CN206252342U - Article-storage device and cooking utensils - Google Patents
Article-storage device and cooking utensils Download PDFInfo
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- CN206252342U CN206252342U CN201621142301.9U CN201621142301U CN206252342U CN 206252342 U CN206252342 U CN 206252342U CN 201621142301 U CN201621142301 U CN 201621142301U CN 206252342 U CN206252342 U CN 206252342U
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Abstract
The utility model provides a kind of article-storage device and cooking utensils, wherein, article-storage device includes:Receiving portion, for depositing material;Infrared light supply, located at the top of described accommodation section, the infrared light supply sends infrared signal to the designated area of the inner side of described accommodation section;At least one infrared sensor, located at the madial wall of described accommodation section, for being acquired to the infrared signal;Microprocessor, is connected to any infrared sensor, for obtaining the infrared signal and the amount of storage of the material being determined according to the infrared signal.By the technical solution of the utility model, the storage capacity of article-storage device materials inside can be detected, the storage capacity that will be detected feeds back to corresponding microprocessor, generate the prompt message of corresponding storage capacity so that user is visually known the storage information of article-storage device.
Description
Technical field
The utility model is related to storing detection field, in particular to a kind of article-storage device and a kind of cooking utensils.
Background technology
In correlation technique, the article-storage device such as rice storing case and liquid storage box is integrated in automatic cooker, for automatic cooker
Material is supplied to realize automating cooking process, feeding process is typically controlled by the weight detecting to automatic cooker, but
It is that the reserves value of article-storage device is not detected, such user can not in time learn that reserves are not enough, and cannot use automation
Cooking function, this has a strong impact on the experience of user.
Utility model content
The utility model is intended at least solve one of technical problem present in prior art or correlation technique.
Therefore, a purpose of the present utility model is to propose a kind of article-storage device
Another purpose of the present utility model is to propose a kind of cooking utensils.
To achieve the above object, according to the embodiment of first aspect of the present utility model, it is proposed that a kind of article-storage device, bag
Include:Receiving portion, for depositing material;Infrared light supply, located at the top of receiving portion, infrared light supply is specified to the inner side of receiving portion
Region sends infrared signal;At least one infrared sensor, located at the madial wall of receiving portion, for being adopted to infrared signal
Collection;Microprocessor, is connected to any infrared sensor, for obtaining infrared signal and the storage of material being determined according to infrared signal
Amount.
The article-storage device of the cooking utensils according to embodiment of the present utility model, sets having at the top of the receiving portion of material
The infrared light supply for sending infrared signal is put, the infrared sensor that designated area is set on the inside of receiving portion, and from infrared sensing
Infrared signal is obtained in device, the microprocessor of material amount of storage information is determined according to infrared signal, on the one hand, can realized to storage
Material is accurately measured and Intelligent treatment in thing device, on the other hand, can also be directed to the different needs of user, control storing dress
Put and interconnected with intelligent APP, be easy to the volume of long-range (real-time) the existing material of monitoring of user, in order in time to the benefit of material
Fill.
Wherein, the infrared overhead radiation from article-storage device, direct projection to infrared sensor or in contacting material or bottom it is anti-
It is mapped on infrared sensor, different according to the infrared degree of illumination that infrared sensor is received, microprocessor is by infrared
The infrared signal that sensor is collected is analyzed judgement, you can it is determined that in article-storage device material amount of storage.
Wherein, infrared light supply sends the carrier wave (for example, 38KHz) of assigned frequency, i.e. infrared light and launches from receiving portion top
And decay in contacting material, the side madial wall of receiving portion is provided with the different infrared sensor of level height, is blocked by material
Infrared sensor cannot receive infrared light, the infrared sensor above material can detect infrared light, by opto-electronic conversion
Process to microprocessor output electric pulse signal, for example, infrared sensor more than 4L scales detects infrared light, and will be infrared
Electric impulse signal after sensor conversion feeds back to microprocessor, and the infrared sensor passed through below 4L scales feeds back to and do not locate
The electric impulse signal of reason may determine that height does not detect infrared light herein, hence, it can be determined that material amount of storage most connects
Nearly 4L.
Be worth it is emphasized that infrared light wave band be located at visible ray wave band beyond, specifically, be divided into three it is infrared
Atmospheric window:The wave band of near infrared ray is 0.7~2 μm, can penetration depth be 5~10 millimeters, the wave band of middle infrared (Mid-IR) is 3~5 μ
M, the wave band of far infrared is 8~14 μm, can penetration depth be less than 2 millimeters, it is seen that the penetration power of infrared light is poor, and can be obvious
Visible ray is distinguished over, therefore reliability and accuracy rate are higher.
Infrared sensor includes photon type detector and thermal detector, generally, is stored in normal temperature environment
During the measurement of amount, the refrigeration module without setting extra is cooled down to infrared sensor.
According to the article-storage device of above-described embodiment of the present utility model, there can also be following technical characteristic:
According to one embodiment of the present utility model, when infrared sensor is for multiple, the level of any two infrared sensors
Highly differ.
In this embodiment, infrared sensor is set by the inner side designated area in receiving portion, while any two are infrared
The level height of sensor is all different, it is ensured that the infrared signal that infrared light supply is launched can be emitted directly toward or storage device in
What is injected indirectly after material reflection is the infrared sensor of different height, so as to detect that institute is right according to each infrared sensor
The characteristics of whether height answered has material, so as to can determine whether the height of material whether in the top of this infrared sensor.
According to one embodiment of the present utility model, infrared sensor also includes:Analog-to-digital conversion module, is connected to microprocessor
Between device, for carrying out analog-to-digital conversion to simulated infrared signal, infrared signal is converted into digitized electric pulse letter
Number.
In this embodiment, it is connected with microprocessor by by the analog-to-digital conversion module of infrared sensor, analog-to-digital conversion mould
Infrared signal can be converted into electric impulse signal by block, so that microprocessor is analyzed, so that microprocessor can be by red
The infrared signal that outer sensor is transmitted, compares with default infrared signal, so that microprocessor may determine that accordingly
Whether the height of infrared sensor has material to cover, simultaneously because microprocessor can learn now article-storage device in material deposit
Reserves, if article-storage device is interconnected with intelligence APP, user can also be filled by the intelligent APP of mobile terminal to storing at any time
The amount of storage put is tested, and improves the convenience that user uses.
According to one embodiment of the present utility model, infrared sensor also includes:Optical window, located at the incident light of infrared light
Road, for filtering the light beyond infrared light.
In this embodiment, the optical window for being set in infrared light input path can shield to the light of non-infrared light
Cover, reduce in use due to the influence that the irradiation of other light is produced to IR, so as to reduce to infrared sensing
Device is disturbed, and improves the accuracy and reliability of detection.
According to above-described embodiment of the present utility model, article-storage device also includes:Mechanical switch, located at the outside of receiving portion,
It is connected between power supply and infrared light supply, when mechanical switch is closed, infrared light supply sends infrared signal to the designated area.
In this embodiment, because the energy required for transmitting infrared signal is excessive, user and does not need the moment to know yet
The amount of storage of material in the current article-storage device in road, therefore use mechanical switch so that user at home, when in need not
With open article-storage device watch, directly manually closure receiving portion on the outside of mechanical switch, it is possible to open infrared light supply with
Infrared signal is sent, so as to learn the amount of storage of material in current article-storage device.
Preferably, mechanical switch may be selected to be toggle switch.
According to above-described embodiment of the present utility model, article-storage device can also include:Reverse-blocking tetrode thyristor, be connected to power supply and
Between infrared light supply, while reverse-blocking tetrode thyristor is additionally coupled to the I/O interfaces of microprocessor, reverse-blocking tetrode thyristor connects in the I/O for obtaining
When the impulse signal value that mouth sends is more than or equal to preset signals value, reverse-blocking tetrode thyristor conducting, to control infrared light supply to described
Designated area sends infrared.
In this embodiment, using the reverse-blocking tetrode thyristor being connected between power supply and infrared light supply, according to judging and micro- place
Pulse signal and the magnitude relationship of preset signals that the connected I/O interfaces of reason device are sent, it is possible to achieve by microprocessor control
The transmitting of infrared signal, so that user can remotely pass through when material amount of storage in wanting to know about current article-storage device
APP sends order so that microprocessor sends control instruction, and control instruction control infrared light supply sends infrared signal, while infrared
The infrared signal that sensor will be received feeds back to microprocessor, so that user can in real time recognize current article-storage device
Material amount of storage, while the change for collecting material in current article-storage device of acceptable timing, for example:9 points of inspections of evening on every Fridays
The amount of storage of material in article-storage device is surveyed, by the statistics of amount of storage several times, the material for recognizing one family that can be long-range
Service condition, is whether the follow-up further service such as periodic reminder user that provides convenience carries out the detection of amount of storage.
According to above-described embodiment of the present utility model, it is preferable that article-storage device also includes:At least one graduated structure, point
The liftoff side wall located at receiving portion a, graduated structure is alignd with an infrared sensor on horizontal level.
In this embodiment, by the wall of receiving portion side, at least provided with an infrared sensor on horizontal level
One graduated structure of alignment, the user that is more convenient for while being detected to material by infrared signal and infrared sensor is straight
The amount of storage and graduated structure that the combination of sight ground is measured determine the occupancy situation (such as material takes 20% memory space) of article-storage device.
According to above-described embodiment of the present utility model, it is preferable that graduated structure is the raised knot on the lateral wall of receiving portion
Structure or sunk structure, and/or graduated structure are the bulge-structure or sunk structure on the madial wall of receiving portion.
In this embodiment, if the graduated structure of bulge-structure or sunk structure is arranged on the lateral wall of receiving portion, user
The volume of material in existing article-storage device can be clearly watched, or user can be by touching in the environment of insufficient light
Touch bulge-structure or sunk structure, it is also possible to learn the volume of material in now article-storage device, will not be in article-storage device
Material is polluted, if the graduated structure of bulge-structure or sunk structure is arranged on the madial wall of receiving portion, user is using
During, the scale exposed by viewing can be appreciated that the volume of material in existing article-storage device.
According to one embodiment of the present utility model, whole graduated structures are distributed in the side of receiving portion along same plumb line
Wall.
In this embodiment, all of graduated structure is distributed on the wall of side along same plumb line, and graduated structure is in lead
Hang down shape, vertical with receiving portion bottom wall, it is ensured that the storage face of material can be parallel with graduated structure in article-storage device, is easy to user
In use to the observation of scale, so as to learn the amount of storage of current material.
According to one embodiment of the present utility model, article-storage device includes at least one graduation indication lamp, and a scale refers to
Show that lamp is connected in parallel to an infrared sensor, light or extinguish with according to the infrared signal of infrared sensor.
In this embodiment, by being arranged at least one graduation indication lamp of receiving portion side wall, while scale indicator lamp
Carried out with infrared sensor in parallel, height that user lights according to lamp and quantity can be being more visually known in article-storage device
Material amount of storage, to become apparent from visible mode by amount of storage information alert to user.
A kind of cooking utensils that the embodiment of the utility model second aspect is provided include the utility model first aspect
A kind of article-storage device that any embodiment is provided, therefore the cooking utensils have the article-storage device of any of the above-described embodiment offer
Whole beneficial effects, will not be repeated here.
Additional aspect of the present utility model and advantage will be set forth in part in the description, partly by from following description
In become obvious, or by it is of the present utility model practice recognize.
Brief description of the drawings
Of the present utility model above-mentioned and/or additional aspect and advantage will from description of the accompanying drawings below to embodiment is combined
Become substantially and be readily appreciated that, wherein:
Fig. 1 shows the article-storage device schematic diagram according to embodiment of the present utility model;
Fig. 2 shows the schematic diagram of the embodiment one according to article-storage device of the present utility model;
Fig. 3 shows the schematic diagram of the embodiment two according to article-storage device of the present utility model;
Fig. 4 A show the carrier wave schematic diagram sent according to infrared light supply of the present utility model;
Fig. 4 B show the schematic diagram of the electric impulse signal detected according to infrared sensor of the present utility model;
Fig. 5 shows the schematic block diagram of the cooking apparatus according to embodiment of the present utility model.
Specific embodiment
In order to be more clearly understood that above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the accompanying drawings and tool
Body implementation method is further described in detail to the utility model.It should be noted that in the case where not conflicting, this Shen
Feature in embodiment please and embodiment can be mutually combined.
Many details are elaborated in the following description in order to fully understand the utility model, but, this practicality
It is new to be different from third party's mode described here using third party to implement, therefore, protection model of the present utility model
Enclose and do not limited by following public specific embodiment.
The article-storage device 100 and cooking utensils 200 according to embodiment of the present utility model are entered with reference to Fig. 1 to Fig. 5
Row is illustrated.
As shown in Figures 1 to 5, the article-storage device 100 according to embodiment of the present utility model includes:Receiving portion 102, is used for
Storage material;Infrared light supply 1042, located at the top of receiving portion 102, infrared light supply 1042 is specified to the inner side of receiving portion 102
Region sends infrared signal;At least one infrared sensor 1044, located at the madial wall of receiving portion 102, for infrared signal
It is acquired;Microprocessor 106, is connected to any infrared sensor 1044, for obtaining infrared signal and according to infrared signal
Determine the amount of storage of material.
The article-storage device 100 of the cooking utensils 200 according to embodiment of the present utility model, is having the receiving portion of material
102 top sets the infrared light supply 1042 for sending infrared signal, in the infrared sensing that the inner side designated area of receiving portion 102 is set
Device 1044, and infrared signal is obtained from infrared sensor 1044, so as to determine material amount of storage information by infrared signal
Microprocessor 106, on the one hand, can realize accurately measuring and Intelligent treatment material in article-storage device 100, the opposing party
Face, can also be directed to the different needs of user, and control article-storage device 100 is interconnected with intelligence APP, be easy to user long-range (real
When) volume of existing material is monitored, in order in time to the supplement of material.
Wherein, the infrared overhead radiation from article-storage device 100, direct projection to infrared sensor 1044 or in contacting material or case
Reflexed to during bottom on infrared sensor 1044, micro- place different according to the infrared degree of illumination that infrared sensor 1044 is received
Reason device 106 is analyzed judgement by the infrared signal that infrared sensor 1044 is collected, you can it is determined that in article-storage device 100
The amount of storage of middle material.
As shown in Fig. 2, Fig. 3, Fig. 4 A and Fig. 4 B, following examples are included according to article-storage device of the present utility model 100:
Embodiment one:
As shown in Fig. 2 infrared signal sends from the infrared light supply 1042 at the top of article-storage device 100, direct projection to infrared biography
Sensor 1044 is reflexed on infrared sensor 1044 when bottom is touched, and infrared sensor 1044 is used to detect from receiving portion
The infrared signal (infrared signal reflects when bottom wall is contacted) of 102 bottom wall reflection, any infrared sensor 1044 is in detection
During to the infrared signal for reflecting, can determine whether now whether height is covered by material by microprocessor 106, so that it is determined that now red
Graduated structure 108 corresponding to outer sensor 1044, you can quickly obtain now amount of storage of the material in article-storage device 100.
Embodiment two:
As shown in figure 3, the infrared overhead radiation from article-storage device 100, on plumb line direction, the scale in unit length
, less than the number of the infrared sensor 1044 in unit length, namely the arrangement of infrared sensor 1044 is close for the number of structure 108
Degree more than graduated structure 108 arrangement density, for example, each graduated structure 108 correspond to two infrared sensors 1044 (as
One judgement group), an infrared sensor 1044 in judgement group is arranged on the side of the lower section of the horizontal level of graduated structure 108
Wall, another infrared sensor 1044 is horizontally disposed relative to graduated structure 108, using this set method, is mapped in detection
Infrared sensor 1044 or when the infrared signal on infrared sensor 1044 is reflexed to when bottom is touched, closest to material
The infrared sensor 1044 of upper water plane determines this infrared sensing when direct projection or the infrared signal through material reflection is detected
Amount of storage corresponding to device 1044, then can than embodiment one be more accurately obtained now material in article-storage device 100
Amount of storage.
Embodiment three:
The infrared overhead radiation from article-storage device 100, is disregarding cost, it is ensured that obtain the high-precision premise of amount of storage
Under, there are ten infrared sensors 1044 corresponding for each graduated structure 108, form judgement group, in judgement group nine
Individual infrared sensor 1044 is uniformly arranged vertically in the lower section of the corresponding opposite side of the level of graduated structure 108, with ensure nine it is red
Two spacing of graduated structure 108 are averagely divided into ten intervals of equal length, a remaining infrared biography by outer sensor 1044
Sensor 1044 is correspondingly arranged relative to the level of graduated structure 108, using this set method, can improve graduated structure 108
Precision is mapped to infrared sensor 1044 or reflexes to when bottom is touched infrared signal on infrared sensor 1044 in detection
When, any one infrared sensor 1044 determines this infrared biography when the infrared signal of direct projection or reflection is detected from bottom to top
Amount of storage corresponding to sensor 1044, without increasing graduated structure 108, for embodiment one and embodiment two, can enter
Improve the detection of the amount of storage in article-storage device 100 in one step ground.
Article-storage device 100 according to above-described embodiment of the present utility model, can also have following technical characteristic:
According to one embodiment of the present utility model, when infrared sensor 1044 is for multiple, any two infrared sensors
1044 level height is differed.
In the embodiment, infrared sensor 1044 is set by the inner side designated area in receiving portion 102, while any two
The level height of infrared sensor 1044 is all different, it is ensured that the infrared signal that infrared light supply 1042 is launched can be emitted directly toward or
What is injected indirectly after material reflection in storage device 100 is the infrared sensor 1044 of different height, so as to red according to each
Outer sensor 1044 can detect the characteristics of whether corresponding height has material, so as to can determine whether material height whether herein
The top of infrared sensor 1044.
According to one embodiment of the present utility model, infrared sensor 1044 also includes:Analog-to-digital conversion module, is connected to micro-
Between processor 106, for carrying out analog-to-digital conversion to simulated infrared signal, infrared signal is converted into digitized electricity
Pulse signal.
In this embodiment, it is connected with microprocessor 106 by by the analog-to-digital conversion module of infrared sensor 1044, modulus
Infrared signal can be converted into electric impulse signal by modular converter, so that microprocessor 106 is analyzed, so that microprocessor
106 infrared signals that can be transmitted by infrared sensor 1044, are compared, so that microprocessor with default infrared signal
Device 106 may determine that whether the height of corresponding infrared sensor 1044 has material to cover, simultaneously because microprocessor 106 can be with
Material amount of storage in article-storage device 100 now is learnt, if article-storage device 100 is interconnected with intelligence APP, user can also be with
When the amount of storage of article-storage device 100 is tested by the intelligent APP of mobile terminal, improve the convenience that uses of user.
As shown in Figure 4 A, simulated infrared signal can select the ripple of any frequency, it is preferable that the load of selection 38kHz
Ripple, waveform is as indicated at 402.As shown in Figure 4 B, infrared sensor is converted into the institute of electric impulse signal such as 404 by analog-to-digital conversion module
Show, microprocessor 106 receives corresponding multilevel digital signal (0 or 1) by infrared sensor 1044, according to received
The duration time interval that sends default with infrared light supply 1042 of multilevel digital signal be compared, if the two is accorded with
Close, then illustrate that the height herein corresponding to infrared sensor 1044 does not have material, if the two is inconsistent, infrared sensing herein
Height corresponding to device 1044 is covered by material.
According to above-mentioned conclusion can according to the infrared sensor 1044 that in vertical, the top is covered by material it is right
The height answered is the amount of storage of material in current article-storage device 100.
According to one embodiment of the present utility model, infrared sensor 1044 also includes:Optical window, located at the incidence of infrared light
Light path, for filtering the light beyond infrared light.
In this embodiment, the optical window for being set in infrared light input path can shield to the light of non-infrared light
Cover, reduce in use due to the influence that the irradiation of other light is produced to IR, so as to reduce to infrared sensing
Device 1044 is disturbed, and improves the accuracy and reliability of detection.
According to above-described embodiment of the present utility model, article-storage device 100 also includes:Mechanical switch, located at receiving portion 102
Outside, is connected between power supply and infrared light supply 1042, and when mechanical switch is closed, infrared light supply 1042 is sent out to the designated area
Go out infrared signal.
In this embodiment, because the energy required for transmitting infrared signal is excessive, user and does not need the moment to know yet
The amount of storage of material in the current article-storage device 100 in road, therefore use mechanical switch so that user at home, when in need
Wait and watched without opening article-storage device 100, directly mechanical switch manually on the outside of closure receiving portion 102, it is possible to open
Infrared light supply 1042 to send infrared signal, so as to learn the amount of storage of material in current article-storage device 100.
Preferably, mechanical switch may be selected to be toggle switch.
According to above-described embodiment of the present utility model, article-storage device 100 can also include:Reverse-blocking tetrode thyristor, is connected to electricity
Between source and infrared light supply 1042, while reverse-blocking tetrode thyristor is additionally coupled to the I/O interfaces of microprocessor 106, reverse-blocking tetrode thyristor exists
When the impulse signal value that the I/O interfaces of acquisition send is more than or equal to preset signals value, reverse-blocking tetrode thyristor conducting is infrared to control
Light source 1042 sends infrared to the designated area.
In this embodiment, using the reverse-blocking tetrode thyristor being connected between power supply and infrared light supply 1042, according to judge with
Pulse signal and the magnitude relationship of preset signals that the connected I/O interfaces of microprocessor 106 are sent, it is possible to achieve by microprocessor
Device 106 controls the transmitting of infrared signal, so that user is when material amount of storage in wanting to know about current article-storage device 100,
Order remotely can be sent by APP so that microprocessor 106 sends control instruction, control instruction control infrared light supply 1042 is sent out
Go out infrared signal, while the infrared signal that infrared sensor 1044 will be received feeds back to microprocessor 106, so that user can be with
The material amount of storage of current article-storage device 100 is recognized in real time, while in the current article-storage device 100 of collection of acceptable timing
The change of material, for example:The amount of storage of material in the article-storage devices 100 of at 9 points in evening detection on every Fridays, by the system of amount of storage several times
Meter, the service condition of the material for recognizing one family that can be long-range is that follow-up further service is provided convenience such as week
Phase reminds whether user carries out the detection of amount of storage.
According to above-described embodiment of the present utility model, it is preferable that article-storage device 100 also includes:At least one graduated structure
108, the side wall of receiving portion 102 is separately disposed at, a graduated structure 108 and an infrared sensor 1044 are on horizontal level
Alignment.
In this embodiment, by the side wall of receiving portion 102, at least provided with an infrared sensor 1044 in level
The graduated structure 108 alignd on position, it is same what is detected to material by infrared signal and infrared sensor 1044
When the user that is more convenient for intuitively combine the amount of storage that measures and graduated structure 108 determines occupancy situation (such as thing of article-storage device 100
Material takes 20% memory space).
According to above-described embodiment of the present utility model, it is preferable that graduated structure 108 is on the lateral wall of receiving portion 102
Bulge-structure or sunk structure, and/or graduated structure 108 are the bulge-structure or sunk structure on the madial wall of receiving portion 102.
In this embodiment, if the graduated structure 108 of bulge-structure or sunk structure is arranged on the outside of receiving portion 102
Wall, user can clearly watch the volume of material in existing article-storage device 100, or user is in the environment of insufficient light
Can be by touching bulge-structure or sunk structure, it is also possible to learn the volume of material in now article-storage device 100, will not be right
Material in article-storage device 100 is polluted, if the graduated structure 108 of bulge-structure or sunk structure is arranged on receiving portion 102
Madial wall on, user in use, material in existing article-storage device 100 is can be appreciated that by the scale that has exposed of viewing
Volume.
According to one embodiment of the present utility model, whole graduated structures 108 are distributed in receiving portion 102 along same plumb line
Side wall.
In this embodiment, all of graduated structure 108 is distributed on the wall of side along same plumb line, graduated structure
108 is in vertical shape, vertical with the bottom wall of receiving portion 102, it is ensured that the storage face of material can be with graduated structure in article-storage device 100
108 is parallel, is easy to user in use to the observation of scale, so as to learn the amount of storage of current material.
According to one embodiment of the present utility model, article-storage device 100 includes at least one graduation indication lamp, a scale
Indicator lamp is connected in parallel to an infrared sensor 1044, lights or extinguishes with according to the infrared signal of infrared sensor 1044.
In this embodiment, by being arranged at least one graduation indication lamp of the side wall of receiving portion 102, while graduation indication
Lamp carries out in parallel with infrared sensor 1044, and height that user lights according to lamp and quantity can be being more visually known storing
The amount of storage of the material in device 100, to become apparent from visible mode by amount of storage information alert to user.
Fig. 5 shows the schematic block diagram of the cooking utensils 200 according to embodiment of the present utility model.
Cooking utensils 200 according to embodiment of the present utility model include the storing as described in above-mentioned any one technical scheme
Device 100.
The technical solution of the utility model is described in detail above in association with accompanying drawing, the utility model proposes a kind of new use
In the article-storage device of cooking utensils, the infrared light supply for sending infrared signal is set at the top of the receiving portion for having material, is being held
The infrared sensor that portion inner side designated area of receiving is set, and infrared signal is obtained from infrared sensor, so that by infrared
Signal determines the microprocessor of material amount of storage information, on the one hand, can realize in article-storage device material accurately measure and
Intelligent treatment, on the other hand, can also be directed to the different needs of user, and control article-storage device is interconnected with intelligence APP, is easy to
The volume of long-range (real-time) the existing material of monitoring of user, in order in time to the supplement of material.
In the description of this specification, term " first ", " second " are only used for the purpose of description, and it is not intended that indicating
Or imply relative importance;Term " connection ", " installation ", " fixation " etc. all should be interpreted broadly, for example, " connection " can be solid
Calmly connect, or be detachably connected, or be integrally connected;Can be joined directly together, it is also possible to indirect by intermediary
It is connected.For the ordinary skill in the art, can as the case may be understand above-mentioned term in the utility model
Concrete meaning.
In the description of this specification, the description of term " one embodiment " etc. means that combining the embodiment or example describes
Specific features, structure, material or feature be contained at least one embodiment of the present utility model or example.In this specification
In, the schematic representation to above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description,
Structure, material or feature can in an appropriate manner be combined in one or more any embodiments or example.
Preferred embodiment of the present utility model is these are only, the utility model is not limited to, for this area
Technical staff for, the utility model can have various modifications and variations.It is all it is of the present utility model spirit and principle within,
Any modification, equivalent substitution and improvements made etc., should be included within protection domain of the present utility model.
Claims (11)
1. a kind of article-storage device, it is characterised in that including:
Receiving portion, for depositing material;
Infrared light supply, located at the top of described accommodation section, the infrared light supply is sent out to the designated area of the inner side of described accommodation section
Go out infrared signal;
At least one infrared sensor, located at the madial wall of described accommodation section, for being acquired to the infrared signal;
Microprocessor, is connected to any infrared sensor, for obtaining the infrared signal and according to the infrared signal
Determine the amount of storage of the material.
2. article-storage device according to claim 1, it is characterised in that
When the infrared sensor is for multiple, the level height of any two infrared sensors is differed.
3. article-storage device according to claim 1, it is characterised in that the infrared sensor also includes:
Analog-to-digital conversion module, is connected between the microprocessor, for carrying out analog-to-digital conversion to simulated infrared signal, with
The infrared signal is converted into digitized electric impulse signal.
4. article-storage device according to claim 1, it is characterised in that the infrared sensor also includes:
Optical window, located at the input path of the infrared light, for filtering the light beyond the infrared light.
5. article-storage device according to any one of claim 1 to 4, it is characterised in that also include:
Mechanical switch, located at the outside of described accommodation section, is connected between power supply and the infrared light supply, and the mechanical switch is closed
During conjunction, the infrared light supply sends infrared signal to the madial wall of described accommodation section.
6. article-storage device according to any one of claim 1 to 4, it is characterised in that including:
Reverse-blocking tetrode thyristor, is connected between power supply and the infrared light supply, at the same the reverse-blocking tetrode thyristor be additionally coupled to it is described micro-
The I/O interfaces of processor, the reverse-blocking tetrode thyristor is more than or equal to pre- in the impulse signal value that the I/O interfaces for obtaining send
If during signal value, the reverse-blocking tetrode thyristor conducting, to control the infrared light supply to send infrared to the madial wall of described accommodation section
Signal.
7. article-storage device according to any one of claim 1 to 4, it is characterised in that also include:
At least one graduated structure, is separately disposed at the side wall of described accommodation section, and a graduated structure is described with one red
Outer sensor aligns on horizontal level.
8. article-storage device according to claim 7, it is characterised in that
The graduated structure is the bulge-structure or sunk structure on the lateral wall of described accommodation section, and/or
The graduated structure is the bulge-structure or sunk structure on the madial wall of described accommodation section.
9. article-storage device according to claim 7, it is characterised in that
All the graduated structure is distributed in the side wall of described accommodation section along same plumb line.
10. article-storage device according to claim 8 or claim 9, it is characterised in that also include:
At least one graduation indication lamp, a graduation indication lamp is connected in parallel to an infrared sensor, with basis
The infrared signal of the infrared sensor is lighted or extinguished.
A kind of 11. cooking utensils, it is characterised in that including:
Article-storage device as any one of claim 1 to 10.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110288643A (en) * | 2018-03-16 | 2019-09-27 | 佛山市顺德区美的电热电器制造有限公司 | Cooking apparatus, cooking methods and computer readable storage medium |
WO2022105905A1 (en) * | 2020-11-23 | 2022-05-27 | 佛山市顺德区美的电热电器制造有限公司 | Cooking appliance, operating control method therefor, controller, and readable storage medium |
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2016
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110288643A (en) * | 2018-03-16 | 2019-09-27 | 佛山市顺德区美的电热电器制造有限公司 | Cooking apparatus, cooking methods and computer readable storage medium |
WO2022105905A1 (en) * | 2020-11-23 | 2022-05-27 | 佛山市顺德区美的电热电器制造有限公司 | Cooking appliance, operating control method therefor, controller, and readable storage medium |
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