CN113268015A

CN113268015A - Conditioning machine capable of automatically detecting conditioning program and automatic conditioning program detection device thereof

Info

Publication number: CN113268015A
Application number: CN202010095507.5A
Authority: CN
Inventors: 陈明松
Original assignee: Maiden Co Ltd
Current assignee: Maiden Co Ltd
Priority date: 2020-02-17
Filing date: 2020-02-17
Publication date: 2021-08-17

Abstract

The invention provides a conditioning machine for automatically detecting a conditioning program and a conditioning program automatic detection device thereof, wherein the conditioning machine for automatically detecting the conditioning program comprises a conditioning seat, a conditioning cup, at least one detected element and a conditioning program automatic detection device, the conditioning seat is provided with a start key, the bottom of the conditioning cup is detachably combined with the top of the conditioning seat, the detected element is arranged at the bottom of the conditioning cup, the conditioning program automatic detection device comprises a plurality of detection elements and a controller, the detection elements are arranged at the top of the conditioning seat, the position of one detected element corresponds to the position of one detection element, when each detection element detects the detected element, a detection signal is generated, and the controller has different conditioning programs; after judging the starting signal of the starting key, the controller executes a conditioning program according to the number of the received detection signals; therefore, the purpose of automatically detecting and executing the conditioning program is achieved.

Description

Conditioning machine capable of automatically detecting conditioning program and automatic conditioning program detection device thereof

Technical Field

The invention relates to a conditioning machine, in particular to a conditioning machine for automatically detecting a conditioning program and an automatic detection device for the conditioning program.

Background

Chinese patent publication No. CN101032378B discloses a food processor, which comprises a base, a motor, a containing seat and a control unit, wherein the motor is disposed in the base and can be controlled to operate, the containing seat is assembled on the base for containing food materials, and the control unit is disposed on the base. The control unit comprises a main controller and an annular key mechanism, the annular key mechanism comprises five keys, wherein an action program corresponding to the first key is used for conditioning food materials into an ice crushing state, an action program corresponding to the second key is used for conditioning the food materials into an ice slush state, an action program corresponding to the third key is used for conditioning the food materials into a fruit juice state, an action program corresponding to the fourth key is used for conditioning the food materials into a thick soup state, and an action program corresponding to the fifth key is used for conditioning the food materials into a sauce state. Therefore, when the keys are pressed respectively, the programs built in the main controller can be started respectively, and the main controller is driven to control the motor to execute corresponding action programs.

The aforesaid patent provides a plurality of keys for the user to choose, and for the user, must carefully confirm the position of each key and press the key again for the processor to carry out the action procedure that expects, otherwise once the user pressed the key by mistake, the control unit directly carried out the action procedure that the user does not expect, caused the food material in the containing seat to be cut immediately, stirred or smashed, probably had no chance of remedy.

As mentioned above, the control unit only passively executes the corresponding action programs according to the different keys pressed by the user, and from the structural point of view, the plurality of keys respectively corresponding to the different action programs are potential factors causing the user to mistakenly press, for example, the adjacent keys are relatively close to each other or the keys are relatively small in size, or the user may mistakenly press the keys when the user is in a busy state or is slightly careless, so that the structure of the known cooking machine using the plurality of keys to correspond to the different action programs has room for improvement.

Disclosure of Invention

In view of the above, the main objective of the present invention is to provide a cooker capable of automatically detecting a cooking program, which not only actively detects the cooking program, but also provides a simple operation manner, so as to overcome the problem of inconvenient use caused by a plurality of buttons in the prior art.

The invention discloses a conditioner for automatically detecting a conditioning program, which comprises the following components:

a conditioning base having a top and a start key;

a conditioning cup having a bottom portion removably coupled to the top portion of the conditioning base;

at least one measured element arranged at the bottom of the conditioning cup; and

an automatic detection device for a conditioning program, comprising:

the detection elements are arranged on the top of the conditioning seat, wherein the position of one detected element only corresponds to the position of one detection element of the detection elements, and each detection element generates a detection signal when detecting the detected element; and

the controller is arranged in the conditioning seat, is electrically connected with the detection element and the starting key and has a plurality of different conditioning programs; and after judging a starting signal of the starting key, the controller executes one of the conditioning programs according to the number of the detection signals received from the detection element.

In the cooking machine for automatically detecting a cooking procedure, the top of the cooking base has a rotating actuator, and the detecting elements are distributed at equal angles on a circumference with the rotating actuator as a center point and on the periphery of the rotating actuator.

The cooking machine for automatically detecting the cooking program as described above, wherein the cooking base is provided with a driving motor therein, the controller is electrically connected to the driving motor, and the rotating speeds of the driving motors corresponding to the cooking program are different from each other.

The cooking machine for automatically detecting a cooking program as described above, wherein the cooking seat has a side portion, and the side portion comprises an input interface, and the input interface comprises the start key.

In the above-mentioned cooking machine for automatically detecting a cooking program, the at least one tested element is exposed at the bottom of the cooking cup, and the detecting element is exposed at the top of the cooking seat.

In the cooking machine for automatically detecting a cooking program, the detecting element is a magnetic field detecting element, and the detected element is a magnet.

In the conditioner for automatically detecting a conditioning program, the detecting element is a reader, and the detected element is an electronic tag.

Another object of the present invention is to provide an automatic detecting device for a cooking procedure, which is disposed on a cooking seat, and comprises:

a start key;

the detection elements are arranged at the top of the conditioning seat, and each detection element generates a detection signal when detecting a detected element; and

the controller is electrically connected with the detection element and the starting key and has a plurality of different conditioning programs; and after judging a starting signal of the starting key, the controller executes one of the conditioning programs according to the number of the detection signals received from the detection element.

The automatic detection device for the cooking procedure comprises a rotary actuator on the top of the cooking seat, and the detection elements are distributed on the circumference of the rotary actuator at equal angles and are distributed on the periphery of the rotary actuator.

According to the automatic detection device for the conditioning program, the conditioning seat is internally provided with the driving motor, the controller is electrically connected with the driving motor, and the rotating speeds of the driving motors corresponding to the conditioning program are different from each other.

Compared with the prior art, the conditioning machine of the invention does not passively execute the corresponding action program according to the key pressed by the user. The invention relates to a conditioner and an automatic detection device of a conditioning program thereof, which utilize the detection elements to detect the number of detected elements of a conditioning cup so as to generate detection signals with corresponding number, and a controller automatically corresponds to a conditioning program according to the number so as to achieve the aim of active detection; in addition, the conditioner of the invention provides a starting key for the user to operate, when the starting key is pressed by the user, the controller automatically executes the conditioning program actively detected as described above, thereby achieving full-automatic detection and conditioning program execution of 'one-key operation', greatly improving the operation convenience, naturally avoiding the need of selecting keys by the user, and effectively overcoming the problem that the user presses the keys by mistake.

Drawings

FIG. 1: the embodiment of the invention is a three-dimensional decomposition schematic diagram.

FIG. 2: the combined plane of the embodiment of the invention is schematic.

FIG. 3: the bottom plan view of the conditioning cup of the embodiment of the invention is schematic.

FIG. 4: the circuit block diagram of the embodiment of the invention is shown.

FIG. 5: the top plan view of the conditioning base of the embodiment of the invention is schematic.

FIG. 6: the detection element distribution position diagram (I) of the embodiment of the invention is shown.

FIG. 7: the detection element distribution position of the embodiment of the invention is schematically shown in the second step.

Reference numerals:

10 top of the cooking base 11

110 rotary actuator 111 positioning column

12 side 120 input interface

121 start key 20 cup

21 bottom 30 measured element

40 automatic detection device 41 detection element for conditioning program

42 controller 43 drive motor

Circumference of center point A and circumference of center point B

Detailed Description

Referring to fig. 1 to 4, the embodiment of the conditioner for automatically detecting a conditioning program according to the present invention includes a conditioning base 10, a conditioning cup 20, at least one device under test 30, and an automatic detection device 40 for a conditioning program.

The cooking base 10 comprises a top portion 11 and a side portion 12, the top portion 11 is provided with a rotary actuator 110, the cooking base 10 comprises a driving motor (not shown), a rotating shaft of the driving motor is connected to the rotary actuator 110, and the rotary actuator 110 is rotated when the driving motor is operated; the side portion 12 includes an input interface 120. the input interface 120 may include a key (e.g., power key), a touch panel, or a non-contact input interface. In the embodiment of the present invention, the conditioner base 10 includes at least one start key 121 on the input interface 120, and fig. 1 illustrates a preferred embodiment of a start key 121.

The conditioning cup 20 has a bottom 21, the bottom 21 is detachably combined with the top 11 of the conditioning base 10; in the embodiment of the present invention, the top 11 of the cooking seat 10 is provided with a plurality of positioning posts 111, the positioning posts 111 surround the periphery of the rotary actuator 110, and the bottom 21 of the cooking cup 20 is an inward concave portion for covering the positioning posts 111. Wherein the cooking cup 20 is provided with a rotary cutter (not shown) connected to the rotary actuator 110 when the bottom 21 of the cooking cup 20 is combined with the top 11 of the cooking seat 10. Therefore, when the driving motor of the cooking base 10 is operated, the rotary actuator 110 rotates the rotary cutter to provide cutting or stirring function for the food or drink in the cooking cup 20.

The at least one tested component 30 is disposed at the bottom 21 of the conditioning cup 20, and the at least one tested component 30 can be exposed out of the bottom 21 of the conditioning cup 20, and different numbers of tested components 30 can be disposed on the conditioning cups 20 with different purposes.

The automatic detection device 40 for the conditioning process comprises a plurality of detection elements 41 and a controller 42. Referring to fig. 1 and 5, the detecting elements 41 are disposed on the top 11 of the conditioning base 10 and can be exposed out of the top 11 of the conditioning base 10, and each detecting element 41 generates a detecting signal when detecting the detected element 30. For example, the detecting element 41 may be a magnetic field detecting element, such as a Hall effect sensor (Hall effect sensor), and the element 30 may be a magnet, and the detecting element generates the detection signal when detecting the magnetic field of the magnet; in other embodiments, the detecting element 41 may be a reader, such as a radio frequency reader (RFID reader), and the device under test 30 may be an electronic tag, such as a radio frequency tag (RFID tag), and the reader generates the detecting signal when detecting and reading the electronic tag.

Regarding the distribution positions of the detecting elements 41, as shown in fig. 5, the detecting elements 41 can surround the periphery of the rotary actuator 110 and are located within the area surrounded by the positioning columns 111. In the embodiment of the present invention, the detecting elements 41 are distributed at equal angles on the circumference with the rotating actuator 110 as the center point, and when the number of the detecting elements 41 is n, the included angle between two adjacent detecting elements 41 and the straight line of the rotating actuator 110 is 360/n degrees.

The distribution of the detecting elements 41 is described below by way of example, as shown in fig. 6, the number of the detecting elements 41 is four, the detecting elements 41 are distributed on a circumference B with the rotating actuator 110 as a central point a at equal angles, and the included angle between two adjacent detecting elements 41 and the straight line of the rotating actuator 110 (the central point a) is 90 degrees; similarly, as another example shown in fig. 7, when the number of the detecting elements 41 is five, the included angle between each two adjacent detecting elements 41 and the straight line of the rotating actuator 110 (the central point a) is 72 degrees.

Referring to fig. 1 and 2, when the bottom 21 of the conditioning cup 20 is combined with the top 11 of the conditioning base 10, the position of one tested element 30 of the conditioning cup 20 only corresponds to the position of one detecting element 41 of the detecting elements 41, that is, the tested element 30 can be located right above the corresponding detecting element 41, wherein the position of the same tested element 30 does not correspond to the positions of two or more detecting elements 41 at the same time, and the position of the same detecting element 41 does not correspond to the positions of two or more tested elements 30 at the same time, so that when any detecting element 41 detects a tested element 30, a detecting signal is correspondingly generated. When the number of the detecting elements 41 is equal to the number of the devices 30 to be detected, all the detecting elements 41 generate detecting signals; on the other hand, when the number of the detecting elements 41 is more than the number of the elements 30 to be tested, part of the detecting elements 41 do not have the corresponding elements 30 to be tested, and thus the detection signal is not generated.

The controller 42 is disposed in the conditioning base 10, referring to fig. 4, the controller 42 includes a plurality of input terminals and output terminals, the input terminals are respectively electrically connected to the detecting elements 41, the input interface 120 and the start key 121 thereof, the output terminal of the controller 42 is electrically connected to the driving motor 43, the controller 42 has a plurality of different conditioning programs for respective execution, the total number of the detecting elements 41 corresponds to at least the number of the conditioning programs executable by the controller 42, wherein the speeds of the driving motors 43 corresponding to the conditioning programs are different from each other. The start key 121 is pressed by the user, and after the controller 42 determines an activation signal of the start key, one of the plurality of conditioning programs is executed according to the number of the detection signals received from the detection elements 41.

The following example is used to illustrate the execution of the conditioning program, if the number of the detecting elements 41 is four, the conditioning program may include four conditioning programs, namely, tea extraction, smoothie, milk foam, and snow gram; the controller 42 determines the corresponding relationship between the number of received detection signals and each conditioning procedure, such as the following table:

correspondingly, as mentioned above, the different use of the conditioning cup 20 can be provided with different numbers of the tested elements 30, for example, the tea extraction use of the conditioning cup can be provided with one tested element 30, the smoothie use of the conditioning cup can be provided with two tested elements 30, the milk foam use of the conditioning cup can be provided with three tested elements 30, and the nikke use of the conditioning cup can be provided with four tested elements 30.

In this way, when the cooking cup for tea extraction is combined with the top 11 of the cooking seat 10, the position of one tested element 30 of the cooking cup corresponds to the position of one of the detecting elements 41, so that one detecting element 41 of the four detecting elements 41 generates a detecting signal, and then according to the above table, after the user presses the start key 121, the controller 42 judges that a detecting signal is received and automatically executes the tea extraction cooking procedure; by analogy, when the conditioning cup for the ice slush is combined with the top 11 of the conditioning seat 10, and the user presses the start key 121, the controller 42 judges that two detection signals are received and automatically executes the ice slush conditioning program; when the conditioning cup for milk foam is combined with the top 11 of the conditioning base 10, and the user presses the start key 121, the controller 42 judges that three detection signals are received and automatically executes the milk foam conditioning program; when the cooking cup for the Xuek use is combined with the top 11 of the cooking seat 10, and the user presses the start key 121, the controller 42 judges that four detection signals are received and automatically executes the Xuek cooking program.

In summary, the automatic detecting device 40 for the cooking process of the present invention detects the number of the detected elements 30 of the cooking cup 20 through the detecting elements 41 to generate a corresponding number of detecting signals, so that the controller 42 can automatically correspond to a cooking process according to the number of the detecting signals, thereby achieving the purpose of automatic detection. In addition, the present invention has the advantages of humanity and easy operation, as shown in the embodiment of fig. 1 and 2, the controller 42 automatically executes the corresponding conditioning program as described above only by pressing the start key 121. Therefore, the invention not only can automatically detect the conditioning program, but also can fully automatically execute the tea extraction, the ice sand, the milk foam, the snow or other conditioning programs of the conditioning machine by one-key operation of a user, thereby greatly improving the operation convenience.

Claims

1. A conditioner for automatically detecting a conditioning program, comprising:

a conditioning base having a top and a start key;

an automatic detection device for a conditioning program, comprising:

2. The machine of claim 1, wherein the top of the base has a rotary actuator, and the detecting elements are distributed at equal angles around a circle centered on the rotary actuator and around the rotary actuator.

3. The machine for automatically detecting the conditioning program according to claim 2, wherein a driving motor is disposed in the conditioning base, the controller is electrically connected to the driving motor, and the rotating speeds of the driving motors corresponding to the conditioning program are different from each other.

4. The conditioner of any one of claims 1 to 3, wherein said conditioner base has a side portion, said side portion comprising an input interface, said input interface comprising said activation key.

5. The machine according to claim 4, wherein the at least one device under test is exposed at the bottom of the cooking cup and the detecting device is exposed at the top of the cooking seat.

6. The machine according to any of the claims from 1 to 3, characterized in that said detection element is a magnetic field detection element and said element to be detected is a magnet.

7. The conditioner for automatically detecting a conditioning program according to any of claims 1 to 3, wherein said detecting element is a reader and said element to be tested is an electronic tag.

8. An automatic detection device for a conditioning program, which is arranged on a conditioning seat, comprises:

a start key;

9. An automatic detection device for a cooking program of claim 8, wherein the top of the cooking seat has a rotary actuator, and the detection elements are distributed at equal angles on a circle with the rotary actuator as a center point and on the periphery of the rotary actuator.

10. The automatic detection device for conditioning programs according to claim 8 or 9, wherein a driving motor is arranged in the conditioning base, the controller is electrically connected with the driving motor, and the rotating speeds of the driving motors corresponding to the conditioning programs are different from each other.