CN215424076U - Cooking apparatus - Google Patents

Abstract

The utility model discloses a cooking device. The cooking equipment comprises a wireless system, a heating module, a first power supply module, a cooking assembly and a base; the cooking assembly is detachably connected with the base, and the wireless system comprises a receiving module and a second power supply module; the cooking assembly is provided with a first installation space, and the receiving module and the second power supply module are accommodated in the first installation space; the base is provided with a second installation space, and the heating module and the first power supply module are accommodated in the second installation space; the first power supply module is connected with the heating module, the receiving module is coupled with the alternating magnetic field generated by the heating module to generate electricity, the receiving module transmits the electricity to the second power supply module, and the second power supply module is used for supplying power to the cooking assembly. The utility model solves the technical problem of complex internal circuit of the cooking appliance in the prior art.

Description

Cooking apparatus

Technical Field

The utility model relates to the technical field of cooking appliances, in particular to cooking equipment.

Background

Cooking appliances such as electric cookers and electric pressure cookers are widely used by people due to their characteristics of high efficiency, simplicity and convenience. The electric rice cooker and the electric pressure cooker on the current market are generally provided with a temperature monitoring module, and the temperature inside the electric cooking appliance is obtained through the temperature monitoring module so as to control the temperature of food; current temperature monitoring module and temperature display module all need supply power through the circuit board to temperature monitoring module generally installs on the upper cover of container, and temperature display module installs on the base, supplies power through two circuit boards respectively, and two circuit boards still need connect through the electric wire, have caused cooking appliance's internal circuit complicacy, and the electric wire is more, inconvenient use.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a cooking apparatus, which is used to solve the technical problem of the prior art that the internal circuit of the cooking appliance is complicated. To achieve one or a part of or all of the above or other objects, the present invention provides a cooking apparatus, which includes a wireless system, a heating module, a first power supply module, a cooking assembly, and a base; the cooking assembly is detachably connected with the base, and the wireless system comprises a receiving module and a second power supply module; the cooking assembly is provided with a first installation space, and the receiving module and the second power supply module are accommodated in the first installation space; the base is provided with a second installation space, and the heating module and the first power supply module are accommodated in the second installation space; the first power supply module is connected with the heating module, the receiving module is coupled with the alternating magnetic field generated by the heating module to generate electricity, the receiving module transmits the electricity to the second power supply module, and the second power supply module is used for supplying power to the cooking assembly.

Preferably, the cooking assembly comprises a detection module connected with the second power supply module, and the cooking device further comprises a display module; the detection module is accommodated in the first installation space, and the display module is accommodated in the second installation space; the second power supply module is provided with a control unit, the control unit is electrically connected with the detection module, the control unit is wirelessly connected with the display module, and the control unit is used for transmitting detection data detected by the detection module to the display module for displaying.

Preferably, the culinary art subassembly includes upper cover and support body, the upper cover with the support body rotates to be connected, the upper cover keep away from with support body pivoted rotates the junction be equipped with can with the fixed buckle module of support body lock.

Preferably, the first installation space is provided in the upper cover, and the heating space is provided in the housing.

Preferably, the cooking apparatus further includes a heat dissipation unit disposed below the display module, the heat dissipation unit being configured to dissipate heat for the display module.

Preferably, the heat dissipation unit is accommodated in the second installation space.

Preferably, the detection module is fixedly installed on the upper cover, and a probe of the detection module is correspondingly arranged above the heating space.

Preferably, the detection module is capable of obtaining at least one of pressure data and temperature data within the heated space.

Preferably, the cooking device further comprises a container for cooking, the cooking assembly is provided with a heating space, the heating module can provide radiant heat to the heating space, and the container is accommodated in the heating space.

Preferably, the receiving module is disposed on the container.

The embodiment of the utility model has the following beneficial effects:

above-mentioned cooking equipment's culinary art subassembly and base are detachable body coupling, receiving module and the alternating magnetic field coupling that heating module produced produce electricity, receiving module gives second power module with the electricity transmission, come for the culinary art subassembly through second power module and supply power, can avoid the wired connection such as electric wire between culinary art subassembly and the base, can solve the complicated technical problem of the internal circuit of current cooking apparatus, play the effect that the culinary art subassembly can carry out the separation with the base completely.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of a cooking apparatus in one embodiment;

fig. 2 is a schematic view of the overall structure of the cooking apparatus in one embodiment;

fig. 3 is a schematic view of the overall structure of the cooking apparatus in one embodiment;

fig. 4 is a schematic view of the entire structure of the cooking apparatus in one embodiment;

FIG. 5 is an exploded view of the cooking apparatus of the embodiment of FIG. 1;

fig. 6 is a schematic structural shape diagram of a receiving module in the cooking apparatus shown in fig. 1-4;

fig. 7 is a schematic diagram of an electric circuit control system of the cooking apparatus of the present invention.

Wherein: 1. an upper cover; 2. a base; 3. a container; 4. a heating module; 5. a first power supply module; 6. a heat dissipation unit; 7. a wireless system; 71. a second power supply module; 72. a receiving module; 8. heating the space; 9. an accommodating space; 10. a partition plate; 11. mounting a plate; 12. a detection module; 13. and a display module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model discloses cooking equipment and mainly aims to solve the technical problem that an internal circuit of a cooking appliance in the prior art is complex. As shown in fig. 1-5, the cooking apparatus of the present invention comprises a wireless system 7, a heating module 4, a base 2, a first power module 5 and a cooking assembly; the cooking assembly is detachably connected to the base 2, and the wireless system 7 comprises a receiving module 72 and a second power supply module 71. The cooking assembly is provided with a first installation space, and the receiving module 72 and the second power supply module 71 are accommodated in the first installation space; the base 2 is provided with a second installation space, and the heating module 4 and the first power supply module 5 are accommodated in the second installation space; the first power supply module 5 is connected with the heating module 4, the receiving module 72 is coupled with the alternating magnetic field generated by the heating module 4 to generate electricity, the receiving module 72 transmits the electricity to the second power supply module 71, and the second power supply module 71 is used for supplying power to the cooking assembly.

Specifically, the first power supply module 5 may adopt a power strip assembly, and is connected to the socket through a connecting wire such as a wire or a power line, and the first power supply module 5 is provided with a voltage reduction assembly. The first power supply module 5 is electrically connected with the heating module 4 and is used for supplying power to the heating module 4, the heating module 4 adopts electromagnetism as an element of heating energy, such as an electromagnetic coil, the heating module 4 can generate an alternating magnetic field to generate a heating area for heating the food material, the receiving module 72 receives the alternating magnetic field signal of the heating module 4, and generates electricity through coupling to transmit to the second power supply module 71, the second power supply module 71 and the heating module 4 are respectively installed on the cooking assembly and the base 2 of the cooking device, through increasing receiving module 72 between second power module 71 and heating module 4 can avoid directly with second power module 71 direct with first power module 5's wired connection, can solve the complicated technical problem of cooking equipment internal circuit to can carry out the split with whole culinary art subassembly and base 2, convenient maintenance and clearance.

In other embodiments, the cooking assembly comprises a detection module 12 connected to the second power module 71, the cooking device further comprises a display module 13; the detection module 12 is accommodated in the first installation space, and the display module 13 is accommodated in the second installation space; the second power supply module 71 is provided with a control unit, the control unit is electrically connected with the detection module 12, the control unit is wirelessly connected with the display module 13, and the control unit is used for transmitting detection data detected by the detection module 12 to the display module 13 for displaying.

Specifically, the second power supply module 71 is provided with a control unit, the second power supply module 71 can supply power to the control unit, the voltage generated by coupling is rectified and reduced, and is supplied to the control unit, the control unit is a component with data processing and control functions, such as a processor and a chip, and the control unit is electrically connected with the detection module 12 and wirelessly connected with the display module 13, so that the detection data collected by the detection module 12 can be transmitted to the display module 13 for display. Display module 13 can adopt display screen and display panel, can realize that the wired connection that does not need entity lines such as wire between base 2 and the culinary art subassembly just can accomplish temperature sampling and transmit the difficult problem that shows for display module 13. The display module 13 can also be made as an integrated component with control effect, and the heating effect of the heating module 4, the heat preservation time, the cooking time and the like can be adjusted by adding buttons.

In other embodiments, the cooking assembly comprises an upper cover 1 and a frame body, the upper cover 1 is rotatably connected with the frame body, and a buckle module which can be fixed with the frame body in a buckled manner is arranged at the position, far away from the rotary connection with the frame body, of the upper cover 1.

Specifically, upper cover 1 rotates through articulated mode and support body to be connected, and its articulated mode is for dismantling the form, keeps away from its articulated shaft opposite side with the support body at upper cover 1, is equipped with the buckle module, can make upper cover 1 lock fix at the support body through the buckle. The frame body can be a hollow structure and has a certain space for accommodating the articles 3.

In other embodiments, the cooking apparatus further comprises a container 3 for cooking, the cooking assembly is provided with a heating space 8, the heating module 4 is capable of providing radiant heat into the heating space 8, and the container 3 is accommodated in the heating space 8. The cooking process is performed by receiving food in the container 3.

In other embodiments, the first installation space is provided in the upper cover 1 and the heating space 8 is provided in the housing. First installation space and heating space 8 set up respectively on upper cover 1 and support body, can the separation of upper cover 1 and support body, are convenient for maintain and clear up. In addition, the second power supply module 71 and the control unit are accommodated in the first installation space, so that the overall cleanness of the cover 1 can be facilitated, and the second power supply module 71 and the control unit can be protected.

In other embodiments, the cooking apparatus further includes a heat dissipation unit 6, the heat dissipation unit 6 is disposed below the display module 13, and the heat dissipation unit 6 is used to dissipate heat to the display module 13.

In other embodiments, the heat dissipation unit 6 is accommodated in the second installation space.

Specifically, the heat dissipation unit 6 may be a fan, and the fan is fixedly installed in the base 2 and placed below the display screen to dissipate heat from the display screen, so as to prevent the display screen from being interfered by extra heat generated by the heating module 4 in the second installation space.

In other embodiments, the detection module 12 is fixedly installed on the upper cover 1, and the probe of the detection module 12 is correspondingly disposed above the heating space 8. The detection module 12 is capable of obtaining at least one of pressure data and temperature data within the heated space 8.

In addition, the detection module 12 is capable of obtaining at least one of pressure data and temperature data within the heating space 8. The detection module 12 can realize different detection functions by setting different detection modules, such as pressure, temperature and other detection data, and can also be made into a general detection unit, which is convenient for users to use.

In another embodiment, the receiving module 72 is provided on the container 3.

Specifically, the receiving module 72 is a wireless receiving coil, and the receiving module 72 can receive the alternating magnetic field generated by the heating module 4 and couple the alternating magnetic field to two ends of the wireless receiving coil to generate voltage, and then is connected with the second power supply module 71 to supply power to the second power supply module 71, and then supplies power to the control unit in a rectification voltage reduction manner. The receiving module 72 may be disposed on the container 3, so that the receiving module 72 is accommodated in the heating space 8, which is better for the receiving module 72 to receive the alternating magnetic field generated by the heating module 4.

Additionally, in other embodiments, the cooking apparatus comprises a cooking assembly, a base 2 and a heating module 4; the cooking assembly is detachably connected with the base 2; the cooking assembly is provided with a heating space 8 and an accommodating space 9; the heating module 4 is arranged in the base 2, and the heating module 4 can provide radiant heat for the heating space 8; the cooking equipment further comprises a wireless system 7, the wireless system 7 comprises a receiving module 72 which can be coupled with the alternating magnetic field generated by the heating module 4 to generate power, the power generated by the receiving module 72 is used for supplying power to the cooking assembly, the receiving module 72 is contained in the containing space 8 or the heating space 9, and the receiving module 72 is connected with the heating module 4 without a conducting wire.

In other embodiments, the cooking assembly is provided with a partition 10 between the heating space 8 and the accommodating space 9, the partition 10 is used for separating the heating space 8 and the accommodating space 9; the cooking apparatus further comprises a container 3, the container 3 being accommodated in the heating space 8.

Specifically, the partition 10 has a hemispherical structure or is matched with the surface shape of the container 3, the heating space 8 is outside the partition 10, an accommodating space 9 surrounding the heating space 8 is formed outside the heating space 8, and the heating space 8 and the accommodating space 9 are separated by the partition 10. The receiving module 72 may be accommodated in the accommodating space 9 or the heating space 8.

In addition, as shown in fig. 1-4, the receiving module 72 is mounted around the container 3. The receiving module 72 is mounted at the bottom of the container 3. The cooking assembly is provided with a mounting plate 11, and a containing space 9 is formed between the mounting plate 11 and the partition plate 10. The receiving module 72 is mounted on the mounting plate 11 at a position corresponding to the bottom of the container 3. The receiving module 72 is mounted on the mounting plate 11 and is arranged around the orthographic projection of the container 3 on said mounting plate 11.

Specifically, as shown in fig. 1-4, the mounting plate 11 is a plate-like structure that provides the bottom of the cooking assembly. The above embodiment includes at least four mounting positions of the receiving module 72, and the receiving module 72 of the present invention can be mounted at different positions in the accommodating space 9 and the heating space 8, which can facilitate receiving signals.

In other embodiments, the cooking assembly comprises an upper cover 1 and a frame body, the upper cover 1 is rotatably connected with the frame body, and a buckle module which can be fixed with the frame body in a buckled manner is arranged at the position, far away from the rotary connection with the frame body, of the upper cover 1.

In addition, a heating space 8 and an accommodating space 9 are provided in the rack body.

Specifically, the cooking assembly comprises an upper cover 1 and a frame body, wherein the upper cover 1 is rotatably connected with the frame body, and meanwhile, a bottom mounting plate 11 of the frame body is arranged. A partition 10 is provided in the frame body to partition the heating space 8 from the receiving space 9, and the frame body is used to mount the container 3, mount the container 3 in the heating space 8, and heat it by the heating module 4 to cook.

In other embodiments, the heating module 4 comprises an electromagnetic coil. The receiving module 72 is a receiving coil; the included angle between the electromagnetic coil and the plane of the receiving coil is less than 60 degrees.

Specifically, as shown in fig. 1 to 4, the receiving coil may be disposed in the housing space 9 and the heating space 8, and may be disposed around the container 3; or the receiving coils can be arranged at the bottom of the container 3, corresponding to two sides of the bottom of the partition 10. So that the receiving coil receives the alternating magnetic field signal of the heating module 4. In addition, the receiving coil is a closed coil.

In addition, the included angle between the wireless receiving coil and the electromagnetic coil is smaller than 60 degrees, and the wireless receiving coil and the electromagnetic coil are preferably arranged in parallel, so that the wireless receiving coil can receive alternating magnetic field signals of the electromagnetic coil conveniently, the capacity of the alternating magnetic field can be effectively utilized, energy loss is reduced, and efficiency is improved.

In other embodiments, as shown in fig. 6, the wireless receiving coil is a circular, elliptical, square, or other polygonal shaped coil.

Specifically, the wireless receiving coil is preferably in the shape of an axisymmetrical pattern, which enables the wireless receiving coil to uniformly receive the alternating magnetic field signal.

In other embodiments, the number of turns of the wireless receive coil is 1-10 turns. The number of turns of the wireless receiving coil is small, the assembly time is reduced, the cost is low, and the maintenance and the replacement are convenient.

In other embodiments, the cooking appliance is one of an electric cooker or an electric pressure cooker.

Specifically, the cooking equipment can be an electric cooker or an electric pressure cooker, namely an IH electric cooker and an IH electric pressure cooker, through the wireless power supply system, the internal complex circuits of the electric cooker or the electric pressure cooker can be reduced conveniently, and the base 2 is electrically connected with the cooking assembly without a conducting wire, so that the whole electric cooker is convenient to clean and is convenient for users.

As shown in fig. 7, the present invention is a circuit control system of a cooking apparatus, the system comprising: a heating system and a wireless circuit. The heating system comprises an electromagnetic coil, a first single chip microcomputer and a first wireless communication device; the electromagnetic coil and the first wireless communication device are electrically connected with the first singlechip; the wireless circuit includes: the device comprises a receiving coil, a rectifying and filtering circuit, a voltage stabilizing circuit, a temperature measuring circuit and a wireless communication circuit; the receiving coil, the rectifying and filtering circuit, the voltage stabilizing circuit, the temperature measuring circuit and the wireless communication circuit are electrically connected in sequence; the electromagnetic coil is connected with the receiving coil in an electromagnetic induction way; the wireless communication circuit is in wireless communication connection with the first wireless communication device; the heating system and the wireless circuit are matched for use.

In the embodiment of the utility model, the heating system is a device with an electromagnetic heating function, the function is mainly realized by an electromagnetic coil, when high-frequency voltage flows through the electromagnetic coil, the electromagnetic coil can generate an alternating magnetic field changing at high speed, then a container 3 comprising iron is placed on the heating system for matching use, the surface of the container 3 is equivalent to cutting an alternating magnetic induction line, at the moment, the metal part at the bottom of the container 3 generates alternating current, namely eddy current, the eddy current enables iron atoms at the bottom of the container 3 to move randomly at high speed, and the atoms collide with each other and rub to generate heat energy, so that the heating function of the heating system on the container 3 is realized.

Furthermore, the receiving coil is arranged around the outer part of the container 3 in a surrounding manner, the receiving coil and the electromagnetic coil are arranged in parallel relatively, when the electromagnetic coil generates an alternating magnetic field changing at a high speed, the magnetic flux passing through the receiving coil also changes at a high speed, so that induced current is generated in the receiving coil, and alternating current is output from two ends of the corresponding receiving coil. In the wireless circuit, a receiving coil, a rectifying and filtering circuit, a voltage stabilizing circuit, a temperature measuring circuit and a wireless communication circuit are electrically connected in sequence, the rectifying and filtering circuit processes alternating current received from the receiving coil, the rectifying function of the rectifying and filtering circuit converts the received alternating current into pulsating direct current, the pulsating direct current not only contains direct current components but also alternating current components, the alternating current components can be removed through the filtering function of the rectifying and filtering circuit, and only required direct current components are reserved for other circuits in the wireless circuit to use.

Further, the voltage stabilizing circuit has the function of keeping the output voltage constant when the input voltage, the load, the ambient temperature, the circuit parameters and the like are changed, so that the voltage stabilizing circuit can provide a stable direct current power supply for the temperature measuring circuit electrically connected with the voltage stabilizing circuit and the subsequent wireless communication circuit electrically connected with the voltage stabilizing circuit after receiving the direct current transmitted by the rectifying and filtering circuit.

Further, the temperature measuring circuit can collect the temperature in the iron container 3 of the wireless circuit in real time and transmit the temperature to the wireless communication circuit electrically connected with the temperature measuring circuit. The temperature measuring circuit is the detection module 12. The wireless communication circuit is connected with the first wireless communication device in a wireless communication mode, the wireless communication circuit transmits the received temperature value collected by the temperature measuring circuit to the first wireless communication device in a real-time wireless communication mode, the first wireless communication device transmits the received temperature value to the first single chip microcomputer in a real-time mode, and the first single chip microcomputer is used for controlling the heating power of the wireless circuit in a real-time mode through the electromagnetic coil electrically connected with the first single chip microcomputer according to the received temperature value in the wireless circuit. The wireless communication circuit is a control unit, the first wireless communication device is a display module 13, and the temperature measuring circuit is a detection module 12.

In the embodiment of the utility model, the electromagnetic coil arranged in the heating system is connected with the receiving coil in the wireless circuit in an electromagnetic induction manner, so that the purpose of wireless power supply between the heating system and the wireless circuit is realized, the temperature in the wireless circuit is measured by the temperature measuring circuit arranged in the wireless circuit, and further, the first wireless communication device arranged in the heating system is connected with the wireless communication circuit arranged in the wireless circuit in a wireless communication manner, so that the temperature measured value is obtained by the heating system, the wireless power supply and wireless temperature measurement effects of the heating system are finally achieved, and the purpose of performing power supply and temperature measurement on the heating system can be realized without conducting wire electrical connection between the heating system and the wireless circuit. Meanwhile, one heating system can be matched with wireless circuits with various different types and functions, one wireless circuit can also be matched with heating systems with various different types and functions, the use experience of a user is improved, and the manufacturing cost of equipment and the purchase cost of the user are reduced.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the utility model is not limited by the scope of the appended claims.

Claims (10)

1. A cooking apparatus, characterized in that: the cooking equipment comprises a wireless system, a heating module, a first power supply module, a cooking assembly and a base; the cooking assembly is detachably connected with the base, and the wireless system comprises a receiving module and a second power supply module; the cooking assembly is provided with a first installation space, and the receiving module and the second power supply module are accommodated in the first installation space; the base is provided with a second installation space, and the heating module and the first power supply module are accommodated in the second installation space; the first power supply module is connected with the heating module, the receiving module is coupled with the alternating magnetic field generated by the heating module to generate electricity, and the receiving module can transmit the electricity to the second power supply module so that the second power supply module can supply power to the cooking assembly.

2. The cooking apparatus of claim 1, wherein: the cooking assembly comprises a detection module connected with the second power supply module, and the cooking equipment further comprises a display module; the detection module is accommodated in the first installation space, and the display module is accommodated in the second installation space; the second power supply module is provided with a control unit, the control unit is electrically connected with the detection module, the control unit is wirelessly connected with the display module, and the control unit is used for transmitting detection data detected by the detection module to the display module for displaying.

3. The cooking apparatus of claim 2, wherein: the cooking assembly further comprises an upper cover and a support body, the upper cover is rotatably connected with the support body, and a buckle module which can be fastened with the support body is arranged at the position where the upper cover is far away from the support body and the rotating joint of the support body is rotated.

4. The cooking apparatus of claim 3, wherein: the cooking equipment further comprises a container for cooking, the cooking assembly is provided with a heating space, the heating module can provide radiant heat for the heating space, and the container is contained in the heating space.

5. The cooking apparatus of claim 4, wherein: the first installation space is arranged in the upper cover, and the heating space is arranged in the frame body.

6. The cooking apparatus of claim 3, wherein: the cooking equipment further comprises a heat dissipation unit, the heat dissipation unit is arranged below the display module, and the heat dissipation unit is used for dissipating heat for the display module.

7. The cooking apparatus of claim 6, wherein: the heat dissipation unit is contained in the second installation space.

8. The cooking apparatus of claim 5, wherein: the detection module is fixedly installed on the upper cover, and a probe of the detection module is correspondingly arranged above the heating space.

9. The cooking apparatus of claim 8, wherein: the detection module is capable of obtaining at least one of pressure data and temperature data within the heated space.

10. The cooking apparatus of claim 4, wherein: the receiving module is disposed on the container.

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