1612 of second.

As shown in fig. 1, fig. 3 and fig. 4, based on the above embodiment, the limiting component 160 further includes a first elastic element 162, the first elastic element 162 is sleeved on the limiting body 1611, a first end of the first elastic element 162 is connected to the limiting body 1611, and a second end of the first elastic element 162 is connected to the second housing 120.

In this embodiment, the position limiting assembly 160 further includes a first elastic member 162, specifically, the first elastic member 162 is sleeved on the position limiting body 1611, one end of the first elastic member 162 is connected to the position limiting body 1611, and the other end of the first elastic member 162 is connected to the second housing 120. Specifically, when the rotating body 151 pushes the limiting member 161 to move away from the rotating body 151, the first elastic member 162 is compressed, and when the first limiting portion 152 faces the limiting member 161, the first elastic member 162 can push the limiting member 161 to cooperate with the first limiting portion 152, so as to further ensure the continuous adjustment of the distance between the second housing 120 and the first housing 110.

In practical applications, when the limiting member 161 is engaged with the first limiting portion 152, the first elastic member 162 may still be in a compressed state, so as to improve the clamping degree between the limiting member 161 and the rotating body 151, and further improve the stability of the second housing 120 after the position adjustment.

Wherein, the first elastic member 162 is a spring.

In a specific embodiment, further, a limiting channel is provided on the second housing 120, the limiting member 161 can move in the limiting channel, and the first elastic member 162 is located in the limiting channel.

In this embodiment, a limiting channel is defined on the second housing 120, specifically, the limiting element 161 can move in the limiting channel, that is, during the rotation of the rotating body 151, the limiting element 161 can be pushed to move up and down in the limiting channel, so as to achieve the matching limiting of the limiting element 161 and the first limiting portion 152. And the first elastic member 162 is located in the position-limiting channel. Through setting up spacing passageway, can realize the locking after the 120 position control of second casing, prevent to fall owing to poor stability second casing 120 in frying in the roast machine 100 heating process, and then when will eating the material and crush the problem, reduce the occupation space of frying in the roast machine 100 on the direction of height, and then reduce the holistic occupation space of frying in the roast machine 100, further promote user's use and experience.

Example three:

as shown in fig. 1, fig. 2, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 10, on the basis of any of the above embodiments, further, the triggering assembly 140 includes a rotating shaft 141 and a cam 142, wherein the rotating shaft 141 is rotatably disposed on the second housing 120, the rotating member 150 is connected to the rotating shaft 141, the cam 142 is disposed on the rotating shaft 141, and the cam 142 is used for pushing the supporting assembly 130 to move.

In this embodiment, the trigger assembly 140 is defined to include a rotating shaft 141 and a cam 142, and specifically, the rotating shaft 141 is provided on the second housing 120 and is rotatable with respect to the second housing 120. The cam 142 is disposed on the rotating shaft 141, so that the cam 142 can be rotated during the rotation of the rotating shaft 141. The rotation member 150 is connected to the rotation shaft 141, so that when the rotation shaft 141 rotates, the rotation member 150 can be driven to rotate.

When the cam 142 rotates, a part of the supporting component 130 can be pushed to move relative to the second housing 120, and while a part of the supporting component 130 moves, another part of the supporting component 130 is driven to extend out of the second housing 120 and abut against the first housing 110, so as to increase the distance between the second housing 120 and the first housing 110, and thus, the distance between the second housing 120 and the first housing 110 can be adjusted.

In practical applications, the rotating shaft 141 and the cam 142 may be an integral structure, and it can be understood that the integral structure has good mechanical properties, so that the connection strength between the rotating shaft 141 and the cam 142 can be improved, the effective transmission of power is ensured, and the stability and reliability of the frying and baking machine 100 in the using process are further improved. In addition, the integral structure is convenient for processing and production, so that the production efficiency of the trigger assembly 140 can be improved, and the production cost of the trigger assembly 140 and the frying and baking machine 100 can be reduced.

As shown in fig. 1, fig. 2, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 10, on the basis of the above embodiment, the triggering assembly 140 further includes a baffle 143, the baffle 143 is disposed on the rotating shaft 141, the baffle 143 and the cam 142 are sequentially arranged along the axial direction of the rotating shaft 141, and the baffle 143 can limit the rotating shaft 141 in the axial direction of the rotating shaft 141.

In this embodiment, the trigger assembly 140 further includes a baffle 143, specifically, the baffle 143 is disposed on the rotating shaft 141, and along the axial direction of the rotating shaft 141, the baffle 143 is arranged in sequence with the cam 142, that is, the baffle 143 is disposed inside the cam 142. Further, the baffle 143 can limit the position of the rotating shaft 141 in the axial direction of the rotating shaft 141, that is, in the moving direction of the supporting component 130, that is, in the axial direction perpendicular to the rotating shaft 141, at least a part of the baffle 143 protrudes from the cam 142, so that the trigger component 140 can be limited in the axial direction, the trigger component 140 is prevented from deviating from the position matched with the supporting component 130, the effective power transmission of the trigger component 140 is further ensured, and the transmission precision and reliability are improved.

In practical application, the number of the baffles 143 can be two, and the two baffles 143 are respectively arranged near two ends of the rotating shaft 141, so that the axial displacement of the trigger assembly 140 can be further limited, the trigger assembly 140 is prevented from deviating from the position matched with the support assembly 130, effective power transmission of the trigger assembly 140 is further ensured, and the transmission precision and reliability are improved. The number of the baffles 143 can be set according to actual needs.

It should be noted that the baffle 143 and the cam 142 may be an integral structure, and it can be understood that the integral structure has good mechanical properties, so that the connection strength between the baffle 143 and the cam 142 can be improved, the effective limit of the trigger assembly 140 by the baffle 143 is ensured, and the stability and reliability of the frying and baking machine 100 in the using process are further improved. In addition, the integral structure is convenient for processing and production, so that the production efficiency of the trigger assembly 140 can be improved, and the production cost of the trigger assembly 140 and the frying and baking machine 100 can be reduced.

Example four:

as shown in fig. 1, fig. 2, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, on the basis of the above embodiment, further, the grilling machine 100 further includes a knob 170, and the knob 170 is connected to the rotating shaft 141 and is located outside the second housing 120.

In this embodiment, it is defined that the frying and roasting machine 100 further includes a knob 170, specifically, the knob 170 is connected with the rotating shaft 141, and the knob 170 is disposed outside the second housing 120. Specifically, a user rotates the knob 170, the knob 170 rotates to drive the rotating shaft 141 to rotate, the rotating shaft 141 rotates to drive the cam 142 to rotate, in the rotating process of the cam 142, the cam 142 abuts against a part of the supporting component 130 to drive a part of the supporting component 130 to move up and down relative to the second housing 120, and a part of the supporting component 130 moves to drive another part of the supporting component 130 to extend out of the second housing 120 through the through hole 180 and abut against the first housing 110 to increase the distance between the second housing 120 and the first housing 110. By providing the knob 170, a convenient condition for the user to operate the trigger assembly 140 can be provided, which facilitates the user to adjust the distance between the second housing 120 and the first housing 110.

In practical applications, the number of the knobs 170 may be at least two, and at least two knobs 170 are located on the outer side of the second housing 120, so that the user can operate the knobs 170 to adjust the distance between the second housing 120 and the first housing 110.

Example five:

as shown in fig. 1, fig. 2, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 10, based on any of the above embodiments, further, the supporting assembly 130 includes a connecting member 131 and at least one supporting member 132, wherein the at least one supporting member 132 is connected to the connecting member 131, and the cam 142 can drive the at least one supporting member 132 to move relative to the second housing 120 through the connecting member 131, so as to adjust the distance between the second housing 120 and the first housing 110.

In this embodiment, a support assembly 130 is defined comprising a connector 131 and at least one support 132, specifically, at least one support 132 is connected with the connector 131. Under the driving of the trigger assembly 140, the connecting member 131 can move relative to the second housing 120, and at the same time, the connecting member 131 can drive the at least one supporting member 132 to move relative to the second housing 120, and the at least one supporting member 132 can realize the adjustment of the distance between the second housing 120 and the first housing 110 in the moving process. Further, according to the type of food material to be cooked or the heating requirement of the user, the triggering component 140 drives the supporting component 130 to move to adjust the distance between the second shell 120 and the first shell 110, so that the problem that the food material is crushed due to the gravity of the second shell 120 is effectively avoided, the application range of the frying and baking machine 100 is widened, and the use experience of the user is improved.

In addition, the triggering component 140 drives the supporting component 130 to move, so that the adjustment of the distance between the second casing 120 and the first casing 110 can be realized, the structure is simple, the operation is convenient, and the controllability of the frying and baking machine 100 is improved.

Specifically, under the driving of the trigger assembly 140, the connecting member 131 drives at least one supporting member 132 to move toward the side where the first housing 110 is located, and at least a portion of the supporting member 132 can extend out of the second housing 120 to abut against the first housing 110, and the supporting member 132 abuts against the first housing 110 to jack up the second housing 120, so as to increase the distance between the second housing 120 and the first housing 110. It can be understood that at least one supporting element 132 can also move towards the side away from the first housing 110, that is, at least a part of the supporting element 132 can retract into the second housing 120, so that the second housing 120 contacts with the first housing 110, and the adjustment of the distance between the second housing 120 and the first housing 110 is realized, so that the distance between the second housing 120 and the first housing 110 can be adjusted according to the type of the food material and the heating requirement of the user on the food material, and the use experience of the user on the frying and baking machine 100 is improved.

Further, the connecting member 131 and the at least one supporting member 132 may be an integral structure, and it can be understood that the integral structure has good mechanical properties, so that the connection strength between the connecting member 131 and the at least one supporting member 132 can be effectively improved, and it can be ensured that the connecting member 131 can drive the at least one supporting member 132 to move relative to the second housing 120 under the driving of the trigger assembly 140, so as to adjust the distance between the second housing 120 and the first housing 110, i.e., ensure an effective power transmission process.

In addition, the connecting member 131 and the at least one supporting member 132 are integrally formed, which facilitates the processing and production of the supporting assembly 130, realizes the mass production of the supporting assembly 130, improves the production efficiency, and reduces the production cost of the supporting assembly 130 and the frying and baking machine 100 with the supporting assembly 130.

In practical applications, the number of the supporting members 132 may be multiple, that is, multiple supporting members 132 are connected to the connecting member 131, so that the supporting effect between the supporting members 132 and the first casing 110 can be improved while the distance between the second casing 120 and the first casing 110 is adjusted, and the stability and reliability of the frying and baking machine 100 during the heating process can be ensured.

It should be noted that the number of the supporting assemblies 130 may be at least two, and at least two supporting assemblies 130 are symmetrically disposed or uniformly distributed on the second housing 120, so that the distance between the second housing 120 and the first housing 110 can be further adjusted, and the supporting effect between the supporting member 132 and the first housing 110 can be improved, thereby ensuring the stability and reliability of the heating process of the grill 100.

As shown in fig. 8, on the basis of the above embodiment, further, the frying and baking machine 100 further includes at least one through hole 180, the at least one through hole 180 is disposed on the second casing 120, and the at least one through hole 180 is disposed corresponding to the at least one supporting member 132, wherein, upon the triggering member 140 rotating to a first angle, at least a portion of the supporting member 132 passes through the through hole 180 to contact the first casing 110, and the second casing 120 is spaced from the first casing 110 by a first distance; upon rotation of the trigger assembly 140 to a second angle, the first housing 110 is spaced apart from the second housing 120 by a second distance.

In this embodiment, it is defined that the grill 100 further includes at least one through hole 180, and specifically, at least one through hole 180 is disposed on the second housing 120, it can be understood that the supporting member 132 protrudes out of the second housing 120 through the through hole 180 to abut against the first housing 110, and the distance between the second housing 120 and the first housing 110 is increased by jacking up the second housing 120.

Specifically, when the triggering component 140 rotates to a first angle, the triggering component 140 pushes the connecting component 131, and further drives the at least one supporting component 132 to move toward a side where the first housing 110 is located, so that the at least one supporting component 132 extends out of the second housing 120 and abuts against the first housing 110, so that a first distance is spaced between the first housing 110 and the second housing 120, that is, the distance between the second housing 120 and the first housing 110 is increased by jacking up the first height of the second housing 120, thereby effectively avoiding the problem that the food material is crushed due to the self-gravity of the second housing 120, and improving the use experience of the user. At this time, the limiting member 161 is engaged with the first limiting portion 152 of the rotating member 150 to lock the second housing 120 at the first height, so as to improve the position stability of the second housing 120 after adjustment.

When the trigger component 140 rotates to a second angle, the trigger component 140 continues to push the connecting component 131, and further drives the at least one supporting component 132 to continue to move toward a side close to the first housing 110, so that the at least one supporting component 132 further extends out of the second housing 120 to abut against the first housing 110, and the second height of the second housing 120 is jacked up to increase the distance between the second housing 120 and the first housing 110, that is, the second distance, wherein the second distance is greater than the first distance, and at this time, the limiting component 161 cooperates with the next first limiting portion 152 on the rotating component 150, so as to lock the second housing 120 at the second height.

It is understood that when the trigger assembly 140 rotates to the second angle, the contact with the connecting member 131 may be cancelled for the trigger assembly 140, the connecting member 131 drives the at least one supporting member 132 to retract into the second housing 120, that is, the at least one supporting member 132 cancels the contact with the first housing 110, the second housing 120 resets under the self-gravity, and the second housing 120 contacts with the first housing 110, that is, the second distance, wherein the second distance is smaller than the first distance. At this time, the rotating member 150 is disengaged from the stopping member 160.

By adjusting the rotation angle of the trigger assembly 140, the distance between the second housing 120 and the first housing 110 is adjusted. Further, according to the type of food material to be cooked or the heating requirement of the user, the triggering component 140 drives the supporting component 130 to move to adjust the distance between the second shell 120 and the first shell 110, so that the problem that the food material is crushed due to the gravity of the second shell 120 is effectively avoided, the application range of the frying and baking machine 100 is widened, and the use experience of the user is improved.

As shown in fig. 1, fig. 5, fig. 6 and fig. 8, on the basis of the above embodiment, further, the frying and baking machine 100 further includes a second elastic member 190, wherein the second elastic member 190 is sleeved on the supporting member 132; wherein, based on the trigger assembly 140 rotating to the first angle, the second elastic member 190 is elastically deformed; based on the trigger assembly 140 rotating to the second angle, the second elastic element 190 drives the supporting element 132 to reset.

In this embodiment, it is defined that the frying and roasting machine 100 further includes a second elastic member 190, and specifically, the second elastic member 190 is sleeved on the supporting member 132. Specifically, when the trigger assembly 140 rotates by a first angle, the trigger assembly 140 pushes the connecting member 131 to move, and the connecting member 131 moves to drive the at least one supporting member 132 to extend out of the second housing 120 through the through hole 180, so that the at least one supporting member 132 abuts against the first housing 110, and the distance between the first housing 110 and the second housing 120 is increased, at this time, the second elastic member 190 is elastically deformed, specifically, the second elastic member 190 is compressed, and is in a compressed state.

When the trigger assembly 140 moves reversely, that is, the trigger assembly 140 rotates reversely by a second angle, that is, the trigger assembly 140 is withdrawn from the connection member 131, the second elastic member 190 releases the elastic potential energy, pushes the connection member 131 and drives the at least one supporting member 132 to move in the direction away from the first housing 110, that is, pushes the supporting member 132 to retract into the second housing 120, thereby completing the automatic reset of the supporting assembly 130, further realizing the operability of the supporting assembly 130, and improving the user experience.

It should be noted that the second elastic member 190 may be a spring. The specific setting can be carried out according to actual needs.

On the basis of the above embodiment, further, a first limiting structure for axially limiting the second elastic element 190 is arranged in the through hole 180; one end of the supporting member 132 near the connecting member 131 is provided with a second limiting structure for axially limiting the second elastic member 190.

In this embodiment, it is further defined that a first limit structure and a second limit structure for limiting the second elastic member 190 are respectively disposed in the through hole 180 and on the supporting member 132. Wherein, the first limit structure is disposed inside the through hole 180, and the second limit structure is disposed at one end of the supporting member 132 close to the connecting member 131.

One end of the second elastic element 190 contacts with the first limiting structure, and the other end of the second elastic element 190 contacts with the second limiting structure.

Specifically, when the trigger assembly 140 rotates by a first angle, the trigger assembly 140 drives the connecting member 131 and drives the at least one supporting member 132 to extend out of the second housing 120 through the through hole 180, so that the at least one supporting member 132 abuts against the first housing 110, and the distance between the first housing 110 and the second housing 120 is increased, at this time, the second elastic member 190 generates elastic deformation, the distance between the first limiting structure and the second limiting structure is shortened, that is, the second elastic member 190 is compressed and is in a compressed state.

When the trigger assembly 140 moves reversely, that is, the trigger assembly 140 is withdrawn from the connecting member 131, the second elastic member 190 releases elastic potential energy to push the connecting member 131 and drive the at least one supporting member 132 to move in the direction away from the first housing 110, at this time, the second limiting structure moves in the direction away from the first limiting structure, that is, the supporting member 132 is pushed to retract into the second housing 120, thereby completing the automatic reset of the supporting assembly 130, further realizing the operability of the supporting assembly 130, and improving the user experience.

Example six:

as shown in fig. 1, fig. 5, fig. 6, fig. 7 and fig. 8, on the basis of any of the above embodiments, further, the grilling machine 100 further includes a positioning component, which is disposed on the second housing 120 and is capable of limiting the radial movement of the rotating shaft 141.

In this embodiment, it is defined that the frying and roasting machine 100 further comprises a positioning assembly, specifically, the positioning assembly is disposed on the second housing 120, and the positioning assembly can limit the radial movement of the rotating shaft 141, i.e., the positioning assembly can limit the displacement of the rotating shaft 141 in its own radial direction.

Specifically, through setting up the locating component who restricts the radial direction motion of pivot 141, make pivot 141 can be pinpointed at predetermined operating position, avoid external factors such as user operation, vibration to lead to the pivot dislocation and influence the problem of second casing 120 lift effect, improve reliability and stability in the roast machine 100 of frying in shallow oil use, promote and trigger subassembly 140 transmission precision, reduce the dead probability of mechanism's transmission emergence card, further promote the user and experience the use of roast machine 100 of frying in shallow oil.

As shown in fig. 1, 5, 6, 7 and 8, based on the above embodiment, the positioning assembly further includes a bearing component 230, a first positioning component 210, a second positioning component 220 and a shielding component, the bearing component 230 is provided with a limiting groove, the rotating shaft 141 is disposed in the limiting groove, the limiting groove is used for radially limiting the rotating shaft 141, the first positioning component 210 and the second positioning component 220 are disposed in the second housing 120, the bearing component 230 is located between the first positioning component 210 and the second positioning component 220, and the shielding component is connected to the first positioning component 210 and the second positioning component 220 and located at one end of the first positioning component 210 and the second positioning component 220 away from the second housing 120.

In this embodiment, it is defined that the positioning assembly includes a bearing member 230, a first positioning member 210, a second positioning member 220 and a shielding member, specifically, the bearing member 230 is disposed on the second housing 120, a limiting groove is disposed on the bearing member 230, the rotating shaft 141 is located in the limiting groove, and the rotating shaft 141 can rotate in the limiting groove, and the limiting groove can radially limit the rotating shaft 141.

The first positioning element 210 and the second positioning element 220 are located at two sides of the bearing element 230, so that the first positioning element and the second positioning element cooperate with the bearing element 230 to effectively prevent the rotating shaft 141 from coming off. On this basis, the shielding member is connected with the first positioning member 210 and the second positioning member 220 at the end away from the second housing 120 to form a limiting hole for the rotating shaft 141 to pass through in cooperation with the limiting groove, the rotating shaft 141 can rotate in the limiting hole, and when the rotating shaft 141 is radially displaced due to external factors, the first positioning member 210, the second positioning member 220 and the shielding member can play a role in blocking, thereby completing the radial limiting of the rotating shaft 141. And then make pivot 141 can be positioned at predetermined operating position by the accuracy, avoid external factors such as user operation, vibration to lead to pivot 141 dislocation and influence the problem of second casing 120 lift effect, improve reliability and stability in frying and baking machine 100 use, promote and trigger subassembly 140 transmission precision, reduce the dead probability of mechanism's transmission emergence card, further promote the user to fry and bake machine 100 use and experience.

In practical applications, the shielding member is detachably connected to the first positioning member 210 and the second positioning member 220, and during the assembling process, the rotating shaft 141 is first placed in the limiting groove between the first positioning member 210 and the second positioning member 220, and the shielding member is covered on the first positioning member 210 and the second positioning member 220 to complete the assembling of the rotating shaft 141. Compared with the technical scheme that the rotating shaft 141 is inserted into the positioning assembly in the related art, the structure has the advantages of low assembly difficulty and strong operability, and the insertion channel reserved for the rotating shaft 141 can be omitted, so that the structural complexity is reduced. On the other hand, a detachable shutter may provide convenience during maintenance of the spindle 141. For example, when the rotating shaft 141 fails, the user can directly take out the rotating shaft 141 after detaching the shielding member, so as to efficiently complete the maintenance of the rotating shaft 141 or the replacement of the rotating shaft 141, thereby improving the user experience.

On the basis of any of the above embodiments, further, the number of the supporting components 130 is at least two; at least two support assemblies 130 are evenly distributed on the second housing 120; and/or at least two support members 130 are symmetrically distributed on the second housing 120.

In this embodiment, at least two supporting members 130 are disposed on the frying and baking machine 100, and the at least two supporting members 130 are distributed on different regions of the second housing 120. Compared with the single support assembly 130, the freedom of adjusting the distance between the first housing 110 and the second housing 120 can be increased by providing at least two support assemblies 130, so that the user can adjust the distance between the target adjustment region and the corresponding support assembly 130, and the top housing can be tilted with respect to the bottom housing, so that the grill 100 can heat a plurality of different sizes of food between the first housing 110 and the second housing 120. Thereby realizing the technical effects of improving the operability of the frying and baking machine 100 and providing convenient conditions for users.

The at least two support members 130 may be evenly distributed on the second housing 120. Specifically, on the second housing 120, at least two support assemblies 130 are uniformly distributed on the same circle with a center line vertically penetrating through the second housing 120 as an axis, so as to form an annular array of support assemblies 130 on the second housing 120, so that the plurality of support assemblies 130 can effectively support the top housing at multiple angles, and the top housing is prevented from being deflected due to unfavorable support. Meanwhile, the plurality of supporting components 130 are uniformly distributed, so that the weight of the top shell can be uniformly distributed on the plurality of supporting components 130, and the damage of one supporting component 130 due to over-large stress is reduced.

The at least two support members 130 may also be symmetrically distributed on the second housing 120. The symmetrical distribution is to symmetrically distribute the plurality of supporting members 130 on both sides of the central axis of the second housing 120. For example, when two support members 130 are provided, the two support members 130 are symmetrically provided at both left and right ends of the second housing 120. When three support members 130 are provided, two support members 130 are symmetrically disposed on both sides of the central axis, and the remaining one support member 130 is symmetrically divided by the central axis. The symmetrical distribution of the plurality of support members 130 may also enhance the support effectiveness of the top housing on the one hand, and may provide a convenient condition for the user to adjust the tilt angle of the top housing on the other hand. Thereby realizing the technical effects of optimizing the distribution mode of the supporting components 130 and improving the practicability and reliability of the frying and baking machine 100.

In one embodiment, the grilling machine 100 further includes a heating component disposed on the second housing 120 and/or the first housing 110 and located between the second housing 120 and the first housing 110.

In this embodiment, it is defined that the frying and roasting machine 100 further comprises a heating element, specifically, the heating element can be disposed on the second housing 120 and/or the first housing 110, specifically, the heating element can be disposed on a surface of the first housing 110 facing the second housing 120, and the heating element can be disposed on a surface of the second housing 120 facing the first housing 110, so that the food material placed between the second housing 120 and the first housing 110 can be heated by the heating element. The setting can be specifically carried out according to actual needs.

It is noted that the second housing 120 and the first housing 110 are each provided with a heating member. During heating, the bottom of the food material is in contact with a heating element on the first housing 110, which heat is transferred to the food material by contact heat transfer. And the heating member on the second casing 120 is with eating material top looks interval, and the heat is during via air transfer to food to avoid food compression damage on the basis of satisfying high-efficient heating demand.

In another embodiment, the baking machine 100 can be an electric baking pan or an electric baking tray, which is not limited in this patent.

In this embodiment, the electric baking pan, the electric baking tray or the baking machine 100 can satisfy the heating requirements of different sizes of food by adjusting the distance between the first casing 110 and the second casing 120, and ensure that the food is not damaged during the heating process, thereby improving the user experience.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A frying and baking machine is characterized by comprising:

a first housing;

the second shell is movably connected with the first shell;

the supporting assembly is arranged on the second shell;

the trigger assembly can drive the support assembly to move relative to the second shell so as to adjust the distance between the second shell and the first shell;

the rotating part is connected with the trigger assembly;

and the limiting assembly is arranged on the second shell, and the triggering assembly can drive the rotating piece to rotate so that the rotating piece is matched with the limiting assembly.

2. The grill of claim 1, wherein the rotatable member comprises:

the trigger assembly can drive the rotating body to rotate;

the first limiting part is arranged on one side, facing the limiting assembly, of the rotating body, and the limiting assembly can be matched with the first limiting part.

3. The frying and roasting machine of claim 2,

the number of the first limiting parts is multiple.

4. The grill of claim 2, wherein the stop assembly comprises:

the limiting piece can be matched with at least one first limiting part;

the rotation of the rotating part can push the limiting part to move relative to the second shell.

5. The grill of claim 4, wherein the retainer comprises:

a limiting body;

the second limiting part is connected with the limiting body and is matched with the first limiting part.

6. The frying and roasting machine of claim 5,

one of the first and second stopper portions is configured as a groove, and the other of the first and second stopper portions is configured as a projection that is insertable into the groove.

7. The grill of claim 5, wherein the stop assembly further comprises:

the first elastic piece is sleeved on the limiting body, the first end of the first elastic piece is connected with the limiting body, and the second end of the first elastic piece is connected with the second shell.

8. The frying and roasting machine of claim 7,

the second shell is provided with a limiting channel, the limiting part can move in the limiting channel, and the first elastic part is located in the limiting channel.

9. The grilling machine of any one of claims 1 to 8, wherein the trigger assembly comprises:

the rotating shaft is rotatably arranged on the second shell, and the rotating piece is connected with the rotating shaft;

the cam is arranged on the rotating shaft and used for pushing the supporting component to move.

10. The grilling machine of claim 9, wherein the trigger assembly further comprises:

the baffle is arranged in the rotating shaft and along the axial direction of the rotating shaft, the baffle and the cams are sequentially arranged, and the baffle can be right in the axis direction of the rotating shaft to limit the rotating shaft.

11. The fry roaster of claim 9, further comprising:

and the knob is connected with the rotating shaft and is positioned on the outer side of the second shell.

12. The grill of claim 9, wherein the support assembly comprises:

a connecting member;

the cam can drive the at least one supporting piece to move relative to the second shell through the connecting piece so as to adjust the distance between the second shell and the first shell.

13. The fry roaster of claim 12, further comprising:

at least one through hole arranged on the second shell and corresponding to the at least one supporting piece,

wherein upon rotation of the trigger assembly to a first angle, at least a portion of the support passes through the through-hole to contact the first housing, the first housing being spaced a first distance from the second housing;

based on the trigger assembly rotating to a second angle, the first shell and the second shell are separated by a second distance.

14. The fry roaster of claim 13, further comprising:

the second elastic piece is sleeved on the supporting piece;

the second elastic piece is elastically deformed based on the trigger assembly rotating to the first angle; based on the trigger component rotates to the second angle, the second elastic piece drives the supporting piece to reset.

15. The fry roaster of claim 14,

a first limiting structure used for limiting the second elastic piece along the axial direction is arranged in the through hole;

one end of the supporting piece, which is close to the connecting piece, is provided with a second limiting structure used for limiting the second elastic piece along the axial direction.

16. The fry roaster of claim 9, further comprising:

and the positioning assembly is arranged on the second shell and can limit the radial movement of the rotating shaft.

17. The grill of claim 16, wherein the positioning assembly comprises:

the bearing piece is provided with a limiting groove, the rotating shaft is arranged in the limiting groove, and the limiting groove is used for limiting the rotating shaft in the radial direction;

the first positioning piece and the second positioning piece are arranged on the second shell, and the bearing piece is positioned between the first positioning piece and the second positioning piece;

and the shielding piece is connected with the first positioning piece and the second positioning piece and is positioned at one end of the first positioning piece and one end of the second positioning piece, which deviates from the second shell.