GB2456045A - Control system for food blending apparatus - Google Patents

Abstract

A control method for a food blending apparatus to minimise the shaking of the device by controlling the speed of the motor (2, figure 2). A vibration detecting module (23, figure 2) detects the level of vibration and calculates an amended rotating speed for the motor (2, figure 2) that drives the apparatus, reducing the vibration level. The detection unit (23, figure 2) for sensing the vibration of the blender may comprise a bead (233, figure 2) suspended in a hollow body (231, figure 2), the vibration frequency being calculated from the frequency of the bead (233, figure 2) hitting the inner wall of the hollow body (231, figure 2).

Description

Food blending apparatus and method of control [0001] The present invention relates to a food blending apparatus and, more particularly, to a food blending apparatus whose motor speed can be manually controlled and the method of it.

[0002] People wish to select household appliances as light-weight, small-volume, easy-operated and multi-functioned.

[0003] But the existing food blending apparatus usually have big volume and must be placed on a table in using, they take a lot of space and are inconvenient to be carried.

Besides, the power of the prior food blending apparatus, adjusted by mm-max switches which restricted by the complex structures and the purpose of saving space only can provide 3-5 power stages for the general functions, such as fast speed *:*::* for crushing ice and slow speed for blending. That places restrictions on the S...

application of the food blending apparatus, and the users can not adjust the power *:* freely according to the different demand.

* [0004] Furthermore, it is very inconvenient that the user must choose the power by S...

additional actions during cooking food.

[0005]Therefore, the present invention provides a food blending apparatus with a control method of manual-controlled for providing multi-functioned food blending apparatus with simple and direct operations.

[0006] The primary purpose of this invention is to provide a food blending apparatus motor speed manual-controlled method to provide multiple functions according to different requirements for the users, to simplify the operations in food processing under multiple functions of the food blending apparatus.

[0007] The invention discloses a control method by shaking the food blending apparatus to control the motor speed of the food blending apparatus, the steps is as follows: (1) detecting whether the initial control signal input or not, herein said initial control signal is input by the user and then driving the motor; (2) calculating the shake frequency of food blending apparatus to obtain an amended speed according to the shake frequency; (3) adjusting the motor speed according to the amended speed, herein the food blending apparatus detects the shake frequency continuously when the to food blending apparatus is working and every detected shake frequency has a corresponding amended speed, and higher shake frequency corresponding to the higher amended speed, vice versa.

*:*::* [0008] The present invention comprising an input module, a control unit, a detecting * .** .*. module and a motor driving module. The input module is used for receiving the control i4 of the user to produce an initial control signal to drive the motor at a general speed.

**.*** * The control unit connected with the input module, detecting module and the motor **** *::: driving module, and controls the detecting module to detect the shake of the food blending apparatus continuously for controlling the motor to adjust the speed. The detecting module is used for recording the shake of the food blending apparatus and calculating the shake frequency; and the motor driving module is controlled by the control unit to adjust the motor speed.

[0009] The abovementioned description and a clear conception of the advantages and features constituting the present invention, and of the construction and operation of typical mechanisms provided with the present invention, will become more readily apparent by referring to the following detailed description and the accompanying drawings. These drawings depict only typical embodiments of the invention and are not therefore to be considered to be limiting of its scope.

[00101 Fig.1 is a perspective view of the assembled food blending apparatus of the present invention.

[0011] Fig.2 is an exploded view of the food blending apparatus of the present invention.

[00121 Fig.3 is a perspective view of the assembled food blending apparatus in another embodiment of the present invention.

[0013] Fig.4 is an exploded view of the food blending apparatus in another embodiment of the present invention.

i [0014] FIG.5A is a perspective view of the charger of the food blending apparatus of the

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*5**.* present invention.

::: [0015] FIG.5B is a perspective view of the assembled charger and the food blending apparatus of the present invention.

[0016] FIG.6 is a diagrammatic view of the structure of the food blending apparatus of the present invention; [0017] FIG.7 is a step flow diagram view of the control method for the food blending apparatus of the present invention Illustration for the main components: housing 1 handle 11 connecting portion 12 opening 121 slot 122 motor 2 output shaft 21 power 22 terminals 221 detecting module 23 hollow sphere 24 bead 233 cutter 3 base 31 shaft 32 blade 33 container 4 * *1* * ** container body 41 containing space 411 the first opening 412 the second opening 413 * ****** * flange 42 tenon 43 *** *::: cover44 cover body 441 filter cup 442 switch unit 5 safety switch 51 contacting switch 52 knob 53 mixer 6 base 61 tenon 62 stirring shaft 63 stirring blades 631 Charger 24 inserting portion 241 conducting portion 242 input module 601 control unit 603 detecting module 23 motor driving module 607 [00181 Referring to FIG.1 and FIG.2, they illustrate the assembled and exploded views of the food blending apparatus of the present invention, as the FIG.2 shows, the food io blending apparatus comprises a housing 1, a motor 2, a cutter 3, a container 4 and a switch unit 5, one end of the housing I formed a handle 11, the other end formed a connecting portion 12, the connecting portion 12 formed an opening 121 and has a slot 122, the slot 122 formed on the inner side of the flange of the opening 121. * ** I..

[0019] The said motor 2 mounted in the housing 1, and connected to a power 22 and a detecting module 23. The motor 2 connected to the outer shell via an output shaft 21, * **d. S * the power 22 used for providing power to the motor 2 is an electrical wire connecting to *: a socket or a rechargeable battery, in this embodiment, the power 22 is a rechargeable battery, the rechargeable battery mounted in the housing I and connected to the motor 2, the rechargeable battery has two terminals 221 and is cooperated with a charger (not shown in the figures) to electrify the rechargeable battery. The detecting module 23, connected with the motor 2, is used for detecting the shake and calculating a shake frequency, so as to change the motor speed according to the shake frequency. In this embodiment, a hollow sphere 231 and a bead 233 hung in the hollow sphere arranged in the detecting module 23, the shake frequency is calculated by the frequency recording of the bead 233 hitting the inner wall of the hollow sphere 231. The motor speed will increase or decrease according to the shake frequency.

[0020] The cutter 3 comprises a base 31, a shaft 32 and at least one blade 33. Herein the base 31 mounted in the opening 121 of the connecting portion 12 of the housing 1, the shaft 32 is through the base and pivotally connected to the base 31, one end of the shaft 32 sleeved with the output shaft of the motor 2 and link to each other, the other end of the shaft 32 connected with the blade 33 or the other cutting components.

[0021] The container 4 comprising a container body 41, a flange 42, a tenon 43 and a lid 44. Herein the container body 41 has a containing space 411 inside and a first opening 412 and a second opening 413. The flange 42 is a closed strip on one end of the container body 41, the outer diameter of the flange 42 is smaller than the outer * .5 * diameter of the container body 41, and the flange 42 can insert between the inner wall of the opening 121 of the connecting portion 12 of the housing 1 and the base 31 of the

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* cutter 3. The tenon 43 formed in the outer portion of the flange 42 and is corresponding S..

to the slot 122 of the connecting portion 12 of the housing 1. The cover 44 mounted on

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S S

the second opening 413 and cover the second opening 413, and the cover 44 comprising a filter cup 442 and a cover body 441, herein the cover body 441 superposition on the filter cup 442.

[0022] The container 4 detachably connected to the connecting portion 12 of the housing 1 via the first opening 412, the tenon 43 inserted in the slot 122 to open the safe switch 51, the flange 42 mesh with the cutter 3 to cover the first opening 412 of the container body 41, the blade 33 of the cutter 3 is in the containing space 411 and is near the first opening 412.

[0023] The switch unit 5 mounted on the housing 1 and connected to the motor 2 and the power 22, to control the start-up, stop or the speed of the motor 2, in this embodiment, the switch unit comprises a safety switch 51, a contacting switch 52 and a knob 53. Herein the safety switch 51 mounted in the slot 122 of the connecting portion 12 of the housing 1, when the container 4 mounted on the housing I correctly, i.e. the tenon 43 inserted in the slot 122, the safety switch 51 will be turned on; the contacting switch 52 and the knob 53 mounted on the handle 11 of the housing 1, herein the contacting switch 52 is opened if touched by the user, and the knob 53 is a flexible pick or a mm-max switch, the start and the speed can be selected by switching the switch.

Only when the safety switch 51, contacting switch 52 and the knob 53 are all opened, *::::* the motor 2 can begin to work.

[0024] By abovemenhioned structure of the present invention, when the cutter 3, the **.. S. * container 4 assembled on the housing 1, the user can hold the handle 11 of the housing ***.

1 to let the connecting portion 12 of the housing 1 towards up, thus the tenon 43 S. ** * S S S * inserted in the slot 122 to open the safety switch 51, only when the handle 11 hold by the user hand to open the contacting switch 52 and the user turn on the knob 53, the motor 2 can be started. And the user can open the lid 44 to add food or drink into the containing space 411 from the second opening 413, after the motor 2 being started, the food will be cut and mixed up by the rotating blades 33 in the container 411. Moreover, the user can place the cover 44 on the second opening 413 of the container body 41, and shake the food blending apparatus in the manner of using a shaker, when the detecting module 23 detected the shake occurrence and calculated the shake frequency, the motor speed will be adjusted according to the shake frequency, thus to provide food processing actions such as blending juice, cutting food, making cocktail.

etc. for the user. And the food will be cut and mixed sufficiently by blade 33 in the containing space 411.

[0025] Referring to FIG.3 and FIG.4, they illustrate another embodiment of the food blending apparatus of the invention. As shown in the FIG.4, in this embodiment, the cutter 3 and the container 4 are replaced by a mixer 6, the mixer 6 comprises a base 61, a tenon 62 and a stirring shaft 63. Herein the base 61 mounted in the opening 121 of the connecting portion 12 of the housing 1; the tenon 62 mounted on the base 61 and inserted in the slot 122 of the connecting portion of the housing 1( to open the safety *S..

" switch 51); the stirring shaft 63 is through the base 61 and one end of the shaft 63 is *.{5 sleeved with the output shaft 21 of the motor 2 and link to each other, while the other * end of the stirring shaft 63 is extending out the base 61 and has stirring blades 631. * S 555.

[00261 By the abovementioned structure in the embodiments, the user can hold the handle 11 of the housing 1 to let the connecting portion 12 of the housing 1 towards down, only when the safety switch 51 opened by the tenon 62 inserting into the slot 122, the contacting switch 52 opened by the handle 11 holding by the user, and the knob 53 also turned by the user, thus the motor 2 can be started to drive the stirring shaft 63 to provide mixing actions for the user. In addition, if the food blending apparatus shaken by the user, the detecting module 23 will detect the shake occurrence and calculate the shake frequency, then the speed of the motor 2 will be adjusted according to the shake frequency.

[0027] Referring to the FIG. 5A and FIG. 5B also, the corresponding exploded view shown in FIG.2. As shown in FIG.5A, the charger 24 has an inserting portion 241, the rechargeable battery can be charged via the electrical connection between a conducting portion 242 of the charger 24 and the two terminals 221 shown in FIG.2.

[0028] Referring to FIG.6, it illustrates the diagrammatic view of structure of the food blending apparatus of the invention. Herein the corresponding perspective view shown in the FIG.2 and FIG.4. As shown in FIG.6, the food blending apparatus comprises an input module 601, a control unit 603, a detecting module 23, a motor driving module 607. Herein the input module 101 used for receiving the control of the user to produce a *:*:: initial control signal, the initial control signal is to activate the food blending apparatus in *.S.

.... this embodiment, and the signal is produced by that the tenon 43, 62 inserting in the *. slot 122 to open the safety opening 51, the user holding the handle 11 to open the **S.s.

* contacting switch 52 and the user turning the knob 53, thus the electrify is connected to *... * ***S

produce the signal to make the motor 2 rotate in a routine speed. The control unit 603 is * S S * S connected among the input module 601, detecting module 23 and the motor driving module 607, after the control unit 603 received the initial control signal, the detecting module 23 will be driven to detect the shake occurrence continuously. The detecting module 23 used for recording the shake occurrence and calculating the shake frequency, and transport the shake frequency to the control unit 603. In this embodiment, a hollow sphere 231 and a bead 233 hung in the hollow sphere arranged in the detecting module 23, the shake frequency is calculated by the frequency recording of the bead 233 hitting the inner wall of the hollow sphere 231. Herein the hollow sphere 231 can also be a cube, a cylinder or anyone of polyhedrons. The controlling unit 603 then gained an amended speed according to the shake frequency, and the amended speed will be transported to the motor driving module 607 to adjust the speed of the motor 2 to be the amended speed.

[0029] Finally, to illustrate the operation of the invention, we can see the FIG.7 also, it shows the step flow diagram of the control method of the food blending apparatus of the invention. Herein the corresponding structures refer to the FIG.2, FIG.4 and FIG.6. As the FIG. 7 shows, the control method comprising the following steps: [0030] Firstly, detect if there is an initial control signal input (step s701), herein the signal is produced by that the tenon 43, 62 inserting in the slot 122 to open the safety opening 51, the user holding the handle 11 to open the contacting switch 52 and the *.1s user turning the knob 53, thus the electrify is connected to produce the initial control * S S...

* signal, if the judgment of the step s701 is yes, then the motor 2 will rotate in a routine * S..

speed (step s702).

[00311 After that, if the detecting module 23 detected a shake occurrence, then a shake frequency will be calculated out (step s703); the control unit 603 will gained an amended speed after being received the shake frequency (step s705), then the control unit 603 will transport the amended speed to the motor driving module 607 to adjust the speed of motor 2 to be the amended speed (step s707).

[0032] Finally, estimate whether the use of the food blending apparatus is finished (step s709). If still in use, then return to step s703, i.e. detected the shake frequency continuously, and adjust the speed of motor 2 to be the amended speed according to S the shake frequency each time, these steps continued till the use finished. Herein if anyone of the safety switch 51, the contacting switch 52 or the knob 53 is closed, the use will be considered of being finished, i.e. if anyone of the following conditions happened: the tenon 43, 62 not inserted in the slot 122 correctly, the user loosen the handle 11 or the switch 53 turned on the closed position, then the power will be cut and the motor 2 will stop.

[0033] After the food blending apparatus received the initial control signal, the motor will rotate at a routine speed, then the motor speed of can be increased or decreased . by the shake frequency, the highest speed, for example, is 15000 RPM, the lowest * *. * ***

speed, for example, is 8000 RPM.

*4 [0034] The said knob 53 is a flexible pick or a mm-max switch to provide slow, middle, S....

* fast speeds for the user, after received the initial control signal, the user can set a * S.. * *

needed speed, and the motor 2 will rotate in a routine speed according to the set speed, if a slow speed selected, the routine speed will be lower, vice versa. Then the motor speed will be increased or decreased according to the shake frequency under different routine speed, foe example, if a slow speed is set by the user, the routine speed is 8000 RPM, when the shake frequency is 10 times/minute, the motor 2 speed will increased to 10000 RPM; if a fast speed is set by the user, the routine speed is 12000 RPM, when

II

the shake frequency is 10 times/minute also, the motor 2 speed will increased to 14000 RPM. Thus the motor 2 speed is adjusted by the routine speed of the mm-max switch and by the adjusting of the shake frequency.

[0035] The food blending apparatus and the method of control had been disclosed in the detailed description of the abovementioned embodiments, the motor speed is adjusted by shake the food blending apparatus and accumulating the shake frequency, the higher shake frequency, the higher motor speed; the lower shake frequency, the lower motor speed. The user need not adjust the motor speed with additional switch such as mm-max switch, thus simplified the procedure of the operation for the food blending apparatus.

[0036] Moreover, in the present invention, by that the tenon of the container body or the tenon of the mixer inserting in the slot of the connecting portion of the housing to open the safety switch, the user holding the handle of the housing to start the contacting S...

switch and the user turning or switching the knob, the motor can be started-up, thus it can avoid that the motor still rotate when the cutter is exposed, or avoid that the motor *SS...

* still rotate when the handle 11 of the housing 1 is not hold by the user, to meet the S...

* safety code. And different components such as the cutter or the mixer can be provided in the invention to provide multiple functions of food blending apparatus and electrical mixer.

[0037] From the foregoing it will be appreciated that, although specific embodiments of the invention have been described herein for purposes of illustration, various modifications may be made without deviating from the spirit and scope of the invention as defined by the appended claims. * ** * * * * ** * I III. *. I * * I * *I

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I..... * S I... * S S... *. S. * I I * S

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Claims (18)

1. What is claimed is: 1. A control method of adjusting the motor speed for a food blending apparatus comprising: (1) calculating a shake frequency; (2) obtaining an amended speed according to the shake frequency; (3) adjusting the motor speed corresponding to the amended speed.
2. 2. The control method according to claim 1, wherein the food blending apparatus has a detecting module for detecting the shake of the food blending apparatus, wherein the detecting module comprises a hollow body and a bead hung in the hollow body, wherein said shake frequency is calculated by the frequency of the bead hitting the inner wall of the hollow body. * * * S S * *. ***.
3. 3. The control method according to claim 1, wherein the food blending apparatus S.:15 further comprises a switch, wherein the motor speed can be adjusted by said switch.

   *.SS.*S * S * S.. * .
4. 4. The control method according to claim 3, wherein the motor speed is adjusted * . S corresponding to the amended speed by the switching of said switch.
5. 5. The control method according to claim 2, wherein said hollow body is a sphere, cube, cylinder or a polyhedron. IL4
6. 6. The control method according to claim 1, wherein the food blending apparatus is started by inputting a initial control signal into the food blending apparatus.
7. 7. The control method according to claim 6, wherein the initial control signal is generated by at least one tenon inserted into a slot to start the initial control signal.
8. 8. A food blending apparartus capable of controlling the motor speed comprising: a control module used for the speed adjusting control of the motor; a detecting module connected to the control module to detect the shake of the food blending apparatus; a motor driving module connected to the control module; wherein said control module controls the detecting module to record and calculate a shake frequency and the control module controls the motor driving module to adjust the * *s.

   ,* motor speed according to the shake frequency. ** I * S *

   S *S...

   *
9. 9. The food blending apparatus according to claim 8 further comprising: ***.

   a housing, wherein one end of the housing forms a handle and the other end forms os S. S * S a connecting portion; an outer component connected with said connecting portion and said motor and interacting with said motor.

   at least one power switch located on the housing, said power switch electrically connected to the motor.
10. 10. The food blending apparatus according to claim 8, wherein said control module gains an amended speed according to the shake frequency and controls said motor driving device to adjust the motor speed to be the amended speed.
11. 11. The food blending apparatus according to claim 8, wherein the detecting module comprises a hollow body and a bead hung in the hollow body, and calculates the shake frequency according to the frequency of the bead hilling on the inner wall of the hollow body. I0
12. 12. The food blending apparatus according to claim 8, wherein said motor connects to a power source.
13. 13. The food blending apparatus according to claim 9, wherein the outer component is * * * S * 15 a mixer. ****

    S ** * * * S * S.

    *....
14. 14. The food blending apparatus according to claim 13, wherein the mixer comprises a

    S

    *.*. stirring shaft and stirring blades mounted on one end of said stirring shaft. *SSS S. ** * . S

    S
15. 15. The food blending apparatus according to claim 9, wherein the outer component is a cutting device. I',
16. 16. The food blending apparatus according to claim 15, wherein the cutting device comprising a cutter and a container.
17. 17. The food blending apparatus according to claim 8 further comprising an input module for producing a initial control signal to the control module to drive the motor, wherein the initial control signal is generated by toughing the handle and turning on the switch.
18. 18. The food blending apparatus according to claim 12, wherein said power is a conducting wire connecting to a socket or a rechargeable battery. * S * * ** S * *S ** * * * * * ** *

    S.....

    I * * *I.. *I * * I S *