CN209996078U - safe and reliable food processor - Google Patents

Abstract

The embodiment of the utility model discloses safe and reliable's food preparation machine, be in including host computer, setting stirring cup on the host computer and detain and put bowl cover on the stirring cup, the host computer includes power strip, control panel, motor and coupling portion, the control panel with the power strip links to each other, the stirring cup includes heating element, crushing sword and second coupling portion, crushing sword by motor drive work, the stirring cup still includes the signal modulation board, coupling portion with the power strip links to each other, second coupling portion with the heating element with the signal modulation board links to each other respectively, wherein, the power strip respectively with during the coupling of second coupling portion with the coupling portion with the heating element with the signal modulation board intercommunication, the control panel is connected to coupling portion with on the connecting wire between the power strip.

Description

safe and reliable food processor

Technical Field

The embodiment of the utility model relates to a food processing technology, especially indicates safe and reliable food processing machines.

Background

When the stirring cup is arranged on the main machine, the coupling part is coupled with the second coupling part, the coupler is a six-pin coupler, two pins of the six-pin coupler are used for transmitting a heating signal, and the other four pins are respectively used for a grounding wire, a temperature signal, an anti-overflow signal and a signal for indicating whether to open a cover, therefore, ports of the coupling part and ports of the second coupling part are occupied for transmitting signals, so that not only can the ports of the coupler be fully utilized, but also the volume of the coupler is larger.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an safe and reliable's food preparation machine, the port that can make full use of coupler has reduced the volume of coupler.

The embodiment of the utility model provides an adopt following technical scheme:

safe and reliable food processor, which comprises a main machine, a mixing cup arranged on the main machine and a cup cover buckled on the mixing cup, wherein the main machine comprises a power supply board, a control board, a motor and a coupling part, the control board is connected with the power supply board, the mixing cup comprises a heating element, a crushing knife and a second coupling part, the crushing knife is driven by the motor to work, and the mixing cup also comprises a signal modulation board;

the th coupling part is connected with the power panel, the second coupling part is respectively connected with the heating element and the signal modulation board, wherein the th coupling part and the second coupling part are coupled when the power panel is respectively communicated with the heating element and the signal modulation board;

the control board is connected to a connecting line between the th coupling part and the power supply board.

Optionally, the th to fourth ports of the th coupling part are correspondingly connected with the th power output end, the th power input end, the second power output end and the second power input end of the power panel;

the th port and the second port of the second coupling part are respectively connected with the signal modulation board, the third port and the fourth port of the second coupling part are respectively connected with two ends of the heating element, and the th port to the fourth port of the coupling part correspond to the th port to the fourth port of the second coupling part;

the control board is connected to a connection line between the th power output terminal of the power board and the th port of the th coupling part, and is also connected to a connection line between the th power input terminal of the power board and the second port of the th coupling part.

Optionally, the cup cover comprises a signal acquisition module;

the signal acquisition module is arranged on the cup cover and used for acquiring working state signals of the food processor and transmitting the working state signals to the signal modulation board.

Optionally, the cup cover further comprises a wireless transmitting module, and the stirring cup further comprises a wireless receiving module;

the wireless transmitting module is connected with the signal acquisition module and is used for transmitting the working state signals of the food processor acquired by the signal acquisition module;

the wireless receiving module is connected with the signal modulation board and used for receiving the working state signal of the food processor transmitted by the wireless transmitting module and transmitting the working state signal to the signal modulation board.

Optionally, the wireless transmitting module includes a wireless transmitting coil and a wireless transmitting board, and the wireless receiving module includes a wireless receiving coil;

the wireless transmitting plate is respectively connected with the signal acquisition module and the wireless transmitting coil.

Optionally, when the cup cover is buckled on the stirring cup, the wireless transmitting coil and the wireless receiving coil are arranged correspondingly.

Optionally, the signal acquisition module transmits the working state signal of the food processor to the signal modulation board in a wired manner.

Optionally, the signal acquisition module comprises or a combination of more than one of an anti-overflow electrode, a cup lid temperature sensor and a cover opening sensor.

Optionally, the stirring cup further comprises an in-cup temperature sensor;

the temperature sensor in the cup is connected with the signal modulation board and used for collecting the temperature in the stirring cup, taking the temperature as a working state signal of the food processor and sending the working state signal to the signal modulation board.

Optionally, the th and second couplings are each a four pin coupling.

The utility model discloses beneficial effect includes:

1. the embodiment of the utility model provides an in the scheme, power strip and signal modulation board intercommunication when coupling part and second coupling part coupling, signal modulation board can load the operating condition signal of food preparation machine on the connecting wire between coupling part and the power strip owing to the control panel is connected to the connecting wire between coupling part and the power strip, consequently the operating condition signal of food preparation machine can be acquireed from this connecting wire to the control panel, the port that is used for transmitting food preparation machine's operating condition signal alone on coupling part and the second coupling part has been saved, not only make full use of the port of coupling part and second coupling part, still reduced the volume that the coupling part and second coupling part occupy, conveniently install the coupling part on the host computer, and conveniently install the second coupling part on the stirring cup.

2. The embodiment of the utility model provides a scheme gives the signal modulation board through wireless operating condition signal transmission with food preparation machine, stops to lead to the signal that signal acquisition module gathered not well because of stirring cup and bowl cover contact inaccurate to can monitor food preparation machine's work better.

3. The embodiment of the utility model provides an in the scheme position of wireless transmitting coil and wireless receiving coil satisfy: when the cup cover is buckled on the stirring cup, the wireless transmitting coil corresponds to the wireless receiving coil, so that the signal between the wireless transmitting coil and the wireless receiving coil is optimal, and the reliability of the wireless transmission of the working state signal of the food processor is improved.

4. The embodiment of the utility model provides a scheme is through setting up bowl cover temperature sensor on the bowl cover, can the accurate temperature that detects food in the stirring cup to carry out anti-overflow control better when food boils. In addition, a cover opening sensor can be arranged on the cup cover and used for detecting whether the cup cover is buckled on the stirring cup or not.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are provided to provide an -step understanding of the technical solutions of the present invention, and constitute part of the specification, serve to explain the technical solutions of the present invention with example of the present application, and do not constitute a limitation on the technical solutions of the present invention.

Fig. 1 is a schematic structural diagram of a food processor according to an embodiment of the present invention;

fig. 2 is a schematic circuit diagram of a food processor according to an embodiment of the present invention;

fig. 3 is a schematic circuit diagram of a food processor according to a second embodiment of the present invention;

fig. 4 is a waveform diagram of a voltage signal of a power board according to an embodiment of the present invention;

fig. 5 is a schematic circuit diagram of a food processor according to a third embodiment of the present invention;

fig. 6 is a schematic structural view of a food processor according to a fourth embodiment of the present invention;

fig. 7 is a schematic circuit diagram of a food processor according to a fourth embodiment of the present invention.

The names of the components marked in the figures are as follows:

the device comprises a main machine 10, a power supply board 101, a control board 102, an th coupling part 103, a stirring cup 20, a 201 heating element, a 202 crushing knife, a 203 second coupling part, a 204 signal modulation board, a 205 wireless receiving module, a 206 cup internal temperature sensor, a 30 cup cover, a 301 signal acquisition module, a 3011 anti-overflow electrode, a 3012 cup cover temperature sensor, a 302 wireless transmitting module, a 3021 wireless transmitting coil and a 3022 wireless transmitting board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Example

A safe and reliable food processor, as shown in fig. 1, the food processor can comprise a main body 10, a mixing cup 20 arranged on the main body 10 and a cup cover 30 buckled on the mixing cup 20. as shown in fig. 1 and fig. 2, the main body 10 comprises a power board 101, a control board 102, a motor M and a coupling part 103, the control board 102 is connected with the power board 101, the mixing cup 20 comprises a heating element 201, a crushing blade 202 and a second coupling part 203, the crushing blade 202 is driven by the motor M to work, and the mixing cup 20 further comprises a signal modulation board 204.

As shown in fig. 2, the th coupling portion 103 is connected to the power board 101, and the second coupling portion 203 is connected to the heating element 201 and the signal modulation board 204, respectively, wherein the power board 101 is connected to the heating element 201 and the signal modulation board 204 when the th coupling portion 103 and the second coupling portion 203 are coupled.

The control board 102 is connected to a connection line between the -th coupling part 103 and the power supply board 101.

In the embodiment of the present invention, when the th coupling part 103 and the second coupling part 203 are coupled, the power board 101 is communicated with the signal modulation board 204, and the signal modulation board 204 can load the operation status signal of the food processor onto the connection line between the th coupling part 103 and the power board 101. since the control board 102 is connected to the connection line between the th coupling part 103 and the power board 101, the control board 102 can obtain the operation status signal of the food processor from the connection line, and the ports for transmitting the operation status signal of the food processor separately on the th coupling part 103 and the second coupling part 203 are saved, thereby not only fully utilizing the ports of the th coupling part 103 and the second coupling part 203, but also reducing the volume occupied by the th coupling part 103 and the second coupling part 203, facilitating the installation of the th coupling part 103 on the host computer 10, and facilitating the installation of the second coupling part 203 on the stirring cup 20.

In addition, in the related art, four pins of the coupler are respectively used for grounding wires, transmitting temperature signals, transmitting anti-overflow signals and transmitting signals whether to open the cover, and the transmitted temperature signals, the transmitted anti-overflow signals and the transmitted signals whether to open the cover are analog signals which are easily interfered by contact resistance and external signals.

Example two

The embodiment of the present invention is based on the embodiment , as shown in fig. 3, the th coupling part 103 includes th port to fourth port, the second coupling part 203 includes th port to fourth port, the th port to the fourth port of the th coupling part 103 corresponds to the th port to the fourth port of the second coupling part 203.

The th to fourth ports of the th coupling part 103 are connected to the th power output terminal (i.e., terminal a), the th power input terminal (i.e., terminal B), the second power output terminal (i.e., terminal C), and the second power input terminal (i.e., terminal D) of the power board 101, respectively.

The th port and the second port of the second coupling portion 203 are connected to the signal modulation board 204, respectively, and the third port and the fourth port of the second coupling portion 203 are connected to both ends of the heating element 201, respectively.

And a control board 102 connected to a connection line between the th power output terminal of the power board 101 and the th port of the th coupling part 103, and also connected to a connection line between the th power input terminal of the power board 101 and the second port of the th coupling part 103.

It should be noted that the th power output terminal of the power board 101 may be a power output terminal outputting 12V, and the th power input terminal of the power board 101 may be a ground terminal.

In the embodiment of the present invention, when the -th coupling part 103 is coupled to the second coupling part 203, the -th port of the -th coupling part 103 is connected to the -th port of the second coupling part 203, the -th port of the coupling part 103 is connected to the second port of the second coupling part 203, the -th port of the coupling part 103 is connected to the third port of the second coupling part 203, and the -th port of the coupling part 103 is connected to the fourth port of the second coupling part 203. thus, the power board 101 is connected to the heating element 201 through the second power output terminal and the second power input terminal thereof to supply power to the heating element 201, and the power board 101 is connected to the signal modulation board 204 through the -th power output terminal and the -th power input terminal thereof to supply power to the signal modulation board 204. the signal modulation board 204 can apply the operating state signal of the processing machine food to two connection lines (i.e., the X connection line and the Y connection line in fig. 3) between the signal modulation board 204 and the second coupling part 203 in the form of power carrier wave.

The scheme is described below with reference to the th power output terminal of the power board 101 being a power output terminal outputting 12V voltage and the th power input terminal of the power board 101 being a ground terminal.

The waveform diagram on the left side of fig. 4 is a voltage waveform diagram between the th power output terminal and the th power input terminal of the power board 101, the control board 102 obtains the operating status signal of the food processor from the voltage waveform, the control board 102 can obtain the operating status signal of the food processor by using the method in the related art, for example, the manchester code in the voltage waveform is analyzed by the control board 102, the operating status signal of the food processor is obtained according to the analyzed manchester code (the waveform diagram on the right side of fig. 4), and the specific implementation of obtaining the operating status signal of the food processor from the voltage waveform is not used for limiting the protection scope of the present invention, and will not be described in detail here.

EXAMPLE III

Based on the second embodiment, as shown in fig. 5, the cup cover 30 may include a signal collecting module 301, and the signal collecting module 301 is connected to the signal modulation board 204 through a connecting line, so that the signal collecting module 301 transmits the operating state signal of the food processor to the signal modulation board 204 in a wired manner.

The signal acquisition module 301 comprises or a combination of multiple elements, namely an anti-overflow electrode 3011, a cup lid temperature sensor 3012 and a cover opening sensor.

It should be noted that the cover opening sensor is used for detecting whether the cover 30 and the mixing cup 20 are closed or not. In fig. 5, the signal acquisition module 301 comprises an anti-overflow electrode 3011 and a cup cover temperature sensor 3012.

Optionally, as shown in FIG. 5, the mixing cup 20 may also include an in-cup temperature sensor 206.

The in-cup temperature sensor 206 is connected to the signal modulation board 204, and is used for collecting the temperature in the stirring cup 20, and sending the temperature as an operating state signal of the food processor to the signal modulation board 204.

Alternatively, the th coupling part 103 and the second coupling part 203 are four-pin coupling parts, respectively.

Example four

Based on the second embodiment, as shown in fig. 6 and 7, the cup cover 30 may include a signal acquisition module 301 and a wireless transmission module 302, and the blender cup 20 further includes a wireless receiving module 205.

And the signal acquisition module 301 is arranged on the cup cover 30 and used for acquiring working state signals of the food processor and transmitting the working state signals to the signal modulation board 204.

And the wireless transmitting module 302 is connected with the signal acquisition module 301 and is used for transmitting the working state signals of the food processor acquired by the signal acquisition module 301.

And the wireless receiving module 205 is connected with the signal modulation board 204 and is used for receiving the working state signal of the food processor transmitted by the wireless transmitting module 302 and transmitting the working state signal to the signal modulation board 204.

The embodiment of the utility model provides an in the scheme, the operating condition signal transmission with food preparation machine through wireless transmitting module 302 and wireless receiving module 205's cooperation is for signal modulation board 204, signal modulation board 204 with food preparation machine's operating condition signal loading to the connecting wire between signal modulation board 204 and the second coupling part 203, when coupling part 103 and the coupling of second coupling part 203, food preparation machine's operating condition signal is isolated from this connecting wire to control panel 102, then control panel 102 control power supply board 101 lets heating element 201 and motor work, wherein, because the operating condition signal through wireless transmission food preparation machine, can stop because of stirring cup 20 and the contact of bowl cover 30 are not good to lead to the signal inaccuracy that signal acquisition module 301 gathered, thereby can control heating element 201 and motor better.

Alternatively, as shown in fig. 7, the wireless transmitting module 302 includes a wireless transmitting coil 3021 and a wireless transmitting board 3022, and the wireless receiving module 205 includes a wireless receiving coil.

The wireless transmitting board 3022 is connected to the signal acquisition module 301 and the wireless transmitting coil 3021, respectively.

Optionally, as shown in fig. 6, when the cup cover 30 is buckled on the blender cup 20, the wireless transmitting module 302 and the wireless receiving module 205 are correspondingly arranged. It can be understood that the wireless transmitting coil 3021 and the wireless receiving coil may be correspondingly disposed when the cup cover 30 is fastened to the blender cup 20.

The positions of the wireless transmitting coil 3021 and the wireless receiving coil satisfy: when the cup cover 30 is buckled on the stirring cup 20, the wireless transmitting coil 3021 corresponds to the wireless receiving coil, so that the signal between the wireless transmitting coil 3021 and the wireless receiving coil is ensured to be optimal, and the reliability of wirelessly transmitting the working state signal of the food processor is improved.

Optionally, the signal acquisition module 301 comprises or a combination of more than one of the following, the spill prevention electrode 3011, the cup lid temperature sensor 3012 and the lid opening sensor.

In the embodiment shown in fig. 6 and 7, signal acquisition module 301 includes a spill-prevention electrode 3011 and a cup lid temperature sensor 3012.

Optionally, as shown in FIG. 7, the mixing cup 20 may also include an in-cup temperature sensor 206.

The in-cup temperature sensor 206 is connected to the signal modulation board 204, and is used for collecting the temperature in the stirring cup 20, and sending the temperature as an operating state signal of the food processor to the signal modulation board 204.

The in-cup temperature sensor 206 may be disposed at the in-cup bottom of the stirring cup 20.

Alternatively, the th coupling part 103 and the second coupling part 203 are four-pin coupling parts, respectively.

It should be noted that the th coupler 103 is a four-pin coupler, which means that the th coupler 103 has only four ports, and the second coupler 203 is a four-pin coupler, which means that the second coupler 203 has only four ports.

Although the embodiments of the present invention have been described above, the description is only for the convenience of understanding the present invention, and the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A safe and reliable food processor comprises a host machine, a stirring cup arranged on the host machine and a cup cover buckled on the stirring cup, wherein the host machine comprises a power panel, a control panel, a motor and a coupling part, the control panel is connected with the power panel, the stirring cup comprises a heating element, a crushing knife and a second coupling part, the crushing knife is driven by the motor to work, and the stirring cup is characterized by further comprising a signal modulation board;

   the th coupling part is connected with the power panel, the second coupling part is respectively connected with the heating element and the signal modulation board, wherein the th coupling part and the second coupling part are coupled when the power panel is respectively communicated with the heating element and the signal modulation board;

   the control board is connected to a connecting line between the th coupling part and the power supply board.
2. 2. The food processor of claim 1,

   the th port to the fourth port of the th coupling part are correspondingly connected with the th power output end, the th power input end, the second power output end and the second power input end of the power panel;

   the th port and the second port of the second coupling part are respectively connected with the signal modulation board, the third port and the fourth port of the second coupling part are respectively connected with two ends of the heating element, and the th port to the fourth port of the coupling part correspond to the th port to the fourth port of the second coupling part;

   the control board is connected to a connection line between the th power output terminal of the power board and the th port of the th coupling part, and is also connected to a connection line between the th power input terminal of the power board and the second port of the th coupling part.
3. 3. A food processor as claimed in claim 1 or claim 2, wherein the lid includes a signal acquisition module;

   the signal acquisition module is arranged on the cup cover and used for acquiring working state signals of the food processor and transmitting the working state signals to the signal modulation board.
4. 4. The food processor of claim 3, wherein the lid further comprises a wireless transmitter module, the blender cup further comprises a wireless receiver module;

   the wireless transmitting module is connected with the signal acquisition module and is used for transmitting the working state signals of the food processor acquired by the signal acquisition module;

   the wireless receiving module is connected with the signal modulation board and used for receiving the working state signal of the food processor transmitted by the wireless transmitting module and transmitting the working state signal to the signal modulation board.
5. 5. The food processor of claim 4, wherein the wireless transmitter module comprises a wireless transmitter coil and a wireless transmitter board, and wherein the wireless receiver module comprises a wireless receiver coil;

   the wireless transmitting plate is respectively connected with the signal acquisition module and the wireless transmitting coil.
6. 6. The food processor of claim 5, wherein the wireless transmitter coil and the wireless receiver coil are disposed in correspondence when the lid is snapped onto the blender cup.
7. 7. The food processor of claim 3, wherein the signal acquisition module transmits the operating condition signal of the food processor to the signal modulation board via a wired connection.
8. 8. The food processor of claim 3, wherein the signal acquisition module comprises or a combination of more than one of a spill prevention electrode, a lid temperature sensor, and a lid opening sensor.
9. 9. The food processor of claim 3, wherein the blending cup further comprises an in-cup temperature sensor;

   the temperature sensor in the cup is connected with the signal modulation board and used for collecting the temperature in the stirring cup, taking the temperature as a working state signal of the food processor and sending the working state signal to the signal modulation board.
10. 10. The food processor of claim 2, wherein the -th coupling and the second coupling are each four-pin couplings.

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