CN219557065U - Cooking machine of wireless coupling power supply and wireless temperature sensing - Google Patents

Abstract

The utility model provides a cooking machine of wireless coupling power supply and wireless temperature sensing, which comprises a host computer, cup subassembly and wireless power supply module, the host computer is equipped with power module, control module and the motor subassembly all be connected with the power module electricity, cup subassembly detachable sets up on the host computer, be equipped with the heater on the cup subassembly, wireless temperature sensing subassembly and the knife tackle of being connected with the motor subassembly, wireless temperature sensing subassembly and control module wireless communication are connected, wireless power supply module is including setting up the wireless power supply emitter on the host computer and setting up on the cup subassembly and be used for receiving wireless power supply emitter's signal and with the wireless power supply receiver of signal conversion for the electric energy, wireless power supply emitter is connected with power module, the control module electricity, wireless power supply receiver is connected with the heater, wireless temperature sensing subassembly electricity and supplies power to the heater, wireless temperature sensing subassembly. The host machine of the utility model supplies power to the heater and the wireless temperature sensing assembly on the cup assembly through the non-contact wireless power supply module.

Description

Cooking machine of wireless coupling power supply and wireless temperature sensing

Technical Field

The utility model belongs to the technical field of electric appliances, and particularly relates to a wireless coupling power supply and wireless temperature sensing food processor.

Background

The wall breaking food processor integrates the functions of a juicer, a soymilk machine, an ice cream machine, a food processor, a grinder and the like, achieves the function of one machine with multiple functions, and can instantly break the cell walls of food and release plant biochemical elements. Specifically, broken wall cooking machine belongs to and adopts the super high-speed motor to drive stainless steel blade, carries out super high-speed cutting and smash to edible material in the cup, utilizes external force to break the cell wall with the cell in the edible material to break the cell wall of the cell, fully release vitamin, mineral substance, phytochemicals, protein and moisture etc. in the cell and a kind of edible material processing equipment.

At present, traditional wall breaking machines, food processors and juicers are used as healthy kitchen appliances, are popular gradually and are integrated into the life of consumers, but partial problems of the products still cannot be solved effectively, and the specific problems are as follows:

1. the traditional cup assembly is characterized in that the heating disc on the cup assembly is in power supply connection with the host through the coupler assembly in physical contact, and the upper coupler is arranged at the bottom of the cup assembly, so that the bottom of the cup assembly cannot be washed, the upper coupler at the bottom of the cup assembly is needed to be avoided in the cleaning process, the whole cup assembly is inconvenient to wash and clean, and potential safety hazards can be caused in the subsequent use process if water is in contact with the upper coupler.

2. In the application of the traditional coupler assembly, the upper coupler of the cup assembly is in plug-in fit with the lower coupler on the host, and poor contact can be caused by abrasion in the long-term repeated plug-in and plug-out process.

3. Traditional cup subassembly can not put into automatic cleaning equipment such as dish washer and wash because of the leakproofness problem of structure, can lead to electric device to cause hidden danger such as electric leakage, short circuit because of intaking.

More specifically, as disclosed in the document CN217447478U of 2022, 20 days 09, a broken food processor comprises a main machine and a cup body, wherein a control circuit board is arranged in the main machine, a double reed pipe component is arranged on a handle of the cup body, a first connecting seat is arranged on the main machine, a second connecting seat is arranged on the cup body, the first connecting seat and the second connecting seat are detachably connected, a lower coupler is arranged on the first connecting seat, the double reed pipe component is electrically connected with the upper coupler, the lower coupler is electrically connected with the control circuit board, the second connecting seat is provided with the upper coupler, when the main machine is connected with the cup body, the upper coupler is electrically connected with the lower coupler, and when an electric appliance element such as a heating disc is added in the cup body, the double reed pipe component on the cup body and the electric appliance element are required to be powered through the physical plug-in connection modes of the upper coupler and the lower coupler, so the problems are also existed. Therefore, further improvement of the wall breaking machine is needed.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a wireless coupling power supply and wireless temperature sensing food processor, wherein a host machine of the food processor supplies power to a heater and a wireless temperature sensing assembly on a cup assembly through a non-contact wireless power supply module.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

a cooking machine of wireless coupling power supply and wireless temperature sensing, includes:

the host is provided with a power supply module, a control module and a motor assembly, wherein the control module and the motor assembly are electrically connected with the power supply module;

the cup assembly is detachably arranged on the host, the cup assembly is provided with a heater, a wireless temperature sensing assembly and a knife set connected with the motor assembly, and the wireless temperature sensing assembly is in wireless communication connection with the control module;

the non-contact wireless power supply module comprises a wireless power supply transmitting device arranged on the host and a wireless power supply receiving device arranged on the cup assembly and used for receiving signals of the wireless power supply transmitting device and converting the signals into electric energy, wherein the wireless power supply transmitting device is electrically connected with the power supply module and the control module, and the wireless power supply receiving device is electrically connected with the heater and the wireless temperature sensing assembly and supplies power to the heater and the wireless temperature sensing assembly.

In a further scheme of the utility model, the wireless temperature sensing component is a Bluetooth wireless temperature sensing component or a 2.4GWifi wireless temperature sensing component, the wireless temperature sensing component is in wireless communication connection with the control module through Bluetooth signals or 2.4GWifi signals, and the heater is a heating disc or a heating tube.

In a further scheme of the utility model, the temperature measuring end of the wireless temperature sensing assembly is in abutting contact with the bottom of the cup assembly and is used for detecting the temperature of the bottom of the cup assembly, and the control module is provided with a signal transmission end in communication connection with the wireless temperature sensing assembly;

or, the temperature measuring end of the wireless temperature sensing assembly penetrates into the cup assembly, the temperature measuring end of the wireless temperature sensing assembly is in contact with liquid in the cup assembly and detects temperature, the wireless temperature sensing assembly and the cup assembly are in sealing arrangement, and the control module is provided with a signal transmission end in communication connection with the wireless temperature sensing assembly.

In a further aspect of the present utility model, the host includes a cover located at an upper portion of the host, and the wireless power supply transmitting device is located at an inner side of the cover;

the cover body is provided with a mounting hole for the output end of the motor assembly to penetrate out and a lower connector which is positioned on the mounting hole and connected with the output end of the motor assembly, and the bottom of the cutter set is provided with an upper connector matched with the lower connector.

In a further scheme of the utility model, the wireless power supply transmitting device is provided with a radiator, and the radiator is positioned in the host;

the radiator is integrated to be set up on control module, or, the radiator is axial fan or centrifugal fan, and the radiator sets up with control module components of a whole that can function independently, and the radiator is connected with control module electricity.

In a further scheme of the utility model, the heater is positioned at the bottom of the cup assembly, a through hole is arranged in the center of the heater, the knife set is arranged on the cup assembly through the through hole, and a first sealing ring assembly is arranged between the cup assembly and the knife set.

In a further aspect of the utility model, the cup assembly includes a base at a lower portion of the cup assembly, the wireless power supply receiving device is located in the base, the heater and the wireless temperature sensing assembly are located at an upper portion of the wireless power supply receiving device, and the heater is located at a side portion of the wireless temperature sensing assembly.

In a further scheme of the utility model, a resettable temperature controller is connected between the heater and the wireless power supply receiving device, the resettable temperature controller is contacted with the bottom of the cup assembly, and the heater and the wireless power supply receiving device are positioned on the outer side of the resettable temperature controller.

In a further aspect of the present utility model, the power module is integrated on the control module and forms a single component, or the power module and the control module are separately disposed.

The beneficial effects of the utility model are as follows:

1. the cooking machine host computer is supplied power to the heater on the cup subassembly, wireless temperature sensing subassembly through non-contact wireless power module, does not have traditional physics plug-in type electric connection coupler, and the cup subassembly can carry out whole washing, if the cup subassembly wholly put into the aquatic wash or put into the dish washer and wash, avoids the contact failure phenomenon that traditional coupler sheetmetal wearing and tearing lead to simultaneously in the repeated plug-in process.

2. The wireless temperature sensing assembly and the control module do not need to be in hard connection communication through a physical circuit, the processor can be free of a traditional physical plug-in type electric connection coupler, and the wireless temperature sensing assembly and the resettable temperature controller are used for detecting the temperature of the cup assembly and avoiding dry burning of the cup assembly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model.

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a cross-sectional view of an embodiment of the present utility model.

FIG. 2 is a cross-sectional view of a cup assembly according to an embodiment of the utility model.

Fig. 3 is a partial view of an embodiment of the present utility model.

Fig. 4 is an exploded view of an embodiment of the present utility model.

Fig. 5 is a schematic diagram of an embodiment of the present utility model.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

As shown in fig. 1-5, the cooking machine with wireless coupling power supply and wireless temperature sensing comprises a host 1, a cup component 2 and a non-contact wireless power supply module, wherein the host 1 is provided with a power supply module 10, a control module 9 and a motor component 3 which are electrically connected with the power supply module 10, the power supply module 10 is externally connected with an input power supply, the cup component 2 is detachably arranged on the host 1, a heater 7, a wireless temperature sensing component 21 and a knife group 4 connected with the motor component 3 are arranged on the cup component 2, the heater 7 heats the cup component 2 when in operation, the wireless temperature sensing component 21 is used for detecting the temperature of the cup component 2 when in operation, the knife group 4 is used for crushing food materials in the cup component 2 when in operation, the wireless temperature sensing component 21 is in wireless communication connection with the control module 9, wireless data signal transmission is carried out between the wireless temperature sensing component 21 and the control module 9, hard connection communication is not required between the wireless temperature sensing component 21 and the control module 9 through a physical circuit, the non-contact wireless power supply module comprises a wireless power supply transmitting device 6 arranged on the host 1 and a wireless power supply receiving device 5 arranged on the cup component 2 and used for receiving signals of the wireless power supply transmitting device 6 and converting the signals into electric energy, the wireless power supply transmitting device 6 is electrically connected with a power supply module 10 and a control module 9, the control module 9 is used for carrying out signal transmission with the motor component 3, the wireless power supply transmitting device 6 and the wireless temperature sensing component 21 and outputting working instructions, and a person skilled in the art can understand that the power supply module 10 supplies power to the control module 9, the motor component 3 and the wireless power supply transmitting device 6, the wireless power supply receiving device 5 is electrically connected with the heater 7, the wireless temperature sensing component 21 and supplies power to the heater 7, the wireless temperature sensing assembly 21 supplies power, and the cooking machine host computer supplies power to the heater 7 on the cup assembly 2 and the wireless temperature sensing assembly 21 through the non-contact wireless power supply module, and the cup assembly 2 is not provided with a traditional physical plug-in type electric connection coupler, so that the cup assembly 2 can be wholly washed, and if the cup assembly 2 is wholly put into water for washing or put into a dish washer for washing, the use of a user is facilitated, and meanwhile, the phenomenon of poor contact caused by abrasion of a metal sheet of the traditional coupler in the repeated plug-in process is avoided.

When the food processor is used, the cup assembly 2 is arranged on the host 1, the power module 10 supplies power to the wireless power supply transmitting device 6 through an external input power supply, the wireless power supply transmitting device 6 transmits an electric signal to the wireless power supply receiving device 5 during operation, the wireless power supply receiving device 5 converts the electric signal into electric energy and supplies power to electrical elements (specifically the heater 7 and the wireless temperature sensing assembly 21) on the cup assembly 2, and the motor assembly 3 drives the knife set 4 to rotate during operation so as to realize stirring and cutting work in the cup assembly 2.

The wireless power supply transmitting device 6 and the wireless power supply receiving device 5 may take the following forms:

the wireless power supply transmitting means 6 comprises a transmitting coil for transmitting magnetic energy and the wireless power supply receiving means 5 comprises a resonant coil for receiving magnetic energy and converting the magnetic energy into electrical energy.

In some embodiments of the present utility model, the wireless temperature sensing component 21 is a bluetooth wireless temperature sensing component or a 2.4GWifi wireless temperature sensing component, the wireless temperature sensing component 21 is in wireless communication connection with the control module 9 through a bluetooth signal or a 2.4GWifi signal, the heater 7 is a heating plate or a heating tube, and as shown in fig. 1-4, the heater 7 is a heating plate.

In some embodiments of the present utility model, as shown in fig. 2-4, the temperature measuring end of the wireless temperature sensing component 21 is in abutting contact with the bottom of the cup component 2 and is used for detecting the temperature of the bottom of the cup component 2, and the control module 9 is provided with a signal transmission end in communication with the wireless temperature sensing component 21, and the wireless temperature sensing component 21 transmits the detected temperature signal to the control module 9.

Or, the temperature measuring end of the wireless temperature sensing assembly 21 penetrates into the cup assembly 2, the temperature measuring end of the wireless temperature sensing assembly 21 contacts with liquid inside the cup assembly 2 and detects temperature, the wireless temperature sensing assembly 21 and the cup assembly 2 are arranged in a sealing mode, for example, a sealing structure such as a sealing ring is arranged between the wireless temperature sensing assembly 21 and the cup assembly 2, and a signal transmission end in communication connection with the wireless temperature sensing assembly 21 is arranged on the control module 9.

In some embodiments of the present utility model, as shown in fig. 1, the host 1 includes a cover 11 located at an upper portion of the host 1, and the wireless power transmission device 6 is located at an inner side of the cover 11;

as shown in fig. 2-4, the cover 11 is provided with a mounting hole for the output end of the motor assembly 3 to pass through and a lower connector 16 positioned on the mounting hole and connected with the output end of the motor assembly 3, the bottom of the cutter set 4 is provided with an upper connector 15 matched with the lower connector 16, and when the cup assembly 2 is arranged on the host 1, the upper connector 15 is matched with the lower connector 16 in an inserting way, so that the cutter set 4 can be driven to rotate when the motor assembly 3 runs.

In some embodiments of the present utility model, as shown in fig. 1, a radiator 8 is disposed on the wireless power transmission device 6, the radiator 8 may be a heat dissipation aluminum or a heat dissipation fan, the radiator 8 is located in the host 1, and the radiator 8 is configured to dissipate heat when the wireless power transmission device 6 is running, so as to reduce the temperature when the wireless power transmission device 6 is running, and in particular, the radiator 8 is located at the lower part of the wireless power transmission device 6.

The radiator 8 is integrally arranged on the control module 9, or the radiator 8 is an axial flow fan or a centrifugal fan, the radiator 8 and the control module 9 are arranged in a split mode, and the radiator 8 is electrically connected with the control module 9.

In some embodiments of the present utility model, as shown in fig. 1-4, the heater 7 is located at the bottom of the cup assembly 2, a perforation is provided at the center of the heater 7, the knife set 4 is installed on the cup assembly 2 through the perforation, a first sealing ring assembly 13 is provided between the cup assembly 2 and the knife set 4, and the arrangement of the first sealing ring assembly 13 ensures the sealing performance between the cup assembly 2 and the knife set 4, so that the water will not contact with the wireless power supply receiving device 5, the heater 7 and the wireless temperature sensing assembly 21 in the cup assembly 2 when the cup assembly 2 is washed with water.

In some embodiments of the present utility model, as shown in fig. 1-3, the cup assembly 2 includes a base 17 located at a lower portion of the cup assembly 2, the wireless power supply receiving device 5 is located in the base 17, the heater 7 and the wireless temperature sensing assembly 21 are located at an upper portion of the wireless power supply receiving device 5, the heater 7 is located at a side portion of the wireless temperature sensing assembly 21, and specifically, the wireless temperature sensing assembly 21 is located at an inner side of the heater 7.

In some embodiments of the present utility model, as shown in fig. 2-5, a resettable thermostat 22 is connected between the heater 7 and the wireless power supply receiving device 5, the resettable thermostat 22 is configured to prevent dry heating of the heater 7 on the cup assembly 2, the resettable thermostat 22 contacts with the bottom of the cup assembly 2, when the bottom temperature of the cup assembly 2 reaches the operating temperature of the resettable thermostat 22, the resettable thermostat 22 opens contacts to cut off connection between the heater 7 and the wireless power supply receiving device 5, the heater 7 is powered off and does not heat again, when the bottom temperature of the cup assembly 2 cools to the reset temperature of the resettable thermostat 22, the resettable thermostat 22 closes contacts to restore connection between the heater 7 and the wireless power supply receiving device 5, the heater 7 and the wireless power supply receiving device 5 are located outside the resettable thermostat 22, specifically, the resettable thermostat 22 is located at the upper portion of the wireless power supply receiving device 5, the resettable thermostat 22 and the wireless temperature sensing assembly 21 are arranged at left and right intervals, and the power supply module and the control module are located at two sides of the lower portion of the motor assembly 3, respectively.

In some embodiments of the utility model, the power module 10 is integrated on the control module 9 and constitutes a single component, or, as shown in fig. 1, is provided separately between the power module 10 and the control module 9.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing embodiments and description merely illustrates the principles of the utility model, and that various changes and modifications may be effected therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents.

Claims (9)

1. A cooking machine of wireless coupling power supply and wireless temperature sensing, characterized by comprising:

the power supply device comprises a host machine (1), wherein the host machine (1) is provided with a power supply module (10), a control module (9) and a motor assembly (3), wherein the control module (9) and the motor assembly (3) are electrically connected with the power supply module (10);

the cup assembly (2) is detachably arranged on the host machine (1), the cup assembly (2) is provided with a heater (7), a wireless temperature sensing assembly (21) and a knife set (4) connected with the motor assembly (3), and the wireless temperature sensing assembly (21) is in wireless communication connection with the control module (9);

the wireless power supply module of non-contact, wireless power supply module is including setting up wireless power supply emitter (6) on host computer (1) and setting up wireless power supply receiver (5) on cup subassembly (2) and be used for receiving the signal of wireless power supply emitter (6) and converting the signal into electric energy, wireless power supply emitter (6) are connected with power module (10), control module (9) electricity, wireless power supply receiver (5) are connected with heater (7), wireless temperature sensing subassembly (21) electricity and supply power to heater (7), wireless temperature sensing subassembly (21).

2. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein the wireless temperature sensing component (21) is a Bluetooth wireless temperature sensing component or a 2.4GWifi wireless temperature sensing component, the wireless temperature sensing component (21) and the control module (9) are in wireless communication connection through Bluetooth signals or 2.4GWifi signals, and the heater (7) is a heating disc or a heating tube.

3. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein a temperature measuring end of the wireless temperature sensing component (21) is in abutting contact with the bottom of the cup component (2) and is used for detecting the temperature of the bottom of the cup component (2), and a signal transmission end in communication connection with the wireless temperature sensing component (21) is arranged on the control module (9);

or, the temperature measurement end of wireless temperature sensing subassembly (21) penetrates inside cup subassembly (2), and the temperature measurement end of wireless temperature sensing subassembly (21) and the inside liquid contact of cup subassembly (2) and detect the temperature, seal between wireless temperature sensing subassembly (21) and cup subassembly (2) set up, be equipped with on control module (9) with wireless temperature sensing subassembly (21) communication connection's signal transmission end.

4. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein the host machine (1) comprises a cover body (11) positioned at the upper part of the host machine (1), and the wireless power supply transmitting device (6) is positioned at the inner side of the cover body (11);

the cover body (11) is provided with a mounting hole for the output end of the motor assembly (3) to penetrate out and a lower connector (16) which is positioned on the mounting hole and connected with the output end of the motor assembly (3), and the bottom of the cutter group (4) is provided with an upper connector (15) matched with the lower connector (16).

5. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein the wireless power supply transmitting device (6) is provided with a radiator (8), and the radiator (8) is positioned in the host machine (1);

the radiator (8) is integrally arranged on the control module (9), or the radiator (8) is an axial flow fan or a centrifugal fan, the radiator (8) and the control module (9) are arranged in a split mode, and the radiator (8) is electrically connected with the control module (9).

6. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein the heater (7) is located at the bottom of the cup assembly (2), a through hole is formed in the center of the heater (7), the knife set (4) is installed on the cup assembly (2) through the through hole, and a first sealing ring assembly (13) is arranged between the cup assembly (2) and the knife set (4).

7. The food processor with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein the cup assembly (2) comprises a base (17) positioned at the lower part of the cup assembly (2), the wireless power supply receiving device (5) is positioned in the base (17), the heater (7) and the wireless temperature sensing assembly (21) are positioned at the upper part of the wireless power supply receiving device (5), and the heater (7) is positioned at the side part of the wireless temperature sensing assembly (21).

8. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein a resettable temperature controller (22) is connected between the heater (7) and the wireless power supply receiving device (5), the resettable temperature controller (22) is in contact with the bottom of the cup assembly (2), and the heater (7) and the wireless power supply receiving device (5) are located on the outer side of the resettable temperature controller (22).

9. The cooking machine with wireless coupling power supply and wireless temperature sensing according to claim 1, wherein the power module (10) is integrated on the control module (9) and forms a single component, or the power module (10) and the control module (9) are separately arranged.