CN107148234B - Electronic conditioner - Google Patents
Electronic conditioner Download PDFInfo
- Publication number
- CN107148234B CN107148234B CN201580059878.5A CN201580059878A CN107148234B CN 107148234 B CN107148234 B CN 107148234B CN 201580059878 A CN201580059878 A CN 201580059878A CN 107148234 B CN107148234 B CN 107148234B
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- China
- Prior art keywords
- food materials
- container
- spray nozzle
- lid
- nozzle part
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J43/00—Implements for preparing or holding food, not provided for in other groups of this subclass
- A47J43/04—Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven
- A47J43/046—Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven with tools driven from the bottom side
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J43/00—Implements for preparing or holding food, not provided for in other groups of this subclass
- A47J43/04—Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven
- A47J43/07—Parts or details, e.g. mixing tools, whipping tools
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Food Science & Technology (AREA)
- Food-Manufacturing Devices (AREA)
- Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
- General Preparation And Processing Of Foods (AREA)
- Crushing And Pulverization Processes (AREA)
Abstract
The present invention provides a kind of electronic conditioner (1), by acting suction section (45) while being detected using food materials shred test section (11), and it can not only prevent nutritional ingredient from reducing because of food materials oxidation, but also food materials shred can be prevented to be sucked into suction section (45).Electronic conditioner (1) has: container (2);Improve the conditioning component (3) for the food materials being housed in container (2);It is interior to be equipped with driving portion (44) and suction section (45), and for ontology (4) that container (2) is loaded in a manner of it can freely assemble and disassemble;Lid (5) with prominent spray nozzle part (51a);Detect the food materials shred test section (11) that the flowing towards prominent spray nozzle part (51a) is formed by by food materials shred;And the testing result according to food materials shred test section (11), and control the control unit (13) of the movement of driving portion (44) and suction section (45), control unit (13) is detected in food materials shred test section (11) towards the case where the flowing of the food materials shred of prominent spray nozzle part (51a), at least stops the movement of suction section (45).
Description
Technical field
The present invention relates to electronic conditioners.
Background technique
The electronic conditioner noted has: producing fruit and vegetable juice from the food materials such as fruit and vegetables (hereinafter referred to as food materials)
(juice) food of the conditioning other than the fruit and vegetable juice of juicer (juicer) and the preparation for various cookings etc.
Processor (food processor) etc..Electronic regulating appliance has: the container that accommodates food materials, the conditioning set on the bottom of container
The ontology of component and the interior drive motor for being equipped with driving conditioning component, and by the way that the container for containing food materials is attached to ontology
On, then make to improve component rotation by drive motor, and carry out that food materials the various tune such as cut to, crush, stir in container
Reason (hereinafter referred to as improves).Such electronic conditioner has food materials and mixes with air oxidation in conditioning and nutritional ingredient is caused to subtract
Few problem, has done in-depth study (patent document 1) in order to solve this problem in recent years.
For example, a kind of electronic conditioner 100 is disclosed in patent document 2 (noting example), and as shown in figure 14, this electronic conditioning
Device 100 is covering receiving using the internal lid 115 for being equipped with air-breathing means 116 (with switching valve 120 and suction pump 116a)
There is the container 160 of food materials (non-icon), and forms hypoxia using suction pump 116a come the air in aspiration container 160
Afterwards, the switching of switching valve 120 is cut into food materials using cutter (cutter) 190, to prevent nutritional ingredient from reducing because of food materials oxidation.
[existing technical literature]
(patent document)
(patent document 1) Japanese Unexamined Patent Publication 2014-73276 bulletin
(patent document 2) Japanese Unexamined Patent Publication 2008-206907 bulletin.
Summary of the invention
(the invention project to be solved)
However, in the revealed electronic conditioner 100 of patent document 2, because the air in container 160 flows directly into pumping
In sucking pump 116a, so having following possibilities in the movement of suction pump 116a: through the conditioned food materials fine crushing of cutter 190,
Water droplet, foam and the water droplet being attached in container 160 before conditioning generated in conditioning gasifies the food of vapor to be formed etc.
Material shred (hereinafter referred to as food materials shred) (non-icon) is sucked into suction pump 116a, and suction pump 116a is made to go wrong.
The present invention is complete winner in view of the project, provides a kind of electronic conditioner, which can one
While detect food materials shred using food materials shred test section when acting suction section, make to become in container hypoxia on one side and
Food materials are improved, thus can not only prevent nutritional ingredient from reducing because of food materials oxidation, but also food materials shred can be prevented to be sucked into pumping
In suction portion, and improve the durability of suction section.
(means to solve the problem)
The first aspect completed in order to solve the problem is a kind of electronic conditioner, is had: container, at least
There is opening in one end, accommodates food materials;Component is improved, in a rotatable manner container described in axis Zhi Yu, conditioning is housed in described
The food materials of container;Ontology, it is interior to be equipped with the driving portion for driving the conditioning component and aspirate the air in the container
Suction section, and loaded in a manner of it can freely assemble and disassemble for the container;Lid has as the suction for leading to the suction section
The protrusion spray nozzle part of mouth, and it is embedded in the open end of the container;Food materials shred test section, detects by described
Improve the flowing that the food materials shred generated in the conditioning of component is formed by the past prominent spray nozzle part;And control unit, according to
According to the testing result of the food materials shred test section, and control the movement of the driving portion and the suction section;Wherein, described
Shake closing valve is formed in lid, which closes valve and closing the detent position of the prominent spray nozzle part and leaving described prominent
Leaving for delivery nozzle portion is shaken between position, closes the prominent spray nozzle part according to the state in the container;The control
Valve is closed by the shake and is detected toward the detent position movement in the food materials shred test section toward the protrusion in portion
The case where flowing of the food materials shred of spray nozzle part, at least stop the movement of the suction section.
According to the first aspect, on one side make suction section act when using food materials shred test section detect food materials shred, one
While making to become hypoxia in container and improve food materials, thus it can not only prevent nutritional ingredient from reducing because of food materials oxidation, but also
Food materials shred can be prevented to be sucked into suction section, and improve the durability of suction section.
Second aspect is the electronic conditioner of the first aspect, wherein the lid includes upside lid, is formed with described
Prominent spray nozzle part;Valve is closed in the shake;And downside lid, it is chimeric with the open end of the container, and there is receiving
The closing valve receiving portion for shaking closing valve;The bottom surface of the closing valve receiving portion is formed using multiple ribs, and described
The upper surface of rib, which is formed with, supports the support protrusion for shaking closing valve.
According to the second aspect, shaken between position by making to shake closing valve in detent position and leaving, so that it may in container
It is interior generate a large amount of food materials shred (especially foam) and rise towards prominent spray nozzle part when, will be shaken using food materials shred
Closing valve up pushes up and is moved into detent position, and food materials shred is prevented to be flowed into prominent spray nozzle part.
Third aspect is the electronic conditioner of the first aspect or the second aspect, wherein the food materials shred test section detection
Pressure in the container, the control unit close valve toward described in the detent position movement and generation from the shake
The pressure detected of food materials shred test section changes to detect the food materials shred toward the prominent spray nozzle part
Flowing, and at least stop the movement of the suction section.
According to third aspect, by determining abnormality using the pressure detected by food materials shred test section
Stop the movement of suction section, therefore the flowing of the food materials shred flowed into toward prominent spray nozzle part can be limited.In addition, according to third state
Sample, since abnormality can be determined merely with pressure detected by food materials shred test section, so can be used resistance
The pressure sensor of electrical signal is converted to as food materials shred test section, and the manufacturing cost of electronic conditioner can be lowered.
(The effect of invention)
The present invention is complete winner in view of the project, it is possible to provide a kind of electronic conditioner, which can
Food materials shred is detected using food materials shred test section when acting suction section on one side, makes to become hypoxia in container on one side
And food materials are improved, thus can not only prevent nutritional ingredient from reducing because of food materials oxidation, but also food materials shred can be prevented to be drawn onto pumping
In suction portion, and improve the durability of suction section.
Detailed description of the invention
Fig. 1 is the oblique view of the electronic conditioner of first embodiment.
Fig. 2 is that seen cross-section diagram is cut off with the line A-A in Fig. 1.
Fig. 3 A is by the enlarged drawing of the part B amplification in Fig. 2.
Fig. 3 B is to close valve for the enlarged drawing when prominent spray nozzle part closing using shake in Fig. 3 A.
Fig. 4 is the oblique view for showing the lid in the electronic conditioner of Fig. 1.
Fig. 5 is the expanded view that the lid of Fig. 4 is unfolded.
Fig. 6 is the oblique view for showing the shake closing valve in Fig. 5.
Fig. 7 is the expanded view that the shake closing valve of Fig. 6 is unfolded.
Fig. 8 is the oblique view for showing the downside lid in Fig. 5.
Fig. 9 is the control flow chart for showing the determination method of the abnormality in the electronic conditioner of Fig. 1.
Figure 10 is the control flow chart for showing the conditioning movement of the electronic conditioner of Fig. 1.
Figure 11 is the broad cross-section map of the electronic conditioner of second embodiment.
Figure 12 is the broad cross-section map of the electronic conditioner of 3rd embodiment.
Figure 13 is the broad cross-section map of the electronic conditioner of fourth embodiment.
Figure 14 is the cross-section diagram for noting the electronic conditioner of example.
Primary clustering symbol description
1,1 ', 1 ", 1 " ' electronic conditioner
11 pressure detecting portions (food materials shred test section)
12 operation inputting parts
13,13 ', 13 ", 13 " ' control unit
14 temperature detecting parts (food materials shred test section)
2 containers
21 vessels
21a handle
22 container base stations
22a insertion hole
22b base station fitting portion
22c base station screws togather groove
23 containment members
3 conditioning components
31 container side drive shafts
32 container side transfer parts
4 ontologies
41 horizontal bases
42,42 ' vertical base
42a fitting projection
42b test section (food materials shred test section)
43,43 ', 43 " rotating junction
43a switching member
43b engagement pawl
43c bent nozzle portion
43d containment member
43e optical sensor (food materials shred test section)
43f light-projecting portion
43g acceptance part
44 driving portions
44a drive shaft
44b driving side transfer part
45 suction sections
46 snorkels
5,5 ', 5 ", 5 " ' lid
51,51 ', 51 ", 51 " ' upside lid
51a protrudes spray nozzle part
51b guide surface
51c engages groove
The periphery 51d wall surface
Hole is inserted into 51e lid side
51f accommodating recess
52 shake closing valve
53 shake closing valve body
53a curved protrusion
53b embedded hole
The inclined surface 53c
54 containment members
54a mosaic process
55,55 ', 55 ", 55 " ' downside lid
55a, 55a ' closing valve receiving portion
Protrusion above 55b
Protrusion below 55c
55d rib
55e supports protrusion
55f gas vent
55g, 55g ', 55g " food materials shred receiving portion
55h surrounds wall
55i upper extension
55j is connected to vent passage
55h extends isolating part.
Specific embodiment
(first embodiment)
Hereinafter, being explained with reference to the electronic conditioner 1 of the first embodiment of the present invention.
Fig. 1 is the oblique view of the electronic conditioner 1 of first embodiment, and Fig. 2 is seen disconnected with the line A-A cutting in Fig. 1
Face figure, Fig. 3 A are by the enlarged drawing of the part B amplification in Fig. 2, and Fig. 3 B is will prominent spray nozzle part using shake closing valve in Fig. 3 A
Enlarged drawing when closing, Fig. 4 are the oblique view for showing the lid 5 in the electronic conditioner 1 of Fig. 1, and Fig. 5 is by the lid 5 of Fig. 4
The expanded view being unfolded, Fig. 6 are the oblique view for showing the shake closing valve 52 in Fig. 5, and Fig. 7 is that valve is closed in the shake of Fig. 6
52 expanded views being unfolded, Fig. 8 are the oblique view for showing the downside lid 55 in Fig. 5.
In addition, the length direction of electronic conditioner 1 is set as x-axis, the width direction of electronic conditioner 1 is set as y-axis, it will
The short transverse of electronic conditioner 1 is set as z-axis.
As shown in Figures 1 and 2, quotation mark 1 is the electronic conditioner of the present embodiment.Electronic conditioner 1 has: at least
There is opening in one end, accommodates the container 2 of food materials (non-icon);Axis branch is received in the bottom in container 2, conditioning in a rotatable manner
Hold the conditioning component 3 of the food materials in container 2;The ontology 4 loaded in a manner of it can freely assemble and disassemble for container 2;And sealing is held
The lid 5 of the open end of device 2.In addition, electronic conditioner 1 is also equipped with: the pressure detecting portion of equal pressure in detection container 2
11 (food materials shred test sections);For inputting the operation inputting part 12 of the various operation inputs from user;Memory utilizes operation
The memory portion (non-icon) of the various action modes for the electronic conditioner 1 that input unit 12 inputs;Measure the movement of electronic conditioner 1
The time measurement unit (non-icon) of time;And the measurement time according to the input information of operation inputting part 12, time measurement unit
And testing result of pressure detecting portion 11 etc., and control the control unit 13 of all movements of electronic conditioner 1.
As shown in Figures 1 and 2, container 2 include be formed as more more widened shape upwards vessel 21, with
And airtightly it is screwed together in the container base station 22 of the lower part of vessel 21.Vessel 21 is by for example transparent resin material or glass
Glass etc. is constituted, and recognizable inside is formed as.But, vessel 21 can also be formed by stainless steel and other metal materials.Hold
Device base station 22 is made of such as resin material etc..
As shown in Figures 1 and 2, vessel 21 is formed with handle 21a in side.Container base station 22 is formed as making central portion
And outer peripheral edge portion protrusion, and the insertion hole 22a inserted for aftermentioned container side drive shaft 31 is formed in central portion, in outer peripheral edge
Portion is formed with the base station fitting portion 22b extended downward.In addition, being screwed togather in the base station being formed between central portion and outer peripheral edge portion
In groove 22c, contain the containment member 23 being made of rubber elastomeric material, and the lower end for screwing togather vessel 21 it
Border makes vessel 21 and container base station 22 do airtight connection.
As shown in Figures 1 and 2, conditioning component 3 is from such as more to periphery more upwards curved curved edges and more outside
Week, more curved curved edges were formed downwards, and were formed as that the food materials accommodated in container 2 can be contradicted really.Improve component 3
In container side, one end of drive shaft 31 is supported on the shaft on the bottom in container 2 in a rotatable manner.The drive shaft 31 in container side
The other end is formed with container side transfer part 32, and the end face of this container side transfer part 32 is formed as wavy.For improving component 3,
For example, cut cutter component, the crushing member by food materials slightly crush, the slice structure for thinly cutting food materials of food materials
Part, the blistering component for making food materials blister etc..
As shown in Figures 1 and 2, ontology 4 includes horizontal base 41 extending to the horizontal direction, after horizontal base 41
The rotation on the vertical base 42 that is just vertically raised and the top that cardinal extremity is mounted on to vertical base 42 in a rotatable manner
Interconnecting piece 43.Ontology 4 is made of such as stainless steel and other metal materials or resin material etc..
As shown in Figures 1 and 2, the upper surface of horizontal base 41 be formed with it is chimeric with base station fitting portion 22b phase be fitted into it is convex
Portion 42a, and be formed as assembling and disassembling container base station 22 can freely.
In the front end side of rotating junction 43, it is formed with the engagement pawl for interlocking and acting with operation driving lever (lever) 43a
43b.Engagement pawl 43b is formed as the operation done according to user for operation driving lever 43a, and after engagement pawl 43b is sticked in
It is acted between the non-engagement position that the clamped position and engagement pawl 43b of the protrusion spray nozzle part 51a stated does not engage.In addition, rotating
The front end side of interconnecting piece 43 is also formed with the bent nozzle portion 43c for making vent passage bend to L-shaped, and in this bent nozzle portion
The end face of the side engagement pawl 43b of 43c, is formed with the containment member 43d being made of such as rubber elastomeric material.
In addition, in the inside of ontology 4, as shown in Fig. 2, being equipped with: the driving portion 44 of driving conditioning component 3;In aspiration container 2
Air suction section 45;And one end is connected to bent nozzle portion 43c, and the other end is connected to the snorkel of suction section 45
46.Driving portion 44 is to be formed with driving side transfer part 44b such as motor, and in the end of the drive shaft 44a of driving portion 44, this
Driving side transfer part 44b is formed as wavy to be meshed with container side transfer part 32.Suction section 45 is, for example, vacuum pump etc., ventilation
Pipe 46 is by for example having the fluororesin of retractility, silicone resin or polyvinyl chloride etc. to be constituted.
As shown in Figures 2 to 5, lid 5 includes connection rotating junction 43, and is formed with as leading to suction section 45
The upside lid 51 of the protrusion spray nozzle part 51a of pump orifice;It (is hereinafter referred to as closed in the detent position for closing prominent spray nozzle part 51a
Position) it (Fig. 3 B) and leaves leaving for prominent spray nozzle part 51a and is shaken between position (hereinafter referred to as leaving position) (Fig. 3 A), foundation
State in container 2 and the shake closing valve 52 for closing prominent spray nozzle part 51a;And closing valve 52, and and container are shaken in receiving
The chimeric downside lid 55 of the open end of ontology 21.Lid 5 is made of such as resin material.
As shown in Fig. 2, Fig. 4 and Fig. 5, prominent spray nozzle part 51a is formed from centre and protrudes upwards, and is formed in downside
More downwards more widened guide surface 51b, and it is formed on the outer periphery the engaging groove 51c for engagement pawl 43b engaging.It is rotating
When interconnecting piece 43 is connect with upside lid 51, engagement pawl 43b can be sticked in engaging groove 51c, and make rotating junction 43 and
Lid 51 phase in upside is fixed and is integrally formed.Also, being formed in the outer peripheral edge portion of upside lid 51 towards the outer of up and down direction extension
Peripheral wall surfaces 51d.
As shown in Fig. 2, Fig. 5, Fig. 6 and Fig. 7, shakes closing valve 52 and include the shake closing valve for being formed with curved protrusion 53a
Ontology 53;And it is fitted into the upper surface of curved protrusion 53a, the containment member 54 being made of rubber elastomeric material.Sealing
Component 54 is fitted into the mosaic process 54a for being formed in its lower surface to the embedded hole 53b of containment member 54, and closes valve with shaking
53 phase of ontology is fixed and is integrally formed.
Herein, curved protrusion 53a is formed as making its center to be bent upwards, and by its upper surface with 51b pairs of guide surface
The inclined surface 53c answered is formed.Be made up of this, the electronic conditioner 1 of the present embodiment because food materials shred (non-icon) etc. and
When being pushed upwardly shake closing valve 52, it can will shake closing valve 52 and swimmingly be directed to detent position (Fig. 3 B).
As shown in Fig. 2, Fig. 5 and Fig. 8, downside lid 55 includes the closing valve receiving portion 55a that closing valve 52 is shaken in receiving;
The top protrusion 55b being formed in around closing valve receiving portion 55a;And it is formed in around closing valve receiving portion 55a
Lower section protrusion 55c.Top protrusion 55b is threaded onto the lower part of periphery wall surface 51d, makes downside lid 55 and 51 phase of upside lid
It fixes and is integrally formed.In addition, the bottom surface of closing valve receiving portion 55a is formed using multiple circular rib (rib) 55d, and
The support protrusion 55e for supporting to shake closing valve 52 is formed in the upper surface of rib 55d.In addition, closing valve receiving portion 55a's
The periphery of bottom surface is formed with the gas vent 55f being discharged into the air in container 2 outside container 2.
It is made up of this, the electronic conditioner 1 of the present embodiment utilizes the support protrusion for being formed in the upper surface of rib 55d
55e closes valve 52 to support to shake, and when shake closing valve 52 as shown in Figure 3A is positioned away from position, it is closed shaking
Space is formed between valve 52 and the bottom surface for closing valve receiving portion 55a, to ensure the vent passage from container 2 to suction section 45, and can
Really the air in 45 aspiration container 2 of suction section is utilized.
In addition, the electronic conditioner of the present embodiment 1 is supported to shake closing valve 52 using protrusion 55e is supported, and make to shake
The bottom surface of dynamic closing valve 52 becomes rib construction, thus when generating a large amount of food materials shred in container 2, it can be by food materials shred
The bottom surface for shaking closing valve 52 is pushed up and is moved into detent position shown in Fig. 3 B.Specifically, the present embodiment
When electronic conditioner 1 can generate a large amount of food materials shred (especially foam) in container 2 and rise towards lid 5, by
The foam will shake closing valve 52 and push up, and close prominent spray nozzle part 51a as shown in Figure 3B, and food materials shred is prevented to be flowed into
In prominent spray nozzle part 51a.
As shown in Fig. 2, pressure detecting portion 11 for example, pressure sensor etc., and the midway being located in snorkel 46.Pressure
Test section 11 detects the pressure in container 2 by snorkel 46 with predetermined distance and (hereinafter referred to as detects detection pressure
Pressure) it is sent to control unit 13.
Operation inputting part 12 receives the various operation inputs from user, and input information is sent to control unit 13.
Operation inputting part 12 is as shown in Fig. 2, be set to the front side of such as horizontal base 41.
Memory portion is such as HDD (Hard Disk Drive, hard drives), memory (memory) or RAM
(Random Access Memory, random access memory) etc. remembers various conditioning modes (such as the vacuum of electronic conditioner 1
Conditioning action mode (will be located at set pressure in container 2 and utilize the mode that component 3 improves food materials that improves), vacuum save dynamic
Operation mode (set pressure will be located in container 2 and save the mode of food materials and food materials shred) etc.).In memory portion, with
When and memory corresponding from the input information of operation inputting part 12 has the setting for making to improve the movement of component 3 in various conditioning modes
Between (hereinafter referred to as setting time), make to improve setting velocity of rotation (hereinafter referred to as setting velocity of rotation) that component 3 rotates and
Setting pressure (hereinafter referred to as setting pressure) in the container 2 in the movement of conditioning component 3 etc..
Time measurement unit is the time to be measured after the movement of suction section 45 starts, and will measurement such as measuring timer
Time is sent to control unit 13.This time measurement unit measures the actuation time of suction section 45 and the driving time of driving portion 44.
As shown in Fig. 2, control unit 13 is, for example, CPU (Central Processing Unit, central processing unit) etc.,
And it is electrically connected with driving portion 44, suction section 45, pressure detecting portion 11, operation inputting part 12, time measurement unit and memory portion.This
Control unit 13 controls driving portion according to setting time, setting pressure, setting velocity of rotation, measurement time and detection pressure etc.
44 and suction section 45 movement.Specifically, control unit 13 is when obtaining input information from operation inputting part 12, just from note
Recall portion and obtains information (setting time, setting velocity of rotation, setting pressure in relation to conditioning mode corresponding with the input information
Deng), and driving portion 44 and suction section are made according to the information of the acquirement (setting time, setting velocity of rotation, setting pressure etc.)
45 movements.In addition, control unit 13 combines, aftermentioned environmental pressure determines and aftermentioned average differential pressure determines, to determine exception
Then state stops the movement of suction section 45.
In addition, so-called abnormality, refers to and carries out in suction action in suction section 45, because of the food generated in container 2
Material shred (especially foam) and make shake closing valve 52 be pushed upwardly, and make shake closing valve 52 from Fig. 3 A leave position move
It moves the state of the detent position of Fig. 3 B or has the state occurred toward the flowing of prominent spray nozzle part 51a formed from food materials shred.
As described above, the electronic conditioner 1 of the present embodiment makes setting pressure in container 2, conditioning according to conditioning mode
The setting velocity of rotation and setting time of component 3 change, thus the food materials that accommodated in container 2 can be carried out being suitble to various conditionings
The conditioning of mode.
Then, for determination method (the environment pressure of the abnormality of the control unit 13 in the electronic conditioner 1 of the present embodiment
Power determines and average differential pressure determines) it is illustrated.As primary condition, it is set as the container 2 for containing food materials being installed up to this
Body 4, and driving side transfer part 44b is made to be meshed with container side transfer part 32, and the driving force of driving portion 44 can be made to be transferred to tune
Manage the state of component 3.In addition, being fitted into lid 5 to the open end of ontology 4, and engagement pawl 43b is made to be sticked in prominent spray nozzle part
51a fixes rotating junction 43 with 5 phase of lid and is integrally formed.
Fig. 9 is the control flow chart for showing the determination method of the abnormality in the electronic conditioner 1 of Fig. 1.
<environmental pressure judgement>
Control unit 13 detects detection pressure using pressure detecting portion 11 before the movement of suction section 45 starts and is made
For initiation pressure Pstart, and by limit pressure PlimitIt is set as 0 (STEP1,2,3).Control unit 13 makes the movement of suction section 45
When, the average value of received multiple detection pressure in given time (a (s)) is just calculated, and calculate pressure mean values Pm(0)
(STEP 4 is "Yes" and STEP 5).Similarly, control unit 13 calculates received in next given time (a (s))
The average value of multiple detection pressure, and calculate next pressure mean values Pm(1)(STEP 6)。
Control unit 13 is from pressure mean values Pm(0)Subtract next pressure mean values Pm(1), and calculate average differential pressure Pd(0’)
(STEP 7).As calculating average differential pressure Pd(0’)When, control unit 13 is just by relative pressure (by standard atmospheric pressure Po(101.3kPa)
Divided by initiation pressure PstartGained person) multiplied by average differential pressure Pd(0’), and calculate opposite average differential pressure Pd(0)(STEP 8).Control
Portion 13 processed determines this with respect to average differential pressure Pd(0)Whether (STEP 9) bigger than 1kPa.
Control unit 13 is being determined as opposite average differential pressure Pd(0)When less than or equal to 1kPa, just calculated once again in given time
The pressure mean values (STEP 9 be "No" and STEP 5) of received multiple detection pressure, then repeatedly 6,7,8 and 9 STEP
Processing.In addition, control unit 13 is being determined as opposite average differential pressure Pd(0)When greater than 1kPa, next mean pressure is entered
Power difference determines (STEP 9 is "Yes").
<average differential pressure judgement>
Control unit 13 is being determined as opposite average differential pressure Pd(0)When greater than 1kPa, just calculate once again in given time (a
(s)) average value of received multiple detection pressure in, and as pressure mean values (Pm(n)) (STEP 9 be "Yes" with
And STEP 10).Control unit 13 equally calculates being averaged in next given time (a (s)) received multiple detection pressure
Value, and as next pressure mean values (Pm(n+1))(STEP 11)。
Control unit 13 is from pressure mean values (Pm(n)) subtract next pressure mean values (Pm(n+1)), and calculate average pressure
Poor Pd(n)(STEP 12).Control unit 13 is for the initial opposite average differential pressure P that calculates in environmental pressure determinesd(0)Multiplied by
Threshold value (such as threshold value=4) and pressure mean values (Pm(n)), and divided by standard atmospheric pressure Po, and calculate limit pressure
Plimit(STEP 13).Control unit 13 determines this limit pressure P calculatedlimitWhether than average differential pressure Pd(n)Small (STEP
14)。
It is determined as limit pressure P in control unit 13limitThan average differential pressure Pd(n)When big, just calculated once again by control unit 13
Received multiple average values for detecting pressure in given time (a (s)) out, and set it to pressure mean values (STEP
14 be "No" and STEP 10), the then repeatedly processing of STEP 11,12,13 and 14.It is determined as limiting pressure in control unit 13
Value PlimitLess than or equal to average differential pressure Pd(n)When, then control unit 13 just stops the suction action of suction section 45, and terminates different
The judgement of normal state (STEP 14 is "Yes" and STEP 15,16).
Since the electronic conditioner 1 of the present embodiment determines abnormal shape using only the detection pressure from pressure detecting portion 11
State, so even if only with resistance to be converted to the case where pressure sensor of electrical signal is as pressure detecting portion 11,
Abnormality can also be detected positively out.
The electronic conditioner 1 of the present embodiment detects the pressure in container 2 using pressure detecting portion 11 to determine exception
Then state stops driving portion 44, thus can the flowing of the food materials shred toward prominent spray nozzle part 51a flow into snorkel 46 it
The preceding flowing for limiting the food materials shred flows into.
The electronic conditioner 1 of the present embodiment also determines comprising environmental pressure to determine abnormality, therefore can will be due to ring
Pressure difference caused by the factor of border (such as pressure difference due to caused by the difference of height of field of employment) is also taken into consideration to be determined
Abnormality.
In addition, the electronic conditioner 1 of the present embodiment carries out environmental pressure judgement before average differential pressure judgement, therefore can
The case where will being clearly not abnormality (noise), excludes, and promptly carries out abnormal state determination.
Even if in addition, the shape being difficult to detect by that the electronic conditioner 1 of the present embodiment usually changes etc in barometric gradient
In state, also limit pressure P can be compared by control unit 13limitWith average differential pressure Pd(n)Abnormality is determined, so can
Correctly determine abnormality.That is, the electronic conditioner 1 of the present embodiment is using the detection pressure for utilizing pressure detecting portion 11
And the limit pressure P calculatedlimitAnd average differential pressure Pd(n)Deng and can correctly be determined.
Also, the determination method of the abnormality of control unit 13, improves action mode in vacuum and vacuum is saved and moved
It is all suitable in operation mode the two.
Then, it is illustrated for the conditioning movement of the electronic conditioner 1 of the present embodiment.As primary condition, be set as by
The container 2 for containing food materials is installed up to ontology 4, and driving side transfer part 44b is made to be meshed with container side transfer part 32, and can make
The driving force of driving portion 44 is transferred to the state of conditioning component 3.In addition, being fitted into lid 5 to the open end of ontology 4, and make
Engagement pawl 43b is sticked in prominent spray nozzle part 51a, fixes rotating junction 43 with 5 phase of lid and is integrally formed.
Figure 10 is the control flow chart for showing the conditioning movement of the electronic conditioner 1 of Fig. 1.
As shown in Figure 10, firstly, control unit 13, which determines whether there is input information, is input to 12 (STEP of operation inputting part
21,22).When control unit 13 obtains input information from operation inputting part 12 (STEP 22 is "Yes"), then control unit 13 is just from note
Recall portion to obtain in relation to setting pressure corresponding with input information, setting time and the information for setting velocity of rotation, then makes to aspirate
Portion 45 and time measurement unit movement (STEP 23,24).Control unit 13 determines whether non-for abnormality detection from pressure detecting portion 11
State (STEP24).Determine specifically, control unit 13 carries out environmental pressure judgement and average differential pressure, to determine whether non-to be
Abnormality.
When control unit 13 determines Cheng Feiwei abnormality (STEP 25 is "No"), then time meter is determined by control unit 13
Whether the actuation time of the suction section 45 in survey portion has been subjected to given time (such as 3 minutes) (STEP26).Control unit 13 determines
Actuation time of the suction section 45 measured by time measurement unit and without (STEP 26 is "No") when given time, just sentence
Whether the detection pressure of constant-pressure test section 11 is higher (STEP27) than setting pressure.Here, being determined as abnormal shape in control unit 13
State (STEP 25 is "Yes") and when being determined as that the actuation time of suction section 45 has been subjected to given time (STEP 26 is "Yes"),
Then control unit 13 just stops suction section 45 and conditioning movement is made to terminate (STEP 31,33).
The electronic conditioner 1 of the present embodiment, can be by stopping suction section 45 when the movement of suction section 45 is more than given time
Only prevent overload caused by the movement of suction section 45.
When the detection pressure for being determined as pressure detecting portion 11 is less than or equal to setting pressure, (STEP 27 is control unit 13
"No"), just stop the movement of suction section 45, and act driving portion 44, and utilize time measurement unit measurement driving portion 44
Actuation time (STEP 28,29).After acting driving portion 44, control unit 13 determines the driving portion 44 in time measurement unit
Whether actuation time has been subjected to setting time (STEP 30).Control unit 13 is in the driving portion 44 being determined as in time measurement unit
Actuation time and when without setting time, carry out time judgement once again (STEP 30 is "No", STEP 30).
Control unit 13 just stops driving portion 44 when the measurement time for being determined as time measurement unit having been subjected to setting time
Only, conditioning movement is made to terminate (30 "Yes" of STEP, STEP 32, STEP 33).
The electronic conditioner 1 of the present embodiment determines whether abnormality in the movement of suction section 45, and thin in food materials
Piece stops the movement of suction section 45 before flowing into prominent spray nozzle part 51a, therefore can prevent food materials shred from flowing into suction section 45
And the situation for making the durability of suction section 45 shorten occurs.It is the tune in food materials especially in the electronic conditioner 1 of the present embodiment
Have in reason food materials shred toward the prominent side spray nozzle part 51a it is mobile when, make to shake closing 52 quilt of valve using this food materials shred moved
It pushes up and makes pressure detecting portion 11 that abnormal signal is sent to control unit 13 whereby prominent spray nozzle part 51a closing, and by
Control unit 13 stops the movement of suction section 45, and prevents food materials to be inhaled into suction section 45, and can make the durable of suction section 45
Property improve.
Moreover, the electronic conditioner 1 of the present embodiment can make to become hypoxia in container 2 by suction section 45, so
It can prevent food materials from aoxidizing in conditioning and nutritional ingredient is reduced.
(second embodiment)
The electronic conditioner 1 ' of second embodiment is only in the rotating junction 43 ' of first embodiment, lid 5 ' and control unit
13 ' composition is different, therefore is illustrated only for these different compositions, and others are constituted then because being and first embodiment
It is identical to constitute therefore illustrated to be omitted.
In addition, coordinate system is the coordinate system being identical with the first embodiment.
Figure 11 is the broad cross-section map of the electronic conditioner 1 ' of second embodiment.
The cardinal extremity of rotating junction 43 ' axis branch in a rotatable manner, and be formed in front end side and operate driving lever 43a
The engagement pawl 43b for interlocking and acting.Engagement pawl 43b is formed as according to user for the operation done of operation driving lever 43a, and
The non-engagement position that engagement pawl 43b is sticked in the clamped position of aftermentioned prominent spray nozzle part 51a and engagement pawl 43b does not engage it
Between act.In addition, being also formed with the bent nozzle portion for making vent passage bend to L-shaped in the front end side of rotating junction 43 '
43c, and in the end face of the side engagement pawl 43b of this bent nozzle portion 43c is formed with and is made of such as rubber elastomeric material
Containment member 43d.
Also, forming oriented 5 ' side of lid 14 (food materials of temperature detecting part outstanding in the 5 ' side of lid of rotating junction 43 '
Shred test section).This temperature detecting part 14 is, for example, the temperature sensor etc. of thermistor (thermistor) etc., and will test out
Temperature (hereinafter referred to as detection temperature) be sent to control unit 13 '.
As shown in figure 11, lid 5 ' includes connection rotating junction 43 ', and is formed with the pump orifice as suction section 45
Protrusion spray nozzle part 51a upside lid 51 ';And the downside lid 55 ' chimeric with the open end of vessel 21.Lid
5 ' are made of such as resin material.
As shown in figure 11, prominent spray nozzle part 51a is formed from centre and protrudes upwards, and is formed with downwards in downside
More widened guide surface 51b, and it is formed on the outer periphery the engaging groove 51c for engagement pawl 43b engaging.In rotating junction
When 43 ' connect with upside lid 51 ', engagement pawl 43b can be sticked in engaging groove 51c, and make rotating junction 43 ' and upside
Lid 51 ' is mutually fixed and is integrally formed.
The outer peripheral edge portion of lid 51 ' in upside is formed with the periphery wall surface 51d extended towards up and down direction.In addition, in upside
The face of 43 ' side of rotating junction in lid 51 ' is formed with the lid side being inserted into for temperature detecting part 14 and is inserted into hole 51e.
As shown in figure 11, downside lid 55 ' includes the food materials shred receiving portion for the food materials shred that receiving flows into lid 5 '
55g;The top protrusion 55b being formed in around food materials shred receiving portion 55g;And it is formed in food materials shred receiving portion 55g
Around lower section protrusion 55c.Top protrusion 55b is threaded onto the lower part of periphery wall surface 51d, make downside lid 55 ' with it is upper
Side cover body 51 ' is mutually fixed and is integrally formed.
As shown in figure 11, the encirclement wall of the lower section of the prominent spray nozzle part 51a of encirclement is formed in food materials shred receiving portion 55g
55h.This surrounds wall 55h when upside lid 51 ' is mutually integrally fixed with downside lid 55 ' positioned at the outer of temperature detecting part 14
Side, and be formed as to make to cross the height that the food materials shred for surrounding wall 55h or vapor contact or passes through temperature detecting part 14.Separately
Outside, it between the encirclement wall 55h and lower section protrusion 55c of the bottom surface of downside lid 55 ', is formed with the air row in container 2
The gas vent 55f being put into outside container 2.
As shown in figure 11, control unit 13 ' is, for example, CPU (Central Processing Unit) etc., and and driving portion
44, suction section 45, temperature detecting part 14, pressure detecting portion 11, operation inputting part 12, time measurement unit (non-icon) and memory portion
(non-icon) is electrically connected.This control unit 13 ' is according to setting time, setting pressure, setting velocity of rotation, measurement time, inspection
Pressure and detection temperature etc. out, and control the movement of driving portion 44 and suction section 45.Specifically, control unit 13 ' is obtaining
When from the input information of operation inputting part 12, the information in relation to conditioning mode corresponding with the input information just is obtained from memory portion
(setting time, setting velocity of rotation, setting pressure etc.), and according to the information of the acquirement (setting time, setting velocity of rotation,
Setting pressure etc.) act driving portion 44 and suction section 45.
In addition, control unit 13 ' monitors whether to detect because of food materials shred Contact Temperature test section 14 in movement
Temperature change.Control unit 13 ' is just assert when being judged as that the detection temperature from temperature detecting part 14 has variation rapidly
For abnormality, and stop the movement of driving portion 44 and suction section 45.
It is made up of this, even if the electronic conditioner 1 ' of the present embodiment has been crossed encirclement wall 55h in food materials shred and flowed into
It when in prominent spray nozzle part 51a, also can rapidly change because of the detection temperature of temperature detecting part 14, and make control unit 13 ' can
Abnormality is correctly determined, then stops the movement of driving portion 44 and suction section 45, and prevents the intrusion of food materials shred from taking out
In suction portion 45, and the durability of suction section 45 can be made to improve.
In addition, the electronic conditioner 1 ' of the present embodiment is formed in lid 5 ' surrounds wall 55h, therefore can make from gas vent
Food materials shred and the vapor impact that 55f is flowed into lid 5 ' slow down its brunt in surrounding wall 55h, and by food materials shred and water
Steam is housed in food materials shred receiving portion 55g.
In addition, the electronic conditioner 1 ' of the present embodiment is attached more than wall 55h is surrounded at food materials shred (especially vapor)
The inner wall of prominent spray nozzle part 51a can be liquefied by this when then cooling down and liquefying after the movement of electronic conditioner 1 '
Food materials shred is housed in food materials shred receiving portion 55g.
(3rd embodiment)
The electronic conditioner 1 " of 3rd embodiment is only in the rotating junction 43 ' of second embodiment, lid 5 ' and control unit
13 ' composition is different, therefore is illustrated only for these different compositions, and others are constituted then because being and first embodiment
It is identical to constitute therefore illustrated to be omitted.
In addition, coordinate is the coordinate system being identical with the first embodiment.
Figure 12 is the broad cross-section map of the electronic conditioner 1 " of 3rd embodiment.
As shown in figure 12, lid 5 " includes connection rotating junction 43 ", and is formed with the pump orifice as suction section 45
Protrusion spray nozzle part 51a upside lid 51 ";And the downside lid 55 " chimeric with the open end of vessel 21.Lid
5 " are made of such as resin material.
As shown in figure 12, in 43 " side of the rotating junction of upside lid 51 ", it is formed with aftermentioned a pair of of the optical profile type of receiving
A pair of of accommodating recess 51f of sensor 43e.The food materials for the food materials shred that receiving flows into lid 5 " are included in downside lid 55 "
Shred receiving portion 55g ';And a pair of of the upper extension 55i extended upwards in a manner of across accommodating recess 51f.Under
The formation of side cover body 55 " has the end side of upper extension 55i, is formed with the row being discharged into the air in container 2 outside container 2
Stomata 55f.
In addition, be formed in the upside protrusion spray nozzle part 51a of lid 51 ", periphery wall surface 51d composition and be formed in downside
The composition of the top protrusion 55b of lid 55 " is illustrated to be omitted because identical as second embodiment.
Protrusion is connected to from gas vent 55f when screwing togather upside lid 51 " and downside lid 55 " according to this composition
The flow path of spray nozzle part 51a will become the connection vent passage 55j of upper and lower bending shape.
In the 5 " side of lid of rotating junction 43 ", it is prominent to form oriented 5 " side of lid, and be contained in a pair of of accommodating recess
A pair of of optical sensor 43e (food materials shred test section) in 51f.A pair of of optical sensor 43e is by projecting the throwing of light
Light portion 43f and reception are constituted from the acceptance part 43g of the light-projecting portion 43f light projected, and for example, optical profile type penetrating type senses
Device or optical profile type absorbance sensors etc..Light-projecting portion 43f and acceptance part 43g are formed as the light that can make to project from light-projecting portion 43f
By connection vent passage 55j by the received form of acceptance part 43e.Moreover, light-projecting portion 43f and acceptance part 43e and control unit 13 "
It is electrically connected.
Control unit 13 " is from the testing result from light-projecting portion 43f and acceptance part 43e (in the light quantity that acceptance part 43e is received
The testing result whether changed), to determine abnormality.Specifically, control unit 13 " is in the light quilt from light-projecting portion 43f
By the food materials shred blocking in connection vent passage 55j, so that being determined as when the light quantity that acceptance part 43e is received changes
Abnormality.Control unit 13 " when being determined as abnormality stops just at least suction section 45.
In addition, being constituted about rotating junction 43 " and the other of control unit 13 ", all connect with the rotation of second embodiment
Socket part 43 " and the composition of control unit 13 " are identical, therefore are illustrated to be omitted.
As described above, being detected in the electronic conditioner 1 " of the present embodiment, and before flowing into prominent spray nozzle part 51a
The food materials shred in lid 5 " is flowed into, and abnormality is determined as by control unit 13 " and at least stops suction section 45, therefore can
It prevents in food materials shred intrusion suction section 45, and improves the durability of suction section 45.
Herein, in the described embodiment, although explanation is optical sensor 43e for by light-projecting portion 43f and acceptance part
The example for the pairs of person that 43g is constituted, but be not particularly limited to, it can also be one optical sensor 43e.
It is using such as reflection-type optical formula sensor as optical sensor 43e in this situation.Specifically,
When using reflection-type optical formula sensor as optical sensor 43e, control unit 13 " is coming from optical sensor
When the light of 43e by optical sensor 43e by by being received again after the food materials shred reflection in connection vent passage 55j, that is, sentence
It is set to abnormality.
Also, in the described embodiment, although explanation is to detect to flow into lid 5 " using optical sensor 43e
Food materials shred example, but be not particularly limited to this, electrostatic capacitance proximity sense (non-icon) can also be used instead of light
Formula sensor 43e, to detect the food materials shred flowed into lid 5 ".In this situation, control unit 13 " is close in electrostatic capacitance
Connect sensor detect due to by connection vent passage 55j in food materials shred caused by electrostatic capacitance variation when, that is, sentence
It is set to abnormality.
(fourth embodiment)
The electronic conditioner 1 " of fourth embodiment ' only in the lid of first embodiment 5, vertical base 42 and control unit 13
Difference is constituted, therefore is illustrated only for these different compositions, others are constituted then because being to be identical with the first embodiment
Composition thus illustrated to be omitted.
In addition, coordinate system is the coordinate system being identical with the first embodiment.
Figure 13 be fourth embodiment electronic conditioner 1 " ' broad cross-section map.
As shown in figure 13, lid 5 " ' connection rotating junction 43 is included, and it is formed with the pump orifice as suction section 45
Protrusion spray nozzle part 51a upside lid 51 " ';And the downside lid 55 " ' chimeric with the open end of vessel 21.Lid
Body 5 " ' it is made of such as resin material.
As shown in figure 13, downside lid 55 " ', which is included, is formed as recessed in a manner of with the inner wall of vessel 21 contiguity
Shape, with accommodate flow into lid 5 " ' in food materials shred food materials shred receiving portion 55g ";It is formed in food materials shred receiving portion 55g "
Bottom surface, the gas vent 55f air in container 2 being discharged into outside container 2;And from the bottom surface of food materials shred receiving portion 55g "
Extend upwards, the extension isolating part 55h that the central portion of gas vent 55f and food materials shred receiving portion 55g " is separated out.
In addition, the composition of upside lid is identical with the first embodiment, therefore illustrated to be omitted.
It is fixed and is integrally formed and screwing togather upside lid 51 " ' with downside lid 55 " ', and be formed as flowing into lid
Body 5 " ' in crushing shred will receive extend isolating part 55h guidance and be moved upward, then flow into upside lid 51 " ' in
Centre portion.
As shown in figure 13, vertical base 42 ' is formed as erecting from the rear vertical of horizontal base 41, and is set as making test section
42b (food materials shred test section) is located at and 55h pairs of extension isolating part when downside lid 55 " ' is assembled into vessel 21
The position answered.This test section 42b is, for example, reflection-type optical formula sensor or electrostatic capacitance proximity sense etc., and with control
Portion 13 " ' it is electrically connected.
Control unit 13 " ' always the testing result of self-test portion 42b determine abnormality.Specifically, in test section
The case where 42b is reflection-type optical formula sensor, control unit 13 " ' according to whether there is the light irradiated from test section 42b to be flowed into
Lid 5 " ' in food materials shred reflection and receive, to determine abnormality.In addition, being that electrostatic capacitance is close in test section 42b
Whether the case where connecing sensor, control unit 13 " ' electrostatic capacitance according to detected by test section 42b are because flow into lid 5 " ' in
Food materials shred and change, to determine abnormality.Control unit 13 " ' just at least make when being determined with abnormality so
Suction section 45 stops.
As described above, in the electronic conditioner 1 " of the present embodiment ' in, and detect before flowing into prominent spray nozzle part 51a
Out invade lid 5 " ' in food materials shred, and by control unit 13 " ' be determined as abnormality and at least make suction section 45 stop, because
This can prevent food materials shred from flowing into suction section 45, and improve the durability of suction section 45.
(other embodiments)
In the electronic conditioner 1 of first embodiment, explanation be suction section 45 is one example, but is not particularly limited
In this, it can also be configured two suction sections 45.The case where configuring two suction section 45 can be used and drive two pumps with a motor
Double pump head (DUAL PUMP HEAD) mode or using two vacuum pumps of configuration (by groups of motors loaded on pump winner) by the way of.
In this way, compared with a suction section 45, can faster make using two suction sections 45 come the air in aspiration container 2
Pressure in container 2 becomes set pressure, and makes to become hypoxia in container 2.Also, in this situation, even if in container 2
Pressure be lower, only it is slow with the pumping velocity of a suction section 45 so that along with the time process pressure detecting portion 14
The difference of detection pressure tail off so that the judgement in the abnormality of control unit 13 is difficult to the case where carrying out, suction speed can also be made
Degree becomes faster, and the difference of the detection pressure for the pressure detecting portion 14 passed through along with the time is made to become larger, and makes control unit 13 can be correctly
Determine abnormality.
Also, in the described embodiment, although explanation is the example that two suction sections are arranged, being not particularly limited to
This, can also be multiple suction sections of configuration three or four etc..
In first to fourth embodiment, although explanation is in control unit 13,13 ', 13 ", 13 " ' determine abnormal shape
Just at least make the example of 45 stopping of suction section when state, but be not particularly limited to this, can also be arranged in the midway of snorkel 46 and be discharged
The atmosphere release means (non-icon) such as pump, and if being added is having the situation in food materials shred inflow snorkel 46 that can also return to lid
Body 5,5 ', 5 ", 5 " ' such movement.
Also, in second embodiment into fourth embodiment, although explanation is that the utilization of control unit 13 ', 13 ", 13 " ' is various
Sensor (temperature sensor, optical sensor 43e and electrostatic capacitance proximity sense etc.) come detect intrusion lid 5 " '
The example of interior food materials shred, but it is not particularly limited to this, it can also be used in the pipe for leading to suction section 45 from prominent spray nozzle part 51a
Road wound around coil (non-icon), then according to whether there is the electromagnetic type for resulting from the electromotive force in the pipeline to determine abnormality
Decision procedure.Specifically, control unit 13 ', 13 ", 13 " ' determines whether the food materials for belonging to the conductive material such as moisture
Shred passes through the electromotive force that generates when being wound in the pipeline of coil (using the determination method of faraday electromagnetic induction rule)
To determine abnormality.
In addition, second into fourth embodiment, although explanation is by various sensors (temperature sensor, optical profile type
Sensor 43e and electrostatic capacitance proximity sense etc.) example of the setting near lid 5 ', 5 ", 5 " ', but do not limit especially
Due to this, the pipeline for leading to suction section 45 from prominent spray nozzle part 51a can also be set to.
The present invention can be implemented in the form of other are miscellaneous under the premise of without departing from its spirit or main feature.Cause
This, all points of the embodiment all only illustrate, and non-exclusively explain.The scope of the present invention is by claims
Range those shown, do not limited completely by the content of specification.Moreover, belong to the equivalency range of the range of claims
All deformation, miscellaneous improvement, substitution and modifications, come within the meaning and range of equivalents be intended to be embraced therein.
Claims (3)
1. a kind of electronic conditioner, has:
Container, at least one end have opening, accommodate food materials;
Component is improved, in a rotatable manner container described in axis Zhi Yu, conditioning is housed in the food materials of the container;
Ontology, it is interior to be equipped with the suction section for driving the driving portion and the air in the suction container of the conditioning component, and confession
The container is loaded in a manner of it can freely assemble and disassemble;
Lid has the protrusion spray nozzle part as the pump orifice for leading to the suction section, and is embedded in the described of the container
Open end;
Food materials shred test section detects to be formed by the food materials shred or foam that generate in the conditioning of the conditioning component
Toward the prominent spray nozzle part flowing;And
Control unit according to the testing result of the food materials shred test section, and controls the driving portion and the suction section
Movement;Wherein,
Shake closing valve is formed in the lid, which closes valve can be in the detent position for closing the prominent spray nozzle part
It is shaken between position with leaving for the prominent spray nozzle part is left,
There is no the food materials shred or foam toward the prominent spray nozzle part flowing, valve position is closed in the shake
Position is left in described, it is described to shake in the case where there is the food materials shred or foam of the past prominent spray nozzle part flowing
Dynamic closing valve is pushed upwardly to the detent position and closes the prominent spray nozzle part;
It is pushed upwardly to the detent position in shake closing valve to detect in the food materials shred test section toward institute
In the case where the flowing of the food materials shred or foam for stating prominent spray nozzle part, the control unit at least makes the dynamic of the suction section
Work stops.
2. electronic conditioner according to claim 1, wherein
The lid includes upside lid, is formed with the prominent spray nozzle part;Valve is closed in the shake;And downside lid, with institute
The open end for stating container is chimeric, and has and accommodate the closing valve receiving portion for shaking closing valve;
The bottom surface for shaking closing valve is formed using multiple ribs, and is formed with described in support and is shaken in the upper surface of the rib
The support protrusion of dynamic closing valve.
3. the electronic conditioner according to claim l or 2, wherein
The food materials shred test section detects the pressure in the container,
The control unit is from as the closing valve that shakes is toward the food materials shred detection that the detent position is mobile and generates
The pressure detected in portion changes to detect the flowing toward the food materials shred of the prominent spray nozzle part, and at least
Stop the movement of the suction section.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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CN201810034771.0A CN108113512B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
CN201810034772.5A CN108143312B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
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JP2014227411 | 2014-11-07 | ||
JP2014-227411 | 2014-11-07 | ||
PCT/JP2015/078344 WO2016072203A1 (en) | 2014-11-07 | 2015-10-06 | Electric food processor |
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CN201810034771.0A Division CN108113512B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
CN201810034772.5A Division CN108143312B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
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CN107148234A CN107148234A (en) | 2017-09-08 |
CN107148234B true CN107148234B (en) | 2019-04-26 |
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CN201810034771.0A Active CN108113512B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
CN201810034772.5A Active CN108143312B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
CN201580059878.5A Active CN107148234B (en) | 2014-11-07 | 2015-10-06 | Electronic conditioner |
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CN201810034771.0A Active CN108113512B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
CN201810034772.5A Active CN108143312B (en) | 2014-11-07 | 2015-10-06 | Electric cooker |
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CN (3) | CN108113512B (en) |
HK (1) | HK1254834A1 (en) |
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WO (1) | WO2016072203A1 (en) |
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KR101408896B1 (en) * | 2013-05-29 | 2014-06-17 | (주)현대가전업 | Steamer |
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CN102429590A (en) * | 2011-11-25 | 2012-05-02 | 杨志文 | Bubble-free high-speed fruit juice/food vacuum stirring method and stirrer thereof |
CN102631153A (en) * | 2012-03-28 | 2012-08-15 | 王晓东 | Food processing machine with electric sucking pump and method for vacuumizing to produce foodstuff liquid |
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Also Published As
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CN108143312B (en) | 2021-02-09 |
CN108113512B (en) | 2020-12-29 |
JP2018108381A (en) | 2018-07-12 |
TW201625169A (en) | 2016-07-16 |
JP6657493B2 (en) | 2020-03-04 |
WO2016072203A1 (en) | 2016-05-12 |
JP6285047B2 (en) | 2018-03-07 |
JPWO2016072203A1 (en) | 2017-09-21 |
HK1254834A1 (en) | 2019-07-26 |
CN108143312A (en) | 2018-06-12 |
TWI670036B (en) | 2019-09-01 |
CN107148234A (en) | 2017-09-08 |
CN108113512A (en) | 2018-06-05 |
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