CN208658900U - Cooking apparatus - Google Patents
Cooking apparatus Download PDFInfo
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- CN208658900U CN208658900U CN201820018865.4U CN201820018865U CN208658900U CN 208658900 U CN208658900 U CN 208658900U CN 201820018865 U CN201820018865 U CN 201820018865U CN 208658900 U CN208658900 U CN 208658900U
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- feed pipe
- rotary joint
- fuselage
- upper cover
- cooking apparatus
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Abstract
The utility model provides a kind of cooking apparatus, it include: frame assembly, cover assembly and feeding material component, feeding material component includes: fuselage feed pipe, upper cover feed pipe and the first rotary joint, and fuselage feed pipe is at least partially disposed in pot body, and its input terminal is connected with the discharge port of material storing box;Upper cover feed pipe is at least partially disposed in lid, and its output end is connected with accommodating chamber;The both ends of first rotary joint are connected with the input terminal of the output end of fuselage feed pipe and upper cover feed pipe respectively, and can rotate relative to fuselage feed pipe and/or upper cover feed pipe, and its rotation axis and the rotation axis coincident for the structure that is rotatably connected or parallel.The docking site of upper cover feed pipe and fuselage feed pipe is transferred to product rear end, to realize rear endfeed, improves the aesthetics of product by the cooking apparatus;And the aperture on jacket is avoided, improve wholesomeness;Feeding material component is not in gap during ensure that folding lid simultaneously.
Description
Technical field
The utility model relates to fields of home appliance technology, in particular to a kind of cooking apparatus.
Background technique
Currently, intelligentized cooking apparatus such as auto-electric cooker using pottery, some have the function of self-feeding, pass through fuselage feeding
Pipe and fuselage feed pipe are sent into the material of fuselage sections in upper cover by cooking apparatus front end.This scheme has the following problems:
1) endfeed influences product appearance before;2) endfeed needs the aperture on jacket before, and dirty water and spot are easily accessible feed pipe
Road influences product health;3) it is easy to produce gap after upper cover and fuselage cooperation, causes feeding power loss.
Utility model content
At least one in order to solve the above-mentioned technical problem, the purpose of this utility model is to provide a kind of cooking apparatus.
To achieve the goals above, the utility model provides a kind of cooking apparatus, comprising: frame assembly, including pot body
And material storing box;Cover assembly, including covering the lid being located in the pot body and the accommodating chamber being arranged on the lid, the lid
The rear end of body is connected by being rotatably connected structure with the rear end of the pot body, and the accommodating chamber passes through feeding material component and the storage
Hopper is connected;Wherein, the feeding material component includes: fuselage feed pipe, is at least partially disposed in the pot body, and its input terminal
It is connected with the discharge port of the material storing box;Upper cover feed pipe is at least partially disposed in the lid, and its output end with it is described
Accommodating chamber is connected;With the first rotary joint, both ends respectively with the output end of the fuselage feed pipe and the upper cover feeding
The input terminal of pipe is connected, and can rotate relative to the fuselage feed pipe and/or the upper cover feed pipe, and its rotation axis
With the rotation axis coincident of the structure that is rotatably connected or parallel.
The docking site of upper cover feed pipe and fuselage feed pipe is transferred to product by cooking apparatus provided by the utility model
Rear end improves the aesthetics of product to realize rear endfeed;And it is added between upper cover feed pipe and fuselage feed pipe
First rotary joint to guarantee the reliable connected between upper cover feed pipe and fuselage feed pipe is avoided and is opened on jacket
Hole, and then avoid dirty water in the prior art and spot enters feed pipe influences the problem of health;And since the first rotation connects
Head and the rotation axis coincident for the structure that is rotatably connected or parallel, ensure that during folding lid and are not between feeding material component
Dislocation to ensure that feeding material component is not in gap, and then solves in the prior art because upper cover and fuselage cooperation generate
Gap leads to the problem of feeding power loss.
Specifically, cooking apparatus includes frame assembly, cover assembly and feeding material component, frame assembly includes pot body and storage
Hopper, the interior interior pot being equipped with for culinary art of pot body, material storing box is for storing material;Cover assembly includes lid and accommodating chamber, is held
Chamber of receiving can be used for cleaning material, can be used for blanking, can be used for passing through for upper cover feed pipe;Feeding material component include according to
The secondary fuselage feed pipe being connected, the first rotary joint and upper cover feed pipe, fuselage feed pipe are at least partially disposed in pot body, are protected
Having demonstrate,proved material can be delivered up via pot body part, and upper cover feed pipe is at least partially disposed in lid, ensure that material can
It is reached at accommodating chamber via cap portion, and then the courses of work such as is cleaned, stored or cooked;Due to upper cover feed pipe with
Fuselage feed pipe is connected by the first rotary joint, and the first rotary joint is located at the rear portion of cooking apparatus, and the first rotation connects
Head and the rotation axis coincident of the structure that is rotatably connected positioned at cooking apparatus rear end are parallel, thus upper cover feed pipe and fuselage
The docking site of feed pipe also is located on rear side of product, to realize rear endfeed, improves the aesthetics of product;And pass through the
One rotary joint realizes the connection between upper cover feed pipe and fuselage feed pipe, is not necessarily to the aperture on jacket, ensure that product
Wholesomeness;Simultaneously as the first rotary joint and the rotation axis coincident for the structure that is rotatably connected or parallel, and the first rotation
Connector can be rotated relative to fuselage feed pipe and/or upper cover feed pipe, ensure that during folding lid the first rotary joint with it is upper
It is good fit between lid feed pipe and fuselage feed pipe, so that upper cover feed pipe and fuselage feed pipe can be with during folding lid
It is realized and is relatively rotated by the first rotary joint, ensure that will not generate gap between feeding material component, to ensure that feeding is imitated
Rate.
In addition, the cooking apparatus in above-mentioned technical proposal provided by the utility model can also have following supplementary technology special
Sign:
In the above-mentioned technical solutions, the feeding material component further include: the second rotary joint, be located at the fuselage feed pipe with
Between first rotary joint, and its both ends is leaned on the output end of the fuselage feed pipe and first rotary joint respectively
One end of the nearly fuselage feed pipe is connected.
Second rotary joint is set between fuselage feed pipe and the first rotary joint, on the one hand avoids the first rotation and connects
Head directly docked with fuselage feed pipe cause fuselage feed pipe frequently occur friction by a relatively large margin, shake cause serious wear,
Situations such as softening, deform, shifting, falling off both improves machine to play good protective effect to fuselage feed pipe
The use reliability of body feed pipe, and extend the service life of fuselage feed pipe;On the other hand, the first rotation can also be simplified
The structure of connector avoids the first rotary joint while connecting the situation hair that the feed pipe at two positions causes structure excessively complicated
It is raw, and convenient for rationally designing the position of upper cover feed pipe and fuselage feed pipe according to product structure, to optimize product layout.
In the above-mentioned technical solutions, second rotary joint is fixedly linked with the fuselage feed pipe, first rotation
Adapter is fixedly linked with the upper cover feed pipe, and rotatably connect with second rotary joint, and described first
The rotation axis coincident of axis and the structure that is rotatably connected that rotary joint is rotated relative to second rotary joint is flat
Row.
One end of second rotary joint is fixedly linked with fuselage feed pipe so that fuselage feed pipe and the second rotary joint it
Between lie substantially in relative static conditions, avoiding fuselage feed pipe because rubbing, shaking causes serious wear, softening, deformation, shifting
Position, situations such as falling off, to play good protective effect to fuselage feed pipe, have both improved making for fuselage feed pipe
With reliability, and extend the service life of fuselage feed pipe;First rotary joint is fixedly linked with upper cover feed pipe, so that on
Relative static conditions are lain substantially between lid feed pipe and the first rotary joint, avoid upper cover feed pipe because rubbing, shaking
Situations such as causing serious wear, softening, deformation, shifting, fall off, is made to play good protection to upper cover feed pipe
With not only having improved the use reliability of upper cover feed pipe, but also extend the service life of upper cover feed pipe;And the second rotary joint
Then to be rotatably connected between the first rotary joint, and the rotation axis coincident or flat of rotation axis and the structure that is rotatably connected
Row, thus being docked and connected by the first rotary joint and the second rotary joint, have both realized upper cover feed pipe and fuselage feeding
Connection between pipe, and realize between upper cover feed pipe and fuselage feed pipe reliable and stable opposite during folding lid
Rotation.
In the above-mentioned technical solutions, the structure that is rotatably connected includes rotation axis, first rotary joint and described
Second rotary joint is located at the axial side of rotation, and second rotary joint is equipped with sleeve, the sleeve
It is set on one end of the rotation axis.
First rotary joint and the setting of the second rotary joint are being rotated into axial side, can be avoided two rotations
Connector is interfered or is influenced each other with rotation axis, and without carrying out excessive change to the existing structure that is rotatably connected;And
Sleeve is set on the second rotary joint, sleeve is set on one end of rotation axis, the second rotary joint is played well
Position-limiting action, guarantee that it is always positioned on same axis with rotation axis, will not shift, and then ensure that the first rotation connects
The axis of the opposite second rotary joint rotation of head and the coincidence of the central axis of rotation axis are parallel, ensure that the use of feeding material component
Reliability.
In any of the above-described technical solution, first rotary joint passes through nested mode with second rotary joint
It is docked and connected.
First rotary joint is docked and connected with the second rotary joint by nested mode, and contact between the two is increased
Area not only improves sealing performance, but also reduces the probability fallen off therebetween, to further improve feeding material component
Use reliability.Specifically, one end of the first rotary joint can be inserted into the second rotary joint, makes the second rotary joint
It is set on the first rotary joint;One end of second rotary joint can also be inserted into the first rotary joint, make the first rotation
Connector is set on the second rotary joint.
In the above-mentioned technical solutions, first rotary joint at the docking site of second rotary joint be equipped with it is close
Sealing;And/or one in first rotary joint and second rotary joint is equipped with confined planes, sets on another
There is the limited step being oppositely arranged with the confined planes, the confined planes are matched with the limited step can limit described
One rotary joint is close to each other along the rotation axis of first rotary joint with second rotary joint.
Sealing element is set at the docking site of the first rotary joint and the second rotary joint, further improves feeding group
The sealing performance of part, to further improve the use reliability of feeding material component.Specifically, can in the first rotary joint and
The limiting groove of annular is set on that component of inside at the docking site of the second rotary joint, is set in limiting groove
Sealing ring is set, to realize sealing between the two.
By setting confined planes and limited step, is interfered using between the two, can be avoided the first rotary joint
It is close to each other along the rotation axis direction of the first rotary joint with the second rotary joint, it ensure that the first rotary joint and the second rotation
It can only relatively rotate between adapter, so that reducing the first rotary joint is detached from upper cover feed pipe and the second rotary joint
It is detached from the probability of fuselage feed pipe, further improves the use reliability of feeding material component.As for confined planes and limited step
Specific location and specific size, it is unrestricted, such as: confined planes and limited step can be located at two rotary joint docking sections
The inside at position place, it (can be inclined-plane may be straight that the end that component of inside is located at docking site, which is equipped with confined planes,
Face), that component positioned at outside is equipped with limited step, then when two rotary joints are close to each other, confined planes can be against
On limited step, so that it is close to each other to limit the two;Alternatively, confined planes and limited step can also be located at docking site
Outside, such as the bending of one of rotary joint, another rotary joint, which is set up, is just against its bending part, then has curved
The bending part of that rotary joint of folding part position is limited step, and the end of another rotary joint is confined planes, together
It is close to each other that sample can limit two connectors.
In any of the above-described technical solution, first rotary joint is located in the lid, second rotary joint
In the pot body;And/or the whole rectangular shape of first rotary joint;And/or second rotary joint is whole
Rectangular shape.
First rotary joint is located in lid, not only plays good protective effect to the first rotary joint, but also optimize
The appearance of cover assembly, and ensure that the first rotary joint can be rotated synchronously with lid and upper cover feed pipe;Second rotation connects
Head is located in pot body, not only plays good protective effect to the second rotary joint, but also optimize the appearance of frame assembly, and protects
Having demonstrate,proved the second rotary joint can keep opposing stationary with pot body and fuselage feed pipe.
The whole rectangular shape of first rotary joint can then be such that its rearward section docks with the second rotary joint, another
Duan Xiangqian extends, and docks with upper cover feed pipe, extends forwardly at accommodating chamber convenient for upper cover feed pipe, is conducive to as needed
The position of reasonable Arrangement upper cover feed pipe reduces the bending angle of upper cover feed pipe, optimizes the layout of beam line of cover assembly.
The whole rectangular shape of second rotary joint can then make its top one section to dock with the first rotary joint, another
Section extends downwardly, and docks with fuselage feed pipe, and the discharge outlet of material storing box is extended downward into convenient for fuselage feed pipe, is conducive to
The position of reasonable Arrangement fuselage feed pipe as needed, reduces the bending angle of fuselage feed pipe, also optimizes frame assembly
Layout of beam line.
In any of the above-described technical solution, the upper cover feed pipe includes multistage upper cover pipeline, the adjacent upper cover pipe
It is docked and connected between road by pipe joint;And/or the fuselage feed pipe includes multistage fuselage pipeline, the adjacent machine
Barrel is docked and connected between road by pipe joint.
Upper cover feed pipe is divided into multistage upper cover pipeline, adjacent upper cover pipeline is connected using pipe joint, is convenient for
According to the specific structure of lid come the specific location and trend of rational deployment upper cover feed pipe so that the position of upper cover feed pipe and
Trend is more rationally reliable, to advanced optimize the layout of beam line of cover assembly;And the pipeline between adjacent upper cover pipeline
Connector can be anchor tip, be also possible to rotary joint, can rationally be set according to the position of component and the layout of product
Meter.
Fuselage feed pipe is divided into multistage fuselage pipeline, adjacent fuselage pipeline is connected using pipe joint, is convenient for
According to the specific structure of pot body come the specific location and trend of rational deployment fuselage feed pipe so that the position of fuselage feed pipe and
Trend is more rationally reliable, to advanced optimize the layout of beam line of frame assembly;And the pipeline between adjacent fuselage pipeline
Connector can be anchor tip, be also possible to rotary joint, it is reasonable that liquid can be carried out according to the position of component and the layout of product
Design.
In any of the above-described technical solution, the structure that is rotatably connected is hinge engaging structure, and first rotation connects
The central axis coincidence or parallel of rotation axis and the hinge axis of the hinge engaging structure of head;And/or the frame assembly
Further include: proportioning device is connected, for quantitatively sending with the input terminal of the discharge port of the material storing box and the fuselage feed pipe
Rice;And/or the frame assembly further include: air supply device is connected, for utilizing with the input terminal of the fuselage feed pipe
Material is sent into the accommodating chamber by wind-force.
The structure realization that is connected by a hinge of the rear end of lid and the rear end of pot body is rotatably connected, and connection is reliable, and technique
It is mature;And hinge engaging structure includes hinge axis (rotation axis i.e. in preceding solution), lid is with respect to pot body around hinge axis
Rotation, thus the central axis of hinge axis is rotation axis of the lid with respect to pot body, so the rotary shaft of the first rotary joint
The central axis of line and hinge axis is overlapped or parallel, that is, realizes and being overlapped or putting down with the rotation axis for the structure that is rotatably connected
Row.
Frame assembly further includes proportioning device, proportioning device and the discharge port of material storing box and the input terminal phase of fuselage feed pipe
Connection, can be realized and quantitatively send meter Gong Neng, to further improve the class of product;Preferably, proportioning device is located at storing
The underface of case discharge port, convenient for realizing the automatic output of material using the gravity of material.Specifically, proportioning device can be matter
Proportioning device is measured, realizes quantitative conveying by weighing quality or the measurement modes such as gravity or pressure;It may be volume quantitative
Device, the material by conveying fixed volume realize the conveying of fixed mass material.
Cooking apparatus further includes air supply device, and air supply device is connected with the input terminal of fuselage feed pipe, can be to fuselage
Material in fuselage feed pipe is sent into upper cover feed pipe using wind-force and further sent to accommodating chamber by blowing in feed pipe,
Realize pneumatic feed function, and pneumatic feed have the advantages that it is clean and pollution-free;Simultaneously as cooking pot provided by the present application
Gap will not be generated between feeding material component during ensure that folding lid by having, to effectively prevent wind loss, ensure that gas
The efficiency of dynamic feeding.Specifically, air supply device includes blower and blast pipe, and blower is located in pot body, the both ends difference of blast pipe
It is connected with blower and fuselage feed pipe.Further, for above-mentioned cooking apparatus further include proportioning device technical solution and
Speech, the both ends of blast pipe are connected with blower and proportioning device respectively, and the material in proportioning device is sent into fuselage feed pipe, and
It further send at the accommodating chamber to lid.
In any of the above-described technical solution, the accommodating chamber is the cleaning chamber that can clean material;Alternatively, the accommodating chamber
For can be for blanking chamber that material passes through;Alternatively, the accommodating chamber is the installation cavity passed through for the upper cover feed pipe.
Accommodating chamber is the cleaning chamber that can clean material, then the material in material storing box is first sent into lid via feeding material component
Cleaning it is intracavitary, be sent into after cleaning intracavitary cleaning in cooked in pot so that cooking apparatus is provided with upper cover
The function of washing rice further improves the degree of automation of product;And wash rice compared to interior pot, upper cover wash rice material input and
Dirt discharge process is relatively simple.
Accommodating chamber is the installation cavity passed through for upper cover feed pipe, then the material in material storing box reaches lid via feeding material component
Place, then pass through lid be sent into pot, can be cleaned in pot, directly be cooked in pot inside after cleaning inside
It prepares food, so that cooking apparatus has the function of that interior pot washes rice, further improves the degree of automation of product;And compared to upper
Lid washes rice, and interior pot, which washes rice and can be avoided material wall built-up, leads to the halfway problem of blanking, to improve the utilization rate of material.
Accommodating chamber is can be for the blanking chamber that material passes through, then the material in material storing box is first sent into lid via feeding material component
In blanking it is intracavitary, then can be sent into interior pot and be cleaned, directly be cooked in pot inside after cleaning, to make
Obtaining cooking apparatus has the function of that interior pot washes rice, also further improves the degree of automation of product;And compared to by across
Material is directly sent into interior pot by the upper cover feed pipe of lid, this kind of scheme can shorten the length of upper cover feed pipe, and reduce
To the power demand of feeding power source.
In any of the above-described technical solution, the cooking apparatus is electric cooker.
It is certainly not limited to electric cooker, or electric pressure cooking saucepan, electric caldron, electric steamer etc..
The additional aspect and advantage of the utility model will become obviously in following description section, or practical new by this
The practice of type is recognized.
Detailed description of the invention
The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will
Become obvious and be readily appreciated that, in which:
Fig. 1 is the local overlooking structural schematic diagram of cooking apparatus described in some embodiments of the utility model;
Fig. 2 be in Fig. 1 A-A to schematic cross-sectional view;
Fig. 3 is the enlarged structure schematic diagram in the portion B in Fig. 2;
Fig. 4 is the fragmentary bottom structural schematic diagram of cooking apparatus described in some embodiments of the utility model.
Wherein, the appended drawing reference in Fig. 1 to Fig. 4 and the corresponding relationship between component names are as follows:
11 pot bodys, 12 material storing box, pot in 13,14 hinge axis, 21 lids, 22 cleaning chambers, 31 fuselage feed pipes, 32 upper covers are sent
Expects pipe, 33 first rotary joints, 331 limited steps, 34 second rotary joints, 341 confined planes, 342 sleeves, 40 proportioning devices,
51 blowers, 52 blast pipes.
Specific embodiment
In order to be more clearly understood that the above objects, features, and advantages of the utility model, with reference to the accompanying drawing and have
The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen
The feature in embodiment and embodiment please can be combined with each other.
Many details are explained in the following description in order to fully understand the utility model, still, this is practical
Novel to be implemented using other than the one described here other modes, therefore, the protection scope of the utility model is simultaneously
It is not limited by the specific embodiments disclosed below.
The cooking apparatus according to the utility model some embodiments is described referring to Fig. 1 to Fig. 4.
As shown in Figures 1 to 4, cooking apparatus provided by the utility model, comprising: frame assembly, cover assembly and feeding
Component.
Specifically, frame assembly includes pot body 11 and material storing box 12;Cover assembly includes the lid that lid is located in pot body 11
21 and the accommodating chamber that is arranged on lid 21, the rear end of lid 21 be connected by being rotatably connected structure with the rear end of pot body 11,
Accommodating chamber is connected by feeding material component with material storing box 12;Feeding material component includes: fuselage feed pipe 31, upper cover feed pipe 32 and
One rotary joint 33, wherein fuselage feed pipe 31 is at least partially disposed in pot body 11, and the discharging of its input terminal and material storing box 12
Mouth is connected;Upper cover feed pipe 32 is at least partially disposed in lid 21, and its output end is connected with accommodating chamber;First rotation connects
First 33 both ends are connected with the input terminal of the output end of fuselage feed pipe 31 and upper cover feed pipe 32 respectively, and can be with respect to machine
Body feed pipe 31 and/or upper cover feed pipe 32 rotate, and the rotation axis coincident of its rotation axis and the structure that is rotatably connected or
In parallel.
Upper cover feed pipe 32 and the docking site of fuselage feed pipe 31 are transferred to by cooking apparatus provided by the utility model
Product rear end improves the aesthetics of product to realize rear endfeed;And in upper cover feed pipe 32 and fuselage feed pipe 31
Between be additionally arranged the first rotary joint 33, to guarantee the reliable connected between upper cover feed pipe 32 and fuselage feed pipe 31, avoid
The aperture on jacket, and then avoid dirty water in the prior art and spot enters feed pipe influences the problem of health;And
Due to the first rotary joint 33 and the rotation axis coincident for the structure that is rotatably connected or parallel, feeding during folding lid ensure that
Be not in dislocation between component, to ensure that feeding material component is not in gap, and then solve in the prior art because upper
Lid, which leads to the problem of gap with fuselage cooperation, leads to feeding power loss.
Specifically, cooking apparatus includes frame assembly, cover assembly and feeding material component, frame assembly includes 11 He of pot body
Material storing box 12, the interior interior pot 13 being equipped with for culinary art of pot body 11, material storing box 12 is for storing material;Cover assembly includes lid 21
And accommodating chamber, accommodating chamber can be used for cleaning material, can be used for blanking, can be used for passing through for upper cover feed pipe 32;
Feeding material component includes being sequentially connected logical fuselage feed pipe 31, the first rotary joint 33 and upper cover feed pipe 32, fuselage feed pipe
31 are at least partially disposed in pot body 11, ensure that material can be delivered up via 11 part of pot body, upper cover feed pipe 32 is at least
Part be located at lid 21 in, ensure that material can via 21 part of lid reach accommodating chamber at, and then cleaned, store or
The courses of work such as person's culinary art;Since upper cover feed pipe 32 is connected with fuselage feed pipe 31 by the first rotary joint 33, first
Rotary joint 33 is located at the rear portion of cooking apparatus, and the first rotary joint 33 and the knot that is rotatably connected for being located at cooking apparatus rear end
After the rotation axis coincident of structure is parallel, thus the docking site of upper cover feed pipe 32 and fuselage feed pipe 31 also is located at product
Side improves the aesthetics of product to realize rear endfeed;And upper cover feed pipe 32 is realized by the first rotary joint 33
Connection between fuselage feed pipe 31 is not necessarily to the aperture on jacket, ensure that the wholesomeness of product;Simultaneously as first
Rotary joint 33 and the rotation axis coincident for the structure that is rotatably connected are parallel, and the first rotary joint 33 can be sent with respect to fuselage
Expects pipe 31 and/or upper cover feed pipe 32 rotate, ensure that during folding lid the first rotary joint 33 and upper cover feed pipe 32 and
It is good fit between fuselage feed pipe 31, upper cover feed pipe 32 during folding lid is passed through with fuselage feed pipe 31
First rotary joint, which is realized, to be relatively rotated, and ensure that will not generate gap between feeding material component, to ensure that feeding efficiency.
The specific structure of cooking apparatus provided by the present application is described below with reference to some embodiments.
Embodiment one (as shown in Figures 1 to 4)
The rotation axis coincident of the rotation axis of first rotary joint 33 and the structure that is rotatably connected, institute as shown in Figure 1 to Figure 4
Show.
When the rotation axis of the first rotary joint 33 and the rotation axis coincident for the structure that is rotatably connected, so that upper cover feeding
It can be realized complete synchronous rotation between pipe 32 and lid 21, thus reduce the requirement to upper cover feed pipe 32, make simultaneously
The structure for obtaining product is relatively simple, convenient for assembly.
Accommodating chamber is the cleaning chamber 22 that can clean material, as shown in Figures 1 to 4.
Accommodating chamber is the cleaning chamber 22 that can clean material, then the material in material storing box 12 is first sent into via feeding material component and is covered
In cleaning chamber 22 in body 21, it is sent into interior pot 13 and is cooked after cleaning and being cleaned in chamber 22, so that cooking pot
It is provided with the function that upper cover washes rice, further improves the degree of automation of product;And rice is washed compared to interior pot 13, upper cover is washed
The material input of rice and dirt discharge process are relatively simple.
Further, as shown in Figure 1 to Figure 3, feeding material component further include: the second rotary joint 34 is located at fuselage feed pipe
31 and first between rotary joint 33, and its both ends is close with the output end of fuselage feed pipe 31 and the first rotary joint 33 respectively
One end of fuselage feed pipe 31 is connected.
Second rotary joint 34 is set between fuselage feed pipe 31 and the first rotary joint 33, on the one hand avoids first
Rotary joint 33 directly docks friction, the vibration for causing fuselage feed pipe 31 frequently to occur by a relatively large margin with fuselage feed pipe 31 and causes
Situations such as making serious wear, softening, deformation, shifting, fall off, is made to play good protection to fuselage feed pipe 31
With not only having improved the use reliability of fuselage feed pipe 31, but also extend the service life of fuselage feed pipe 31;On the other hand,
The structure that the first rotary joint 33 can also be simplified avoids the feed pipe at two positions of the first rotary joint 33 while connection from causing
The excessively complicated situation of structure occurs, and convenient for rationally designing upper cover feed pipe 32 and fuselage feed pipe 31 according to product structure
Position, to optimize product layout.
Wherein, the second rotary joint 34 is fixedly linked with fuselage feed pipe 31, the first rotary joint 33 and upper cover feed pipe
32 are fixedly linked, and rotatably connect with the second rotary joint 34, and opposite second rotary joint of the first rotary joint 33
The axis and the rotation axis coincident for the structure that is rotatably connected of 34 rotations, as shown in Figure 2.
One end of second rotary joint 34 is fixedly linked with fuselage feed pipe 31, so that fuselage feed pipe 31 and the second rotation
Relative static conditions are lain substantially between connector 34, avoiding fuselage feed pipe 31 because rubbing, shaking causes serious wear, soft
Situations such as changing, deform, shifting, falling off both improves machine to play good protective effect to fuselage feed pipe 31
The use reliability of body feed pipe 31, and extend the service life of fuselage feed pipe 31;First rotary joint 33 is sent with upper cover
Expects pipe 32 is fixedly linked, so that lying substantially in relative static conditions between upper cover feed pipe 32 and the first rotary joint 33, keeps away
Upper cover feed pipe 32 is exempted from because rubbing, shaking situations such as causing serious wear, softening, deformation, shifting, fall off, thus right
Upper cover feed pipe 32 plays good protective effect, has not only improved the use reliability of upper cover feed pipe 32, but also extends
The service life of lid feed pipe 32;And then to be rotatably connected between the second rotary joint 34 and the first rotary joint 33, and revolve
Shaft axis and the rotation axis coincident of structure of being rotatably connected, thus pass through the first rotary joint 33 and the second rotary joint 34
Be docked and connected, not only realized the connection between upper cover feed pipe 32 and fuselage feed pipe 31, but realize upper cover feed pipe 32 with
Relative rotation reliable and stable during folding lid between fuselage feed pipe 31.
Further, the structure that is rotatably connected includes rotation axis, and the first rotary joint 33 and the second rotary joint 34 are located at
Axial side being rotated, and the second rotary joint 34 is equipped with sleeve 342, sleeve 342 is set on one end of rotation axis,
As shown in Figures 2 and 3.
First rotary joint 33 and the setting of the second rotary joint 34 are being rotated into axial side, can be avoided two
Rotary joint is interfered or is influenced each other with rotation axis, and without carrying out excessive change to the existing structure that is rotatably connected
It is dynamic;And sleeve 342 is set on the second rotary joint 34, sleeve 342 is set on one end of rotation axis, the second rotation is connect
First 34 play good position-limiting action, guarantee that it is always positioned on same axis with rotation axis, will not shift, Jin Erbao
It has demonstrate,proved the first rotary joint 33 to be overlapped relative to the axis that the second rotary joint 34 rotates with the central axis of rotation axis, ensure that and send
Expect the use reliability of component.
Further, the first rotary joint 33 is docked and connected with the second rotary joint 34 by nested mode, such as Fig. 3 institute
Show.
First rotary joint 33 is docked and connected with the second rotary joint 34 by nested mode, is increased between the two
Contact area not only improves sealing performance, but also reduces the probability fallen off therebetween, to further improve feeding
The use reliability of component.Specifically, one end of the first rotary joint 33 can be inserted into the second rotary joint 34, makes second
Rotary joint 34 is set on the first rotary joint 33;The first rotary joint can also be inserted into one end of second rotary joint 34
In 33, it is set in the first rotary joint 33 on second rotary joint 34.
Preferably, sealing element is equipped at the docking site of the first rotary joint 33 and the second rotary joint 34.
Sealing element is set at the docking site of the first rotary joint 33 and the second rotary joint 34, further improves and send
The sealing performance for expecting component, to further improve the use reliability of feeding material component.Specifically, it can be connect in the first rotation
First 33 and second rotary joint 34 docking site at be located inside that component on be arranged annular limiting groove, limiting
Sealing ring is set in groove, to realize sealing between the two.
Preferably, one in the first rotary joint 33 and the second rotary joint 34 is equipped with confined planes 341, on another
Equipped with the limited step 331 being oppositely arranged with confined planes 341, as shown in figure 3, confined planes 341 match energy with limited step 331
It is close to each other along the rotation axis of the first rotary joint 33 with the second rotary joint 34 enough to limit the first rotary joint 33.
By setting confined planes 341 and limited step 331, is interfered using between the two, can be avoided the first rotation
Adapter 33 and the second rotary joint 34 are close to each other along the rotation axis direction of the first rotary joint, ensure that the first rotation connects
First 33 and second can only relatively rotate between rotary joint 34, so that reducing the first rotary joint 33 is detached from upper cover feeding
Pipe 32 and the second rotary joint 34 are detached from the probability of fuselage feed pipe 31, further improve the use reliability of feeding material component.
It is unrestricted as the specific location and specific size of confined planes 341 and limited step 331, such as: confined planes
341 and limited step 331 can be located at the inside at two rotary joint docking sites, inside that is located at docking site
The end of component is equipped with confined planes 341 (can may be to face directly for inclined-plane), that component positioned at outside is equipped with limit
Step 331, then when two rotary joints are close to each other, confined planes 341 can be resisted against on limited step 331, to limit
The two is close to each other;Alternatively, confined planes 341 and limited step 331 can also be located at the outside of docking site, such as one of them
Rotary joint bending, another rotary joint, which is set up, is just against its bending part, then that rotation with bending part
The bending part of connector is limited step 331, and the end of another rotary joint is confined planes 341, can equally be limited
Two connectors are close to each other.
Further, the first rotary joint 33 is located in lid 21, and the second rotary joint 34 is located in pot body 11.
First rotary joint 33 is located in lid 21, not only plays good protective effect to the first rotary joint 33, but also
The appearance of cover assembly is optimized, and ensure that the first rotary joint 33 synchronous with lid 21 and upper cover feed pipe 32 can turn
It is dynamic;Second rotary joint 34 is located in pot body 11, not only plays good protective effect to the second rotary joint 34, but also optimize
The appearance of frame assembly, and ensure that the second rotary joint 34 can keep opposing stationary with pot body 11 and fuselage feed pipe 31.
Preferably, the whole rectangular shape of the first rotary joint 33.
The whole rectangular shape of first rotary joint 33 can then be such that its rearward section docks with the second rotary joint 34,
Another section extends forward, and docks with upper cover feed pipe 32, extends forwardly at accommodating chamber, is conducive to convenient for upper cover feed pipe 32
The position of reasonable Arrangement upper cover feed pipe 32 as needed, reduces the bending angle of upper cover feed pipe 32, optimizes cover assembly
Layout of beam line.
Preferably, the whole rectangular shape of the second rotary joint 34.
The whole rectangular shape of second rotary joint 34 can then make its top one section to dock with the first rotary joint 33,
Another section extends downwardly, and docks with fuselage feed pipe 31, and the discharging of material storing box 12 is extended downward into convenient for fuselage feed pipe 31
At mouthful, be conducive to the position of reasonable Arrangement fuselage feed pipe 31 as needed, reduce the bending angle of fuselage feed pipe 31, it is also excellent
The layout of beam line of frame assembly is changed.
Two (not shown) of embodiment
Difference with embodiment one is: accommodating chamber is can be for blanking chamber that material passes through.
Accommodating chamber is the installation cavity passed through for upper cover feed pipe 32, then the material in material storing box 12 is reached via feeding material component
At lid 21, then pass through lid 21 and be sent into interior pot 13, can be cleaned in pot 13 inside, after cleaning directly including
It is cooked in pot 13, so that cooking apparatus has the function of that interior pot 13 washes rice, further improves the automation of product
Degree;And rice is washed compared to upper cover, interior pot 13, which washes rice and can be avoided material wall built-up, leads to the halfway problem of blanking, to improve
The utilization rate of material.
Three (not shown) of embodiment
Difference with embodiment one is: accommodating chamber is the installation cavity passed through for upper cover feed pipe 32.
Accommodating chamber is can be for the blanking chamber that material passes through, then the material in material storing box 12 is first sent into via feeding material component and is covered
Blanking in body 21 is intracavitary, then can be sent into interior pot 13 and be cleaned, and is cooked in direct pot 13 inside after cleaning
It prepares food, so that cooking apparatus has the function of that interior pot 13 washes rice, also further improves the degree of automation of product;And it compares
The pot 13 in material is directly sent by the upper cover feed pipe 32 by passing through lid 21, this kind of scheme can shorten upper cover feed pipe
32 length, and reduce the power demand to feeding power source.
Example IV (not shown)
Difference with embodiment one or embodiment two or embodiment three is: the first rotary joint 33 is located at cooking apparatus
Rear portion, and its rotation axis is parallel with the rotation axis for the structure that is rotatably connected.
First rotary joint 33 is located at the rear portion of cooking apparatus, and the rotary shaft of its rotation axis and the structure that is rotatably connected
Line is parallel, then during folding lid upper cover feed pipe 32 deformation (such as upper cover feed pipe 32 be hose) appropriate need to occur
Lid 21 can be followed to rotate, while in turn ensuring and being docked with the first the good of rotary joint 33.
In any of the above-described embodiment, optionally, upper cover feed pipe 32 includes multistage upper cover pipeline, adjacent upper cover pipeline
Between be docked and connected by pipe joint.
Upper cover feed pipe 32 is divided into multistage upper cover pipeline, adjacent upper cover pipeline is connected using pipe joint, just
In the specific structure according to lid 21 come the specific location and trend of rational deployment upper cover feed pipe 32, so that upper cover feed pipe 32
Position and trend it is more rationally reliable, to advanced optimize the layout of beam line of cover assembly;And adjacent upper cover pipeline it
Between pipe joint can be anchor tip, be also possible to rotary joint, can according to the layout of the position of component and product into
Row rationally designs.
In any of the above-described embodiment, optionally, fuselage feed pipe 31 includes multistage fuselage pipeline, adjacent fuselage pipeline
Between be docked and connected by pipe joint.
Fuselage feed pipe 31 is divided into multistage fuselage pipeline, adjacent fuselage pipeline is connected using pipe joint, just
In the specific structure according to pot body 11 come the specific location and trend of rational deployment fuselage feed pipe 31, so that fuselage feed pipe 31
Position and trend it is more rationally reliable, to advanced optimize the layout of beam line of frame assembly;And adjacent fuselage pipeline it
Between pipe joint can be anchor tip, be also possible to rotary joint, liquid can be according to the position of component and the layout of product
It is rationally designed.
In any of the above-described embodiment, the structure that is rotatably connected is hinge engaging structure, the rotation of the first rotary joint 33
The central axis of axis and the hinge axis 14 of hinge engaging structure is overlapped or parallel, as depicted in figs. 1 and 2.
The structure realization that is connected by a hinge of the rear end of lid 21 and the rear end of pot body 11 is rotatably connected, and connection is reliable, and
Technical maturity;And hinge engaging structure includes hinge axis 14 (rotation axis i.e. in previous embodiment), lid 21 is with respect to pot body 11
Around hinge axis 14 rotates, thus the central axis of hinge axis 14 is rotation axis of the lid 21 with respect to pot body 11, so first
The central axis of the rotation axis of rotary joint 33 and hinge axis 14 is overlapped or parallel, that is, realize and be rotatably connected structure
The coincidence of rotation axis is parallel.
In any of the above-described embodiment, as shown in Figure 2 and Figure 4, frame assembly further include: proportioning device 40, with material storing box
12 discharge port is connected with the input terminal of fuselage feed pipe 31, for quantitatively sending rice.
Frame assembly further includes proportioning device 40, the discharge port and fuselage feed pipe 31 of proportioning device 40 and material storing box 12
Input terminal is connected, and can be realized and quantitatively send meter Gong Neng, to further improve the class of product;Preferably, proportioning device
40 are located at the underface of 12 discharge port of material storing box, convenient for realizing the automatic output of material using the gravity of material.Specifically, quantitative
Device 40 can be quality proportioning device 40, realize quantitative conveying by weighing quality or the measurement modes such as gravity or pressure;
It may be volume quantitative device 40, the material by conveying fixed volume realizes the conveying of fixed mass material.
In any of the above-described embodiment, as shown in Figure 2 and Figure 4, frame assembly further include: air supply device, with fuselage feeding
The input terminal of pipe 31 is connected, for material to be sent into accommodating chamber using wind-force.
Cooking apparatus further includes air supply device, and air supply device is connected with the input terminal of fuselage feed pipe 31, can be to machine
Material in fuselage feed pipe 31 is sent into upper cover feed pipe 32 using wind-force and further sent to appearance by blowing in body feed pipe 31
Na Qiangchu, realizes the function of pneumatic feed, and pneumatic feed have the advantages that it is clean and pollution-free;Simultaneously as the application provides
Cooking apparatus ensure that and will not generate gap between feeding material component during folding lid, to effectively prevent wind loss,
It ensure that the efficiency of pneumatic feed.Specifically, air supply device includes blower 51 and blast pipe 52, and blower 51 is located in pot body 11,
The both ends of blast pipe 52 are connected with blower 51 and fuselage feed pipe 31 respectively.Further, above-mentioned cooking apparatus is also wrapped
For the embodiment for including proportioning device 40, the both ends of blast pipe 52 are connected with blower 51 and proportioning device 40 respectively, will quantify
Material in device 40 is sent into fuselage feed pipe 31, and further send to the accommodating chamber on lid 21.
In any of the above-described embodiment, cooking apparatus is electric cooker.
It is certainly not limited to electric cooker, or electric pressure cooking saucepan, electric caldron, electric steamer etc..
Below by taking fully automatic rice cooker as an example, come describe the application a specific embodiment structure and working principle.
Fully automatic rice cooker has fuselage sections and upper cover part, and fuselage sections have rice-storing box (i.e. material storing box 12), upper cover part
Divide and washes a meter box (i.e. cleaning chamber 22);Rice barn bottom has a meter shuttle (i.e. proportioning device 40), and one end of rice shuttle is connected by blast pipe 52
It gives a dinner for a visitor from afar machine 51, the other end send mitron (i.e. fuselage feed pipe 31) to connect fuselage rotary joint (i.e. the second rotary joint by fuselage
34), it is internal to be mounted on jacket (fuselage, i.e. pot body 11) for fuselage rotary joint;Upper cover washes meter box by upper cover into mitron (on i.e.
Lid feed pipe 32) connection upper cover rotary joint (i.e. the first rotary joint 33), upper cover rotary joint is mounted on upper cover (i.e. lid
21) internal.
Whole pipelines and fuselage rotary joint, upper cover rotary joint be all it is hollow, upper cover rotary joint can be revolved around fuselage
Adapter rotation, the central axis of two connectors are overlapped with upper cover around 14 line of hinge axis that fuselage rotates.
First rotary joint 33 can be rotated with lid 21, due to the central axis and upper cover rotation axis of two connectors
It is overlapped, the mating surface of two connectors is not in dislocation during rotation, and closing lid rear fan 51 can send the rice grain pattern of meter Suo Nei
Mitron road and fuselage rotary joint, upper cover rotary joint, upper cover are blown into mitron and wash a meter box.
It follows that the application notifies design fuselage rotary joint, upper cover rotary joint, make the rotation centerline of two connectors
With upper cover rotation axis coincident, both solved front end in the prior art causes to hold into the aperture in upper cover and fuselage of rice scheme needs
Easily it is dirty be not easy the problem of cleaning, also solve with into the upper cover back-end in mitron road into rice need to uncap closing lid rotation ask
Topic.
In conclusion cooking apparatus provided by the utility model, by the docking site of upper cover feed pipe and fuselage feed pipe
It is transferred to product rear end, to realize rear endfeed, improves the aesthetics of product;And in upper cover feed pipe and fuselage feeding
It is additionally arranged the first rotary joint between pipe, to guarantee the reliable connected between upper cover feed pipe and fuselage feed pipe, avoids
Aperture on jacket, and then avoid dirty water in the prior art and spot enters feed pipe influences the problem of health;And due to
First rotary joint and the rotation axis coincident for the structure that is rotatably connected are parallel, ensure that during folding lid feeding material component it
Between be not in dislocation, to ensure that feeding material component is not in gap, and then solve in the prior art because of upper cover and machine
Body cooperation, which leads to the problem of gap, leads to feeding power loss.
In the present invention, term " first ", " second ", " third " are only used for the purpose of description, and should not be understood as
Indication or suggestion relative importance;Term " multiple " then refers to two or more, unless otherwise restricted clearly.Term " peace
Dress ", " connected ", " connection ", the terms such as " fixation " shall be understood in a broad sense, can also be with for example, " connection " may be a fixed connection
It is to be detachably connected, or be integrally connected;" connected " can be directly connected, can also be indirectly connected through an intermediary.It is right
For those skilled in the art, can understand as the case may be above-mentioned term in the present invention specifically contain
Justice.
In the description of the utility model, it is to be understood that term " on ", "lower", "left", "right", "front", "rear" etc. refer to
The orientation or positional relationship shown be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and
Simplify description, rather than the device or unit of indication or suggestion meaning there must be specific direction, with specific orientation construction
And operation, it is thus impossible to be construed as a limitation of the present invention.
In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc.
Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model
In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment
Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiment or examples
In can be combined in any suitable manner.
The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this
For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model
Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.
Claims (10)
1. a kind of cooking apparatus characterized by comprising
Frame assembly, including pot body and material storing box;
Cover assembly, including covering the lid being located in the pot body and the accommodating chamber being arranged on the lid, the lid
Rear end is connected by being rotatably connected structure with the rear end of the pot body, and the accommodating chamber passes through feeding material component and the material storing box
It is connected;
Wherein, the feeding material component includes:
Fuselage feed pipe is at least partially disposed in the pot body, and its input terminal is connected with the discharge port of the material storing box;
Upper cover feed pipe is at least partially disposed in the lid, and its output end is connected with the accommodating chamber;With
First rotary joint, the both ends input terminal phase with the output end of the fuselage feed pipe and the upper cover feed pipe respectively
Connection, and capable of being rotated relative to the fuselage feed pipe and/or the upper cover feed pipe, and its rotation axis with it is described rotatable
The rotation axis coincident of connection structure is parallel.
2. cooking apparatus according to claim 1, which is characterized in that the feeding material component further include:
Second rotary joint, between the fuselage feed pipe and first rotary joint, and its both ends respectively with it is described
The output end of fuselage feed pipe is connected with first rotary joint close to one end of the fuselage feed pipe.
3. cooking apparatus according to claim 2, which is characterized in that
Second rotary joint is fixedly linked with the fuselage feed pipe, first rotary joint and the upper cover feed pipe
It is fixedly linked, and is rotatably connect with second rotary joint, and relatively described second rotation of first rotary joint
Axis and the rotation axis coincident of the structure that is rotatably connected or parallel of adapter rotation.
4. cooking apparatus according to claim 3, which is characterized in that
The structure that is rotatably connected includes rotation axis, and first rotary joint and second rotary joint are located at described turn
Axial side is moved, and second rotary joint is equipped with sleeve, the sleeve is set in one end of the rotation axis
On.
5. cooking apparatus according to any one of claim 2 to 4, which is characterized in that
First rotary joint is docked and connected with second rotary joint by nested mode.
6. cooking apparatus according to claim 5, which is characterized in that
Sealing element is equipped at the docking site of first rotary joint and second rotary joint;And/or
One in first rotary joint and second rotary joint equipped with confined planes, another be equipped with it is described
The limited step that confined planes are oppositely arranged, the confined planes matched with the limited step can limit it is described first rotation connect
Head is close to each other along the rotation axis of first rotary joint with second rotary joint.
7. cooking apparatus according to any one of claim 2 to 4, which is characterized in that
First rotary joint is located in the lid, and second rotary joint is located in the pot body;And/or
The whole rectangular shape of first rotary joint;And/or
The whole rectangular shape of second rotary joint.
8. cooking apparatus according to any one of claim 1 to 4, which is characterized in that
The upper cover feed pipe includes multistage upper cover pipeline, by pipe joint in succession between the adjacent upper cover pipeline
It is logical;And/or
The fuselage feed pipe includes multistage fuselage pipeline, by pipe joint in succession between the adjacent fuselage pipeline
It is logical.
9. cooking apparatus according to any one of claim 1 to 4, which is characterized in that
The structure that is rotatably connected is hinge engaging structure, and the rotation axis of first rotary joint is connect with the hinge
The central axis coincidence or parallel of the hinge axis of structure;And/or
The frame assembly further include: proportioning device, with the discharge port of the material storing box and the input terminal of the fuselage feed pipe
It is connected, for quantitatively sending rice;And/or
The frame assembly further include: air supply device is connected with the input terminal of the fuselage feed pipe, for utilizing wind-force will
Material is sent into the accommodating chamber.
10. cooking apparatus according to any one of claim 1 to 4, which is characterized in that
The accommodating chamber is the cleaning chamber that can clean material;Or
The accommodating chamber is the installation cavity passed through for the upper cover feed pipe;Or
The accommodating chamber is can be for blanking chamber that material passes through.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820018865.4U CN208658900U (en) | 2018-01-05 | 2018-01-05 | Cooking apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820018865.4U CN208658900U (en) | 2018-01-05 | 2018-01-05 | Cooking apparatus |
Publications (1)
Publication Number | Publication Date |
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CN208658900U true CN208658900U (en) | 2019-03-29 |
Family
ID=65819667
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820018865.4U Active CN208658900U (en) | 2018-01-05 | 2018-01-05 | Cooking apparatus |
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Country | Link |
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CN (1) | CN208658900U (en) |
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2018
- 2018-01-05 CN CN201820018865.4U patent/CN208658900U/en active Active
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