CN213821080U - Cooking apparatus and lid - Google Patents

Abstract

The utility model provides a cooking equipment and lid, wherein, cooking equipment includes: the temperature measuring piece, temperature measuring piece at least a part is the arc or the shape of buckling. The temperature sensing probe is provided with a bending section, has longer length under the same diameter, has larger temperature sensing area and quicker heat exchange, and ensures that the temperature cycle of the whole machine is quicker.

Description

Cooking apparatus and lid

Technical Field

The utility model belongs to the technical field of food processing equipment, particularly, relate to a cooking equipment and a lid.

Background

The air fryer controls the heating pipe to start heating or stop heating through the sensing result of the temperature sensing probe, and the response speed of the heating pipe is slow due to the slow heat exchange of the temperature sensing probe, so that the time for the air fryer to reach heat balance is long.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art or the correlation technique.

In view of this, a first aspect of the present invention provides a cooking apparatus, including: the temperature measuring piece, at least a part of temperature measuring piece is arc or bending shape.

The utility model provides a cooking equipment includes the temperature measurement piece, and at least some of temperature measurement piece is the arc or at least some is the shape of buckling to can increase the length that sets up of temperature measurement piece. It can be understood that when the temperature measuring part is assembled in a certain part, under the condition that the size of the part is fixed and unchanged, the size of the temperature measuring part in the linear direction cannot be larger than that of the cavity in any linear direction due to the limitation of the size of the cavity in the part, so that the length of the temperature measuring part is shorter. Temperature measurement spare is cylinder formula probe usually, the utility model discloses in buckle temperature measurement spare, under the condition that does not change temperature measurement spare radial dimension and part size, increased the size of temperature measurement spare, and then increase temperature measurement spare's temperature sensing area, because temperature measurement spare's temperature sensing area is great for the heat exchange can be carried out sooner to temperature measurement spare, improves the response speed of heating member, makes the temperature cycle in the cooking equipment accelerate, shortens the air and explodes the pot and reach the time of thermal balance.

In addition, according to the utility model provides a cooking equipment among the above-mentioned technical scheme can also have following additional technical characteristics:

in one possible design, the cooking apparatus further comprises: the cover body is provided with a heating cavity, and the temperature measuring piece is positioned in the heating cavity; the temperature measuring piece is connected with the cover body.

In this design, cover the internal heating chamber that is provided with, the high-temperature gas in the heating chamber can heat and cook eating the material, and the temperature measurement piece is located the heating intracavity for the temperature measurement piece can be measured the temperature of heating the intracavity.

In one possible design, the temperature measurement element extends along the wall of the heating chamber.

In this design, the temperature measurement piece is fixed at the inner wall in heating chamber for the temperature measurement piece is difficult for rocking in the heating chamber, and the temperature measurement piece can be measured the temperature in the heating chamber steadily, reduces the spoilage of temperature measurement piece. Can extend the inner wall that the temperature measurement spare was followed the heating chamber, the shape of temperature measurement spare and the shape looks adaptation of the inner wall in heating chamber promptly for the inner wall in heating chamber can not produce with temperature measurement spare and interfere, further improves the size of temperature measurement spare, and the temperature sensing area of increase temperature measurement spare makes the temperature measurement spare can carry out the heat exchange sooner, improves the response speed of heating member, makes the temperature cycle in the cooking equipment accelerate.

In one possible design, the temperature measuring member is of an arc-shaped configuration.

In this design, specifically inject the whole arc structure that is of temperature measurement spare, further increase the extension length of temperature measurement spare, effectively increase the temperature sensing area of temperature measurement spare, improve the temperature measurement accuracy.

In one possible design, the temperature measuring element is provided with a gap with the inner wall of the heating chamber.

In this design, the temperature measurement piece can be installed to the inner wall in heating chamber on, and the temperature measurement piece need not paste the inner wall in tight heating chamber, is provided with the clearance between the inner wall in temperature measurement piece and heating chamber promptly for each surface of temperature measurement piece can both carry out the temperature measurement, increases the effective temperature sensing area of temperature measurement piece, improves the heat exchange speed of temperature measurement piece.

Specifically, can set up a plurality of supporting seats on the inner wall in heating chamber, the supporting seat can support temperature measurement piece, and the supporting seat setting is between temperature measurement piece and the inner wall in heating chamber for temperature measurement piece and the inner wall in heating chamber form the clearance, and the supporting seat can be to the adaptation with temperature measurement piece to the shape of bearing the weight of the terminal surface of temperature measurement piece, thereby improves the stability of bearing the weight of the supporting seat to measurement piece, avoids temperature measurement piece and supporting seat separation.

In one possible design, the cooking apparatus further comprises: the fan blade is arranged in the heating cavity and used for blowing airflow towards the temperature measuring piece.

In this design, the fan blade blows the air current towards the temperature measurement piece, can improve the programming rate of temperature measurement piece, improves the measurement accuracy of temperature measurement piece, and when stopping heating the chamber, the fan blade blows the air current towards the temperature measurement piece, can reduce the temperature of temperature measurement piece fast for the culinary art chamber can reach thermal balance more fast.

In one possible design, the cover body is provided with an opening which is communicated with the heating cavity; the cooking apparatus further includes: the heating member is arranged in the heating cavity, and the fan blade is positioned between the heating member and the opening.

In this design, be provided with the opening on the cover body, the heat that heating member produced can discharge to the culinary art intracavity through the opening to can heat the edible material of culinary art intracavity, can stir the air current when the fan blade rotates, thereby make the gas of heating member heating can flow fast everywhere to the heating chamber, make the temperature everywhere in the heating chamber rise in step as far as possible, and can improve rate of heating. The fan blade sets up towards the fan blade, and specifically, the fan blade is compared in the heating member and is kept away from the opening for the fan blade can blow towards heating member and opening, and the fan blade can blow in the culinary art chamber fast with the heat that the heating member produced, improves the rate of heating to the culinary art chamber.

In one possible design, the cover includes: the first cover body is provided with a first enclosing area, and the fan blade and the temperature measuring piece are positioned in the first enclosing area; the second cover body is provided with a second surrounding area, the second cover body is connected with the first cover body, and the heating element is positioned in the surrounding area of the second cover body; the cover plate is connected to the second cover body, the second cover body is located between the first cover body and the cover plate, and the opening is formed in the cover plate.

In this design, the cover includes a first cover, a second cover and a cover, the side wall of the first cover is configured as an annular structure, the side wall of the second cover is configured as an annular structure, the first cover and the cover are located at opposite sides of the second cover, the first cover and the second cover are connected, and in particular, the first cover and the second cover can be provided as an integrally formed structure. The fan blade sets up in the region is established in enclosing of the first cover body, and the heating member sets up in the region is established in enclosing of the second cover body.

The temperature measurement piece is also arranged in the first cover body, and the fan blade and the temperature measurement piece are both arranged in the first cover body, so that the fan blade can stir the air flow and blow the air flow to the temperature measurement piece 200 when rotating, the air flow flowing speed on the surface of the temperature measurement piece is accelerated, the heat exchange speed of the temperature measurement piece can be accelerated, and particularly, in the heating process, the fan blade can blow hot air to the temperature measurement piece, so that the surface temperature of the temperature measurement piece can be improved as soon as possible. When the heating is stopped, the fan blades blow the temperature measuring part to accelerate the cooling speed of the temperature measuring part, so that the temperature measuring part can exchange heat as soon as possible, and the cooking cavity can reach heat balance more quickly.

In one possible design, the cover is a stepped structure.

In this design, the first and second shields are integrally configured in a stepped configuration due to the fact that the shields are stepped, i.e., the radial dimension of the second shield is greater than the radial dimension of the first shield. Because the occupation space of the heating member is great, the heating member can be installed in the second cover body with a large size, and the occupation space of the fan blade is small, so that the fan blade can be installed in the first cover body with a small size, the size of the cover body is reasonably set, the occupation space of the cover body can be reduced, and the space utilization rate is improved.

In a possible design, the first cover body is of an annular structure, and the temperature measuring part is arranged on the inner wall of the first cover body.

In this design, because first cover body is the loop configuration, the temperature measurement piece can encircle partial fan blade at least for the fan blade can blow the air current to the temperature measurement piece more evenly, makes the culinary art chamber reach thermal balance more fast.

In one possible design, the cooking apparatus further comprises: the retaining member is connected to the first cover body, the retaining member is at least two, and at least two retaining members can lock the temperature measuring part in the first cover body.

In this design, the temperature measurement piece locks on the first cover body through the retaining member, that is to say, the utility model discloses in set up the temperature measurement piece and the first cover body into the detachable structure to be convenient for carry out dismouting, change to the temperature measurement piece, improve the convenience of maintenance process. The locking effect of retaining member to the temperature measurement piece for the temperature measurement piece is difficult for rocking relative first cover body, and is difficult for breaking away from first cover body, makes the temperature measurement piece can realize the temperature measurement function at first cover internal stability. Specifically, the retaining member is at least two, and at least two retaining members form a plurality of locking points to avoid the temperature measurement piece can slide relative to the retaining member, make the retaining member can stably lock the temperature measurement piece in the first cover body.

In a possible design, the locking member is sleeved on the temperature measuring member, part of the locking member sleeved on the temperature measuring member is of an arc-shaped structure, and part of the locking member extends out of the first cover body.

In this design, part retaining member can stretch out first cover body, so can go on in first cover body outside the locking process to the temperature measurement piece, specifically, establish retaining member cover on the temperature measurement piece, then wear out first cover body with part retaining member, will stretch out the locking of part retaining member of first cover body to make the part retaining member that is located first cover body press from both sides the temperature measurement piece tightly on the inner wall in heating chamber, realize the installation to the temperature measurement piece. Receive the restriction of first cover body size, the staff is not convenient for fix the temperature measurement piece in first cover body, and does not need to carry out loaded down with trivial details operation at first cover body internal mode of locating the temperature measurement piece with the retaining member cover, has improved the convenience of installing the temperature measurement piece.

The partial retaining member of temperature measurement piece is located to the cover for the shape of retaining member and the shape looks adaptation of temperature measurement piece, and then the area of contact of increase retaining member and temperature measurement piece improves the locking stability of retaining member to the temperature measurement piece.

In one possible design, the locking member is at least two, and adjacent locking members of the at least two locking members are arranged at intervals.

In this design, because the temperature measurement piece has the bending section, can carry on spacingly to the temperature measurement piece through two at least retaining members, avoid the relative retaining member of temperature measurement piece to slide.

In one possible design, the retaining member includes: the first locking piece is sleeved on the temperature measuring piece; the second retaining member is connected to the first retaining member, and the second retaining member extends out of the first cover body, and the second retaining member is a plastic retaining member.

In this design, the retaining member is constructed as the U type, and the retaining member includes first retaining member and second retaining member, and the first retaining member of part U type is located first cover internally and the temperature measurement piece is located to the cover, and the second retaining member is the open part of U type structure, and the first cover body can be stretched out to the second retaining member, specifically, the utility model provides a second retaining member is the plasticity retaining member, and plastic deformation can take place for the second retaining member promptly, and the second retaining member is two sets of structures of U type opening, and two sets of structures can be screwed up each other to take place plastic deformation when screwing up each other, thereby take up first retaining member to the inner wall in heating chamber, and then lock the temperature measurement piece in the first cover body, avoid the temperature measurement piece to rock at the first cover internally, make the temperature measurement piece can realize the temperature measurement function steadily.

In one possible design, the retaining member includes: the part of the body extending out of the first cover body is provided with assembling threads; and the nut can be connected with the assembly thread on the body.

In this design, the body can overlap and locate temperature measurement piece and part and stretch out the first cover body, machine-shaping has the assembly screw thread on the part body that stretches out the first cover body, with the nut revolve on the part body that stretches out the first cover body, and make the nut offset with the outer wall of the first cover body, thereby can be taut to the inner wall in heating chamber with the part body that is located the first cover body, and then lock temperature measurement piece in the first cover body, avoid temperature measurement piece to rock in the first cover body, make temperature measurement piece can realize the temperature measurement function steadily.

In one possible design, the cooking apparatus further comprises: the motor cover is positioned in the motor cover; the motor is arranged on the motor cover, and an output shaft of the motor is assembled with the fan blades.

In this design, the motor cover plays the guard action to the cover body, installs the motor to the motor cover, and the output shaft of motor stretches into the cover internally and is connected with the fan blade for the motor can drive the fan blade and rotate.

The second aspect of the utility model provides a cover body, include: a cover body; the temperature measuring piece is arranged on the cover body, and at least one part of the temperature measuring piece is in an arc shape or a bent shape.

At least one part of the temperature measuring piece is arc-shaped or at least one part of the temperature measuring piece is bent, so that the arrangement length of the temperature measuring piece can be increased. It can be understood that when the temperature measuring part is assembled in the cover body, the size of the temperature measuring part in the linear direction cannot be larger than that of the cavity in any linear direction under the condition that the size of the cover body is fixed and unchanged, so that the length of the temperature measuring part is shorter. Temperature measurement spare is cylinder formula probe usually, the utility model discloses in buckle temperature measurement spare, under the condition that does not change temperature measurement spare radial dimension and cover body size, increased the size of temperature measurement spare, and then increase temperature measurement spare's temperature sensing area, because temperature measurement spare's temperature sensing area is great for the temperature measurement spare can carry out the heat exchange sooner, improves the response speed of heating member.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, 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 a schematic structural diagram of a cooking apparatus according to an embodiment of the present invention;

fig. 2 shows a schematic structural view of a cooking apparatus according to another embodiment of the present invention;

fig. 3 shows a control circuit diagram of a cooking apparatus according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 3 is:

the temperature measuring device comprises a 100 cover body, a 110 first cover body, a 120 second cover body, a 130 cover plate, a 200 temperature measuring part, a 300 heating part, a 400 fan blade, a 500 locking part, a 600 motor, a 700 motor cover, a 810 micro-switch, an 820 temperature controller, a 830 timer, a 850 first warning lamp and a 860 second warning lamp.

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 cooking apparatus provided according to some embodiments of the present invention is described below with reference to fig. 1 to 3.

The first embodiment is as follows:

with reference to fig. 1 and 2, an embodiment of a first aspect of the present invention provides a cooking apparatus, including: the temperature measuring member 200. At least a portion of the temperature measuring member 200 is in an arc or bent shape.

At least a part of the temperature measuring member is arc-shaped or at least a part thereof is bent, so that the installation length of the temperature measuring member 200 can be increased. It can be understood that, when the temperature measuring part is assembled in a certain part, under the condition that the size of the part is fixed and unchanged, the size of the temperature measuring part 200 in the linear direction cannot be larger than that of the temperature measuring part 200 in any linear direction in the cavity due to the limitation of the size of the cavity in the part, so that the length of the temperature measuring part 200 is shorter. Temperature measurement piece 200 is the cylinder probe usually, the utility model discloses in buckle temperature measurement piece 200, under the condition that does not change temperature measurement piece 200 radial dimension and part size, increased temperature measurement piece 200's size, and then increase temperature measurement piece 200's temperature sensing area, because temperature measurement piece 200's temperature sensing area is great, make temperature measurement piece 200 can carry out the heat exchange sooner, improve heating member 300's response speed, make the temperature cycle in the cooking equipment accelerate, shorten the air and explode the pot and reach thermal balance's time.

In this embodiment, the temperature measuring unit 200 is a temperature sensing probe, which is arc-shaped, and has a longer length with the same diameter, a larger temperature sensing area and a faster heat exchange, so that the temperature cycle of the whole device is faster.

Example two:

with reference to fig. 1 and 2, on the basis of the first embodiment, the cooking apparatus further includes: the cover body 100 is provided with a heating cavity, and the temperature measuring piece 200 is positioned in the heating cavity; the temperature measuring member 200 is connected to the cover 100.

Be provided with the heating chamber in the cover body 100, the high-temperature gas in the heating chamber can heat and cook the edible material, and temperature measurement piece 200 is located the heating chamber for temperature measurement piece 200 can measure the temperature in the heating chamber.

Further, the temperature measurement member 200 extends along the wall of the heating chamber.

The temperature measuring piece 200 is fixed on the inner wall of the heating cavity, so that the temperature measuring piece 200 is not easy to shake in the heating cavity, the temperature measuring piece 200 can stably measure the temperature in the heating cavity, and the damage rate of the temperature measuring piece 200 is reduced. Can extend the inner wall of temperature measurement piece 200 along the heating chamber, the shape looks adaptation of the shape of temperature measurement piece 200 and the inner wall of heating chamber promptly for the inner wall of heating chamber can not produce with temperature measurement piece 200 and interfere, further improves the size of temperature measurement piece 200, increases the temperature sensing area of temperature measurement piece 200, makes temperature measurement piece 200 carry out the heat exchange sooner, improves the response speed of heating member 300, makes the temperature cycle in the cooking equipment accelerate.

Further, the temperature measuring member 200 has an arc-shaped structure.

Specifically, the whole temperature measuring part 200 is limited to be of an arc-shaped structure, the extension length of the temperature measuring part 200 is further increased, the temperature sensing area of the temperature measuring part 200 is effectively increased, and the temperature measuring accuracy is improved.

Example three:

in the above embodiment, as shown in fig. 1 and fig. 2, the temperature measuring element 200 is spaced from the inner wall of the heating chamber.

In this embodiment, the temperature measuring element 200 can be installed on the inner wall of the heating chamber, and the temperature measuring element 200 does not need to be attached to the inner wall of the heating chamber, i.e. a gap is formed between the temperature measuring element 200 and the inner wall of the heating chamber, so that the temperature of all the surfaces of the temperature measuring element 200 can be measured, the effective temperature sensing area of the temperature measuring element 200 is increased, and the heat exchange speed of the temperature measuring element 200 is increased.

Specifically, can set up a plurality of supporting seats on the inner wall in heating chamber, the supporting seat can support temperature measurement piece 200, and the supporting seat setting is between the inner wall in temperature measurement piece 200 and heating chamber for the inner wall in temperature measurement piece 200 and heating chamber forms the clearance, and the supporting seat can be to the adaptation with temperature measurement piece 200 to the shape of bearing the weight of the terminal surface of temperature measurement piece 200, thereby improves the stability of bearing the weight of the supporting seat to the measurement piece, avoids temperature measurement piece 200 and supporting seat separation.

Example four:

as shown in fig. 1 and 2, in the above embodiment, the cooking apparatus further includes: the fan blade 400 is arranged in the heating cavity, and the fan blade 400 is used for blowing airflow towards the temperature measuring piece 200.

In this embodiment, the fan blade 400 blows the airflow toward the temperature measuring part 200, which can improve the temperature rising speed of the temperature measuring part 200 and improve the measurement accuracy of the temperature measuring part 200, and when the heating chamber is stopped being heated, the fan blade 400 blows the airflow toward the temperature measuring part 200, which can quickly reduce the temperature of the temperature measuring part 200, so that the cooking chamber can reach the heat balance more quickly.

The cover body 100 is provided with an opening which is communicated with the heating cavity; the cooking apparatus includes: the heating member 300. The heating member 300 is disposed in the heating chamber, and the fan 400 is located between the heating member 300 and the opening.

In this embodiment, the cover 100 is provided with an opening, heat generated by the heating element 300 can be discharged into the cooking cavity through the opening, so that the food in the cooking cavity can be heated, the fan blade 400 can stir the air flow when rotating, so that the air heated by the heating element 300 can rapidly flow to all places of the heating cavity, the temperature in all places of the heating cavity can be synchronously raised as much as possible, and the heating speed can be increased. The fan blade 400 is arranged towards the fan blade 400, specifically, the fan blade 400 is far away from the opening compared with the heating element 300, so that the fan blade 400 can blow air towards the heating element 300 and the opening, the fan blade 400 can blow heat generated by the heating element 300 into the cooking cavity quickly, and the heating speed of the cooking cavity is improved.

The heating element 300 in this embodiment is a heating tube, and the heating tube may be arranged in the heating chamber in a convolute shape.

The cooking device further comprises a motor 600 and a motor cover 700, the motor 600 is installed in the motor cover 700, and the fan blade 400 is installed on a driving shaft of the motor 600, so that the motor 600 can drive the fan blade 400 to rotate.

Further, the cover 100 includes: a first cap 110, a second cap 120, and a cover plate 130. The first cover body 110 is provided with a first enclosing area, the second cover body 120 is provided with a second enclosing area, and the fan blade 400 and the temperature measuring part 200 are positioned in the first enclosing area; the second enclosure 120 is coupled to the first enclosure 110, and the heating element 300 is located within the second enclosure; an opening is formed in one side of the second cover 120 away from the first cover 110, the cover 130 covers the opening, and the opening is formed in the cover 130.

The sidewall of the first cover 110 is configured to be annular, the sidewall of the second cover 120 is also configured to be annular, the first cover 110 and the cover plate 130 are located at opposite sides of the second cover 120, the first cover 110 and the second cover 120 are connected, and particularly, the first cover 110 and the second cover 120 may be provided as an integrally molded structure. The fan 400 is disposed in the surrounding area of the first housing 110, and the heating member 300 is disposed in the surrounding area of the second housing 120.

Temperature measurement piece 200 sets up in first cover body 110 equally, because fan blade 400 and temperature measurement piece 200 all set up in first cover body 110, can stir the air current and blow the air current to temperature measurement piece 200 when fan blade 400 rotates for the air current on temperature measurement piece 200 surface flow speed accelerates, thereby can accelerate the heat transfer speed of temperature measurement piece 200, specifically, in the heating process, fan blade 400 can blow hot-blast to temperature measurement piece 200, thereby can improve the surface temperature of temperature measurement piece 200 as early as possible. When the heating is stopped, the fan blade 400 blows air to the temperature measuring part 200 to accelerate the cooling speed of the temperature measuring part 200, so that the temperature measuring part 200 can exchange heat as soon as possible, and the cooking cavity can reach heat balance more quickly.

The installation position of the temperature sensing probe is changed, hot air facing the fan blade 400 is pushed by the fan blade 400 and continuously blown to the temperature sensing probe, and the heat exchange of the temperature sensing probe is accelerated.

The contact surface between the lengthened and changed position temperature sensing probe and the cover body 100 is changed, and the heat exchange is faster.

Further, the cover 100 has a stepped structure.

Since the shroud 100 has a stepped structure, the radial dimension of the second shroud 120 is greater than the radial dimension of the first shroud 110, so that the first shroud 110 and the second shroud 120 are integrally configured as a stepped structure. Since the heating element 300 occupies a large space, the heating element 300 can be installed in the second cover 120 having a large size, and the fan blade 400 occupies a small space, so that the fan blade 400 can be installed in the first cover 110 having a small size, the size of the cover 100 can be set reasonably, the occupied space of the cover 100 can be reduced, and the space utilization rate can be improved.

In a possible embodiment, the first housing 110 is a ring-shaped structure, and the temperature measuring member 200 is disposed on an inner wall of the first housing 110.

Because the first cover body 110 is of an annular structure, the temperature measuring piece 200 can at least surround part of the fan blade 400, so that the fan blade 400 can blow airflow to the temperature measuring piece 200 more uniformly, and the cooking cavity can reach thermal balance more quickly.

Example five:

referring to fig. 1 and 2, in the above embodiment, the cooking apparatus further includes a locking member 500, the locking member 500 is connected to the first housing 110, the number of the locking members 500 is at least two, and the at least two locking members 500 can lock the temperature measuring member 200 to the first housing 110.

In this embodiment, the temperature measuring member 200 is locked on the first cover 110 by the locking member 500, that is, the temperature measuring member 200 and the first cover 110 are detachably connected to each other, so that the temperature measuring member 200 can be easily disassembled and replaced, and the convenience of the maintenance process can be improved. The locking function of the locking member 500 to the temperature measuring member 200 makes the temperature measuring member 200 not easily sway relative to the first cover 110 and not easily break away from the first cover 110, so that the temperature measuring member 200 can stably realize the temperature measuring function in the first cover 110. Specifically, the locker 500 is at least two, and the at least two locker 500 forms a plurality of locking points, thereby preventing the temperature measuring member 200 from being able to slide with respect to the locker 500, so that the locker 500 can stably lock the temperature measuring member 200 to the first housing 110.

The number of the locking members 500 is two in the embodiment, and the temperature sensing probe is locked by the two locking members 500, so that the whole structure is more reliable.

Further, the locking member 500 is sleeved on the temperature measuring member 200, a portion of the locking member 500 sleeved on the temperature measuring member 200 is an arc-shaped structure, and a portion of the locking member 500 extends out of the first cover 110.

Because part of the locking member 500 can extend out of the first cover 110, the locking process of the temperature measuring part 200 can be performed outside the first cover 110, specifically, the locking member 500 is sleeved on the temperature measuring part 200, then part of the locking member 500 penetrates out of the first cover 110, and part of the locking member 500 extending out of the first cover 110 is locked, so that part of the locking member 500 located in the first cover 110 clamps the temperature measuring part 200 on the inner wall of the heating cavity, and the temperature measuring part 200 is installed. Limited by the size of the first cover body 110, the worker is not convenient to fix the temperature measuring part 200 in the first cover body 110, and the locking part 500 is sleeved on the temperature measuring part 200 without complex operation in the first cover body 110, so that the convenience for installing the temperature measuring part 200 is improved.

Partial retaining member 500 of temperature measurement piece 200 is located to the cover for the shape looks adaptation of retaining member 500 and temperature measurement piece 200, and then increase retaining member 500 and temperature measurement piece 200's area of contact, improve retaining member 500 and to the locking stability of temperature measurement piece 200.

The locking member 500 is at least two, and adjacent locking members 500 of the at least two locking members 500 are spaced apart.

Because temperature measurement piece 200 has the bending section, can carry on spacingly to temperature measurement piece 200 through two at least retaining members 500, avoid temperature measurement piece 200 to slide relative retaining member 500.

In one embodiment, retaining member 500 includes: a first locking member and a second locking member. The first locking piece is sleeved on the temperature measuring piece 200; the second locking member is connected to the first locking member, the second locking member extending out of the first housing 110, and the second locking member is a plastic locking member.

In this embodiment, retaining member 500 is constructed as the U type, and retaining member 500 includes first retaining member and second retaining member, and the first retaining member of part U type is located first cover body 110 and overlaps and locate temperature measurement piece 200, and the second retaining member is the open part of U type structure, and the second retaining member can stretch out first cover body 110, and is specific, the utility model provides a second retaining member is the plastic retaining member, and plastic deformation can take place for the second retaining member promptly, and the second retaining member is two sets of structures of U type opening, and two sets of structures can be screwed up each other to take place plastic deformation when screwing up each other, thereby take up first retaining member to the inner wall in heating chamber, and then lock temperature measurement piece 200 in first cover body 110, avoid temperature measurement piece 200 to rock in first cover body 110, make temperature measurement piece 200 can realize the temperature measurement function steadily.

In another embodiment, retaining member 500 includes: the body part extends out of the first cover body 110, and assembly threads are arranged on the part of the body extending out of the first cover body 110; the nut can be threadedly connected to the assembly on the body.

In this embodiment, the body can be sleeved on the temperature measuring piece 200 and partially extends out of the first cover body 110, an assembly thread is formed on a part of the body extending out of the first cover body 110, a nut is screwed on the part of the body extending out of the first cover body 110, and the nut is abutted against the outer wall of the first cover body 110, so that the part of the body located in the first cover body 110 can be tensioned towards the inner wall of the heating cavity, the temperature measuring piece 200 is locked in the first cover body 110, the temperature measuring piece 200 is prevented from shaking in the first cover body 110, and the temperature measuring function can be stably realized by the temperature measuring piece 200.

The cooking apparatus further includes: the motor cover 700, the cover body 100 is positioned in the motor cover 700; the motor 600 is arranged on the motor cover 700, and an output shaft of the motor 600 is assembled with the fan blade 400.

The motor cover 700 protects the cover body 100, the motor 600 is mounted on the motor cover 700, and an output shaft of the motor 600 extends into the cover body 100 and is connected with the fan blade 400, so that the motor 600 can drive the fan blade 400 to rotate.

Example six:

with reference to fig. 1 and 2, an embodiment of a second aspect of the present invention provides a cover, including: a cover body 100; the temperature measuring member 200 is disposed on the cover 100, and at least a portion of the temperature measuring member 200 is formed in an arc shape or a bent shape.

At least a part of the temperature measuring member is arc-shaped or at least a part thereof is bent, so that the installation length of the temperature measuring member 200 can be increased. It can be understood that, when the temperature measuring part is assembled in a certain part, under the condition that the size of the part is fixed and unchanged, the size of the temperature measuring part 200 in the linear direction cannot be larger than that of the temperature measuring part 200 in any linear direction in the cavity due to the limitation of the size of the cavity in the part, so that the length of the temperature measuring part 200 is shorter. Temperature measurement piece 200 is the cylinder probe usually, the utility model discloses in buckle temperature measurement piece 200, under the condition that does not change temperature measurement piece 200 radial dimension and part size, increased temperature measurement piece 200's size, and then increase temperature measurement piece 200's temperature sensing area, because temperature measurement piece 200's temperature sensing area is great, make temperature measurement piece 200 can carry out the heat exchange sooner, improve heating member 300's response speed, make the temperature cycle in the cooking equipment accelerate, shorten the air and explode the pot and reach thermal balance's time.

In this embodiment, the temperature measuring unit 200 is a temperature sensing probe, which is arc-shaped, and has a longer length with the same diameter, a larger temperature sensing area and a faster heat exchange, so that the temperature cycle of the whole device is faster.

The cover body 100 is provided with a heating cavity, and the temperature measuring piece 200 is positioned in the heating cavity; the temperature measuring member 200 is connected to the cover 100.

Be provided with the heating chamber in the cover body 100, the high-temperature gas in the heating chamber can heat and cook the edible material, and temperature measurement piece 200 is located the heating chamber for temperature measurement piece 200 can measure the temperature in the heating chamber.

Further, the temperature measurement member 200 extends along the wall of the heating chamber.

The temperature measuring piece 200 is fixed on the inner wall of the heating cavity, so that the temperature measuring piece 200 is not easy to shake in the heating cavity, the temperature measuring piece 200 can stably measure the temperature in the heating cavity, and the damage rate of the temperature measuring piece 200 is reduced. Can extend the inner wall of temperature measurement piece 200 along the heating chamber, the shape looks adaptation of the shape of temperature measurement piece 200 and the inner wall of heating chamber promptly for the inner wall of heating chamber can not produce with temperature measurement piece 200 and interfere, further improves the size of temperature measurement piece 200, increases the temperature sensing area of temperature measurement piece 200, makes temperature measurement piece 200 carry out the heat exchange sooner, improves the response speed of heating member 300, makes the temperature cycle in the cooking equipment accelerate.

Further, the temperature measuring member 200 has an arc-shaped structure.

Specifically, the whole temperature measuring part 200 is limited to be of an arc-shaped structure, the extension length of the temperature measuring part 200 is further increased, the temperature sensing area of the temperature measuring part 200 is effectively increased, and the temperature measuring accuracy is improved.

Referring to fig. 1 and 2, a gap is formed between the temperature measuring member 200 and the inner wall of the heating chamber.

In this embodiment, the temperature measuring element 200 can be installed on the inner wall of the heating chamber, and the temperature measuring element 200 does not need to be attached to the inner wall of the heating chamber, i.e. a gap is formed between the temperature measuring element 200 and the inner wall of the heating chamber, so that the temperature of all the surfaces of the temperature measuring element 200 can be measured, the effective temperature sensing area of the temperature measuring element 200 is increased, and the heat exchange speed of the temperature measuring element 200 is increased.

Specifically, can set up a plurality of supporting seats on the inner wall in heating chamber, the supporting seat can support temperature measurement piece 200, and the supporting seat setting is between the inner wall in temperature measurement piece 200 and heating chamber for the inner wall in temperature measurement piece 200 and heating chamber forms the clearance, and the supporting seat can be to the adaptation with temperature measurement piece 200 to the shape of bearing the weight of the terminal surface of temperature measurement piece 200, thereby improves the stability of bearing the weight of the supporting seat to the measurement piece, avoids temperature measurement piece 200 and supporting seat separation.

Example seven:

with reference to fig. 1 and 2, on the basis of the sixth embodiment, the cooking apparatus further includes: the fan blade 400 is arranged in the heating cavity, and the fan blade 400 is used for blowing airflow towards the temperature measuring piece 200.

In this embodiment, the fan blade 400 blows the airflow toward the temperature measuring part 200, which can improve the temperature rising speed of the temperature measuring part 200 and improve the measurement accuracy of the temperature measuring part 200, and when the heating chamber is stopped being heated, the fan blade 400 blows the airflow toward the temperature measuring part 200, which can quickly reduce the temperature of the temperature measuring part 200, so that the cooking chamber can reach the heat balance more quickly.

The cover body 100 is provided with an opening which is communicated with the heating cavity; the cooking apparatus includes: the heating member 300. The heating member 300 is disposed in the heating chamber, and the fan 400 is located between the heating member 300 and the opening.

In this embodiment, the cover 100 is provided with an opening, heat generated by the heating element 300 can be discharged into the cooking cavity through the opening, so that the food in the cooking cavity can be heated, the fan blade 400 can stir the air flow when rotating, so that the air heated by the heating element 300 can rapidly flow to all places of the heating cavity, the temperature in all places of the heating cavity can be synchronously raised as much as possible, and the heating speed can be increased. The fan blade 400 is arranged towards the fan blade 400, specifically, the fan blade 400 is far away from the opening compared with the heating element 300, so that the fan blade 400 can blow air towards the heating element 300 and the opening, the fan blade 400 can blow heat generated by the heating element 300 into the cooking cavity quickly, and the heating speed of the cooking cavity is improved.

The heating element 300 in this embodiment is a heating tube, and the heating tube may be arranged in the heating chamber in a convolute shape.

The cooking device further comprises a motor 600 and a motor cover 700, the motor 600 is installed in the motor cover 700, and the fan blade 400 is installed on a driving shaft of the motor 600, so that the motor 600 can drive the fan blade 400 to rotate.

Further, the cover 100 includes: a first cap 110, a second cap 120, and a cover plate 130. The first cover body 110 is provided with a first enclosing area, the second cover body 120 is provided with a second enclosing area, and the fan blade 400 and the temperature measuring part 200 are positioned in the first enclosing area; the second enclosure 120 is coupled to the first enclosure 110, and the heating element 300 is located within the second enclosure; an opening is formed in one side of the second cover 120 away from the first cover 110, the cover 130 covers the opening, and the opening is formed in the cover 130.

The sidewall of the first cover 110 is configured to be annular, the sidewall of the second cover 120 is also configured to be annular, the first cover 110 and the cover plate 130 are located at opposite sides of the second cover 120, the first cover 110 and the second cover 120 are connected, and particularly, the first cover 110 and the second cover 120 may be provided as an integrally molded structure. The fan 400 is disposed in the surrounding area of the first housing 110, and the heating member 300 is disposed in the surrounding area of the second housing 120.

Temperature measurement piece 200 sets up in first cover body 110 equally, because fan blade 400 and temperature measurement piece 200 all set up in first cover body 110, can stir the air current and blow the air current to temperature measurement piece 200 when fan blade 400 rotates for the air current on temperature measurement piece 200 surface flow speed accelerates, thereby can accelerate the heat transfer speed of temperature measurement piece 200, specifically, in the heating process, fan blade 400 can blow hot-blast to temperature measurement piece 200, thereby can improve the surface temperature of temperature measurement piece 200 as early as possible. When the heating is stopped, the fan blade 400 blows air to the temperature measuring part 200 to accelerate the cooling speed of the temperature measuring part 200, so that the temperature measuring part 200 can exchange heat as soon as possible, and the cooking cavity can reach heat balance more quickly.

The installation position of the temperature sensing probe is changed, hot air facing the fan blade 400 is pushed by the fan blade 400 and continuously blown to the temperature sensing probe, and the heat exchange of the temperature sensing probe is accelerated.

The contact surface between the lengthened and changed position temperature sensing probe and the cover body 100 is changed, and the heat exchange is faster.

Further, the cover 100 has a stepped structure.

Since the shroud 100 has a stepped structure, the radial dimension of the second shroud 120 is greater than the radial dimension of the first shroud 110, so that the first shroud 110 and the second shroud 120 are integrally configured as a stepped structure. Since the heating element 300 occupies a large space, the heating element 300 can be installed in the second cover 120 having a large size, and the fan blade 400 occupies a small space, so that the fan blade 400 can be installed in the first cover 110 having a small size, the size of the cover 100 can be set reasonably, the occupied space of the cover 100 can be reduced, and the space utilization rate can be improved.

In a possible embodiment, the first housing 110 is a ring-shaped structure, and the temperature measuring member 200 is disposed on an inner wall of the first housing 110.

Because the first cover body 110 is of an annular structure, the temperature measuring piece 200 can at least surround part of the fan blade 400, so that the fan blade 400 can blow airflow to the temperature measuring piece 200 more uniformly, and the cooking cavity can reach thermal balance more quickly.

Example eight:

referring to fig. 1 and 2, on the basis of the sixth embodiment and the seventh embodiment, the cooking apparatus further includes at least two locking members 500, the locking members 500 are connected to the first housing 110, and the at least two locking members 500 can lock the temperature measuring member 200 to the first housing 110.

In this embodiment, the temperature measuring member 200 is locked on the first cover 110 by the locking member 500, that is, the temperature measuring member 200 and the first cover 110 are detachably connected to each other, so that the temperature measuring member 200 can be easily disassembled and replaced, and the convenience of the maintenance process can be improved. The locking function of the locking member 500 to the temperature measuring member 200 makes the temperature measuring member 200 not easily sway relative to the first cover 110 and not easily break away from the first cover 110, so that the temperature measuring member 200 can stably realize the temperature measuring function in the first cover 110. Specifically, the locker 500 is at least two, and the at least two locker 500 forms a plurality of locking points, thereby preventing the temperature measuring member 200 from being able to slide with respect to the locker 500, so that the locker 500 can stably lock the temperature measuring member 200 to the first housing 110.

The number of the locking members 500 is two in the embodiment, and the temperature sensing probe is locked by the two locking members 500, so that the whole structure is more reliable.

Further, the locking member 500 is sleeved on the temperature measuring member 200, a portion of the locking member 500 sleeved on the temperature measuring member 200 is an arc-shaped structure, and a portion of the locking member 500 extends out of the first cover 110.

Because part of the locking member 500 can extend out of the first cover 110, the locking process of the temperature measuring part 200 can be performed outside the first cover 110, specifically, the locking member 500 is sleeved on the temperature measuring part 200, then part of the locking member 500 penetrates out of the first cover 110, and part of the locking member 500 extending out of the first cover 110 is locked, so that part of the locking member 500 located in the first cover 110 clamps the temperature measuring part 200 on the inner wall of the heating cavity, and the temperature measuring part 200 is installed. Limited by the size of the first cover body 110, the worker is not convenient to fix the temperature measuring part 200 in the first cover body 110, and the locking part 500 is sleeved on the temperature measuring part 200 without complex operation in the first cover body 110, so that the convenience for installing the temperature measuring part 200 is improved.

Partial retaining member 500 of temperature measurement piece 200 is located to the cover for the shape looks adaptation of retaining member 500 and temperature measurement piece 200, and then increase retaining member 500 and temperature measurement piece 200's area of contact, improve retaining member 500 and to the locking stability of temperature measurement piece 200.

The locking member 500 is at least two, and adjacent locking members 500 of the at least two locking members 500 are spaced apart.

Because temperature measurement piece 200 has the bending section, can carry on spacingly to temperature measurement piece 200 through two at least retaining members 500, avoid temperature measurement piece 200 to slide relative retaining member 500.

In one embodiment, retaining member 500 includes: a first locking member and a second locking member. The first locking piece is sleeved on the temperature measuring piece 200; the second locking member is connected to the first locking member, the second locking member extending out of the first housing 110, and the second locking member is a plastic locking member.

In this embodiment, retaining member 500 is constructed as the U type, and retaining member 500 includes first retaining member and second retaining member, and the first retaining member of part U type is located first cover body 110 and overlaps and locate temperature measurement piece 200, and the second retaining member is the open part of U type structure, and the second retaining member can stretch out first cover body 110, and is specific, the utility model provides a second retaining member is the plastic retaining member, and plastic deformation can take place for the second retaining member promptly, and the second retaining member is two sets of structures of U type opening, and two sets of structures can be screwed up each other to take place plastic deformation when screwing up each other, thereby take up first retaining member to the inner wall in heating chamber, and then lock temperature measurement piece 200 in first cover body 110, avoid temperature measurement piece 200 to rock in first cover body 110, make temperature measurement piece 200 can realize the temperature measurement function steadily.

In another embodiment, retaining member 500 includes: the body part extends out of the first cover body 110, and assembly threads are arranged on the part of the body extending out of the first cover body 110; the nut can be threadedly connected to the assembly on the body.

In this embodiment, the body can be sleeved on the temperature measuring piece 200 and partially extends out of the first cover body 110, an assembly thread is formed on a part of the body extending out of the first cover body 110, a nut is screwed on the part of the body extending out of the first cover body 110, and the nut is abutted against the outer wall of the first cover body 110, so that the part of the body located in the first cover body 110 can be tensioned towards the inner wall of the heating cavity, the temperature measuring piece 200 is locked in the first cover body 110, the temperature measuring piece 200 is prevented from shaking in the first cover body 110, and the temperature measuring function can be stably realized by the temperature measuring piece 200.

The cooking apparatus further includes: the motor cover 700, the cover body 100 is positioned in the motor cover 700; the motor 600 is arranged on the motor cover 700, and an output shaft of the motor 600 is assembled with the fan blade 400.

The motor cover 700 protects the cover body 100, the motor 600 is mounted on the motor cover 700, and an output shaft of the motor 600 extends into the cover body 100 and is connected with the fan blade 400, so that the motor 600 can drive the fan blade 400 to rotate.

Example nine:

referring to fig. 1, 2 and 3, the temperature controller 820 of the air fryer has the following temperature control principle: the temperature controller 820 senses the temperature by the temperature sensing probe, and when the temperature rises to a set value, the temperature controller 820 is disconnected, and the heating pipe stops heating. Then the temperature of the cavity will drop, after a certain value, the temperature controller 820 is switched on again, the heating tube is heated again, and the heating tube is switched off after the set temperature, and the process is circulated. In the process, two factors are used for influencing the response speed of the heating tube, one is the area of the temperature sensing probe, and the other is the heat exchange efficiency of the temperature sensing probe in the cavity. The temperature sensing probe structure and the arrangement position of the temperature sensing probe designed in the embodiment greatly increase the temperature sensing area of the temperature sensing probe, and the heat exchange rate is also multiple times of the previous temperature sensing probe. The heat circulation in the air fryer can be accelerated, so that the heat balance in the air fryer can be reached more quickly, and the heating time is shortened.

As shown in fig. 3, the micro switch 810 is a master switch, when the micro switch 810, the timer 830 and the temperature controller 820 are closed, the motor 600 and the heating element 300 can work, and the first warning light 850 and the second warning light 860 are turned on, when the temperature controller 820 is turned off, the heating element 300 stops working, the motor 600 continues working, and the motor 600 drives the fan blade 400 to rotate, so that the fan blade 400 can realize a heat dissipation function.

The cooking equipment in this embodiment is an air fryer, and can be used for reference at the cooking equipment with a temperature control structure with temperature circulation. Including ovens, grills, etc., the thermal cycling rate can be improved by adjusting the position of the temperature controller 820; under the condition of having a liquid environment, such as a water heater, the temperature probe can also be placed at a position where the water flow convection is fast, so that the heat exchange process on the surface of the probe is accelerated, and the faster heating response can be obtained. So that the internal water temperature reaches thermal equilibrium more quickly.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. 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 invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

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 description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by 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 (16)

1. A cooking apparatus, characterized by comprising:

the temperature measuring piece, at least a part of temperature measuring piece is arc or bending shape.

2. The cooking apparatus of claim 1, further comprising:

the cover body is provided with a heating cavity, and the temperature measuring piece is positioned in the heating cavity; the temperature measuring piece is connected with the cover body.

3. The cooking apparatus of claim 2 wherein the thermometric member extends along the wall of the heating chamber.

4. The cooking apparatus of claim 2 wherein the temperature measuring member is spaced from the inner wall of the heating chamber.

5. The cooking apparatus according to claim 2, wherein the cooking apparatus comprises:

the fan blade is arranged in the heating cavity and used for blowing airflow towards the temperature measuring piece.

6. Cooking apparatus according to claim 5,

the cover body is provided with an opening which is communicated with the heating cavity;

the cooking apparatus further includes:

the heating member is arranged in the heating cavity, and the fan blade is positioned between the heating member and the opening.

7. The cooking apparatus of claim 6, wherein the cover comprises:

the first cover body is provided with a first enclosed area, and the fan blade and the temperature measuring piece are positioned in the first enclosed area;

the second cover body is provided with a second surrounding area, the second cover body is connected with the first cover body, and the heating element is positioned in the surrounding area of the second cover body;

the cover plate is connected to the second cover body, the second cover body is located between the first cover body and the cover plate, and the opening is formed in the cover plate.

8. The cooking apparatus of claim 2,

the cover body is of a step-shaped structure.

9. Cooking apparatus according to claim 7,

the first cover body is of an annular structure, and the temperature measuring piece is arranged on the inner wall of the first cover body.

10. The cooking apparatus according to claim 7, further comprising:

the retaining member, connect in the cover body, the retaining member is at least two, at least two the retaining member can with the temperature measurement piece locking in the first cover body.

11. The cooking apparatus according to claim 10, wherein the locking member is disposed on the temperature measuring member, and a portion of the locking member disposed on the temperature measuring member is an arc-shaped structure, and a portion of the locking member extends out of the first cover.

12. The cooking apparatus of claim 10,

the retaining member is at least two, at least two adjacent retaining member interval in the retaining member sets up.

13. The cooking apparatus of claim 10, wherein the locking member comprises:

the first locking piece is sleeved on the temperature measuring piece;

the second retaining member is connected to the first retaining member, and the second retaining member extends out of the first cover body, and the second retaining member is a plastic retaining member.

14. The cooking apparatus of claim 10, wherein the locking member comprises:

the part of the body extending out of the first cover body is provided with assembly threads;

the nut is connected with the assembly threads on the body.

15. The cooking apparatus of claim 5, further comprising:

the motor cover is positioned in the motor cover;

the motor is arranged on the motor cover, and an output shaft of the motor is assembled with the fan blades.

16. A cover, comprising:

a cover body;

the temperature measuring piece is arranged on the cover body, and at least one part of the temperature measuring piece is in an arc shape or a bent shape.

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