CN107788869A - The reducing mechanism of food processor and there is its food processor - Google Patents

Abstract

The invention discloses a kind of reducing mechanism of food processor and there is its food processor, the reducing mechanism of food processor includes：Cup component, cup component is interior formed with heating chamber, and heating chamber includes side upper wall and side lower wall, and at least a portion ecto-entad contraction on direction from top to bottom of side lower wall, the outside of heating chamber is formed with thermal conductive cavity, the interior filling heat-conducting medium of thermal conductive cavity；Heater element, it is located on cup component；Agitating device, stretch into heating chamber, agitating device includes blade, and the lowermost extent and blade of side lower wall are relative up and down, and the maximum radial dimension D1 of the lowermost extent of side lower wall and the radial dimension D2 of blade ratio are less than 1.5；Or agitating device includes being looped around on the outside of blade and the flow disturbing cover of open at its lower end, the radial dimension D3 of the maximum radial dimension D1 of the lowermost extent of side lower wall and the opening of flow disturbing cover ratio is less than 1.5.According to the reducing mechanism of the food processor of the present invention, crush efficiency and smashing fineness can be improved.

Description

The reducing mechanism of food processor and there is its food processor

Technical field

The present invention relates to household electrical appliance technical field, a kind of reducing mechanism more particularly to food processor and there is it Food processor.

Background technology

In correlation technique, cup sidewalls and bottom are mostly at a right angle in the reducing mechanism of food processor, and rectangular area Outside in crushing knife or flow spoiler, above-mentioned rectangular area can only lean on the stream of water in cup to drive the flow direction of material in this region Crushed zone, but the effect in this region is fairly limited, it is less efficient, or even it is also possible that the dead band crushed.

The content of the invention

It is contemplated that at least solves one of technical problem in correlation technique to a certain extent.Therefore, the present invention One purpose is to propose a kind of reducing mechanism of food processor, the crush efficiency of the reducing mechanism of the food processor It is high.

It is another object of the present invention to propose a kind of food processor, the food processor is provided with above-mentioned food The reducing mechanism of processor.

The reducing mechanism of the food processor of embodiment according to a first aspect of the present invention, including：Cup component, the cup Formed with heating chamber in component, the heating chamber includes superposed side upper wall and the side lower wall positioned at bottom, under the side Last week of wall along the next week with the side upper wall along being connected, at least a portion of the side lower wall on direction from top to bottom by Export-oriented contract, the outside of the heating chamber cover the cavity wall of the heating chamber at least formed with thermal conductive cavity, the thermal conductive cavity A part, the thermal conductive cavity is interior to be filled with heat-conducting medium, and the heat-conducting medium contacts with the cavity wall of the heating chamber；Heating member Part, the heater element, which is located on the cup component, to be used to heat the heat-conducting medium, and the heater element adds with described The cavity wall of hot chamber is spaced apart；Agitating device, the agitating device are stretched into the heating chamber, and the agitating device includes blade, The lowermost extent of the side lower wall and the blade are relative up and down, wherein, the maximum radial chi of the lowermost extent of the side lower wall The very little D1 and radial dimension D2 of blade ratio is less than 1.5；Or the agitating device includes being looped around on the outside of the blade And the flow disturbing cover of open at its lower end, the maximum radial dimension D1 of the lowermost extent of the side lower wall and the footpath of the opening of the flow disturbing cover It is less than 1.5 to the ratio of dimension D 3.

The reducing mechanism of food processor according to embodiments of the present invention, by by the maximum radial dimension of crushed zone with The maximum radial dimension of the lowermost extent of side lower wall is set by predetermined ratio so that material greatly all in crushed zone, and At least a portion of side lower wall ecto-entad on direction from top to bottom shrinks, and is so easy to material to fall back to the bottom of heating chamber Portion, so as to solve the problems, such as to exist in correlation technique the crushing dead band of straight tube bottom of a cup root, and then improve crush efficiency and crushing Fineness.Further, since being provided with thermal conductive cavity, and heat-conducting medium is provided with thermal conductive cavity, therefore, can be passed by heat-conducting medium Heat conduction amount, it is convenient that heat is disperseed, so as to convenient uniformly heating.

In addition, the reducing mechanism of food processor according to the above embodiment of the present invention also has technology additional as follows special Sign：

According to some embodiments of the present invention, the rotational trajectory of the blade described in floor projection covers the side lower wall Lowermost extent, the maximum radial dimension D1 of the lowermost extent of the side lower wall and the radial dimension D2 of the blade ratio are less than 1；Or flow disturbing cover of the agitating device including being looped around the blade outside and open at its lower end, the flow-disturbing described in floor projection Cover covers the lowermost extent of the side lower wall, and the maximum radial dimension D1 of the lowermost extent of the side lower wall and the flow disturbing cover Opening radial dimension D3 ratio be less than 1.

Further, the rotational trajectory of the blade described in floor projection covers the lowermost extent of the side lower wall, described The maximum radial dimension D1 of the lowermost extent of the side lower wall and radial dimension D2 of blade ratio is less than 0.8；Or described stir The flow disturbing cover that device includes being looped around the blade outside and open at its lower end is mixed, described in floor projection described in flow disturbing cover covering The lowermost extent of side lower wall, and the maximum radial dimension D1 of the lowermost extent of the side lower wall and the footpath of the opening of the flow disturbing cover It is less than 0.8 to the ratio of dimension D 3.

According to some embodiments of the present invention, the side lower wall is gradually inwardly contracted to the heating chamber most from top to bottom Low spot, the bottom of the side lower wall is in plane, the arcwall face to lower recess or arcwall face protruding upward.

According to some embodiments of the present invention, the side lower wall is in the intilted arc on direction from top to bottom； Or the side lower wall is in rounding mesa-shaped.

According to some embodiments of the present invention, the inner surface of the side lower wall is provided with flow-interfering bar.

According to some embodiments of the present invention, the thermal conductive cavity is arranged to coat the bottom of the heating chamber, and described leads The liquid level of the heat-conducting medium of hot intracavitary is not higher than the 50% of the heating chamber depth.

According to some embodiments of the present invention, the cup component includes：Cup, the heating is limited in the cup Chamber；Envelope, the envelope are located at the bottom of the cup and on the outside of the cups, and the envelope is in open wide above Cassette shapes, last week of the envelope along be connected with the outer surface of the cup with the envelope and the cup it Between limit the thermal conductive cavity of closing.

According to some embodiments of the present invention, edge last week of the envelope is connected with the lower surface of the cup bottom wall, And the heat-conducting medium fills the thermal conductive cavity；Or the envelope coats the bottom of the cup, and the envelope is upper Week, along being connected with the cup perisporium, the heat conduction was limited between the perisporium and bottom wall of the envelope and the cup bottom Chamber, and the thermal conductive cavity coats the bottom of the heating chamber, the liquid level of the heat-conducting medium not less than the heating chamber bottom surface or Full of the thermal conductive cavity；Or the envelope coats the bottom of the cup, the envelope in a ring, the envelope it is upper Week, the next week edge of the envelope was connected with the periphery of the cup bottom wall, the envelope along being connected with the cup perisporium The thermal conductive cavity is limited between the perisporium of the cup bottom.

According to some embodiments of the present invention, the thermal conductive cavity is located at the outside of the heating chamber bottom, and the heat conduction is situated between Matter contacts with the cavity wall of the heating chamber and at least covers a part for the thermal conductive cavity bottom wall, and the heat-conducting medium with it is described The contact area of the cavity wall of heating chamber is in the range of 6885 square millimeters to 73100 square millimeters.

The food processor of embodiment according to a second aspect of the present invention, including：Shell；Reducing mechanism, the reducing mechanism It is located in the shell, the reducing mechanism is the reducing mechanism of the food processor described in above-mentioned first aspect embodiment；Machine Head, the head openably covers to be used to closing or opening the heating chamber on the reducing mechanism, the reducing mechanism Agitating device is located on the head.

The food processor of another embodiment according to a second aspect of the present invention, including：Shell；Reducing mechanism, the powder Crushing device is located in the shell, and the reducing mechanism is the crushing dress of the food processor described in above-mentioned first aspect embodiment Put；Support, the cup component of the reducing mechanism are shelved on the support, and the agitating device of the reducing mechanism is located at described On support, the agitating device is stretched into the heating chamber.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Substantially and it is readily appreciated that, wherein：

Fig. 1 is the schematic diagram of the reducing mechanism of food processor according to embodiments of the present invention；

Fig. 1 a to Fig. 1 e are the schematic diagrames of the reducing mechanism of the food processor of the several different embodiments of the present invention；

Fig. 2 is the partial enlarged drawing at Fig. 1 centre circles A；

Fig. 3 is the partial enlarged drawing at Fig. 1 centre circles B；

Fig. 4 is the partial schematic diagram of the reducing mechanism of food processor according to embodiments of the present invention；

Fig. 5 is the partial enlarged drawing at Fig. 4 centre circles C；

Fig. 6 is the schematic diagram of food processor according to an embodiment of the invention；

Fig. 7 is the schematic diagram of food processor in accordance with another embodiment of the present invention；

Fig. 8 is the schematic diagram according to the food processor of further embodiment of the present invention；

Fig. 9 is the schematic diagram according to the food processor of a still further embodiment of the present invention；

Figure 10 is the partial enlarged drawing at Fig. 9 centre circles E.

Reference：

Reducing mechanism 100,

Cup component 1, heating chamber 11, side upper wall 111, side lower wall 112, arc convex portion 1121, flow-interfering bar 114, cup 12, envelope 13,

Heater element 2, heat-conducting plate 21, binding post 22,

Thermal conductive cavity 3, heat-conducting medium 31, inlet 32, turn-up portion 321,

Closure member 4, screw rod 41, cover plate 42, sealing gasket 43,

Agitating device 5, blade 51, flow disturbing cover 52, connecting rod 53, electric machine assembly 54, connector 55, upper connector 551, lower company Device 552 is connect,

Food processor 200,

Shell 210, head 220, support 230, lid 240.

Embodiment

Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached The embodiment of figure description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

Food processor sets heating element heater using in the bottom of cup/outer wall more, by the heat of heating element heater conduct to In cup, although in this structure, increase heat conduction between cup and heating element heater than faster hardware (such as aluminium), from And increase heat-conducting area, avoid heat from excessively concentrating.Excessively concentrated however, the above method can only improve heat, and can not be basic Solve heat to concentrate, conduct the problem of uneven.Also some uses Electromagnetic Heating, control element is now needed, due to electromagnetic wire coil It is complicated, cost is higher.Also superconducting is used, it is necessary to which cavity is vacuumized, filling superconductor, complex process, Poor reliability, scrappage is high, and cost is higher.

Wherein, cup sidewalls and bottom are mostly at a right angle in the reducing mechanism of food processor, and rectangular area is in powder The outside of broken knife or flow spoiler, above-mentioned rectangular area can only lean on current in cup to drive the flow direction of material disintegrating area in this region Domain, but the effect in this region is fairly limited, it is less efficient, or even it is also possible that the dead band crushed.

Therefore, the present invention proposes a kind of new food processor and its reducing mechanism.To avoid or reduce heat concentration And the problem of crushing dead band be present.

The crushing that the food processor of embodiment according to a first aspect of the present invention is described in detail with reference to Fig. 1 to Figure 10 fills Put 100.

The reducing mechanism 100 of food processor according to embodiments of the present invention, including：Cup component 1, heater element 2 with And agitating device 5.

Specifically, with reference to Fig. 1 to Fig. 5, formed with heating chamber 11 in cup component 1, material to be heated (such as soya-bean milk Liquid, milk etc.) it can be placed in heating chamber 11.Heating chamber 11 includes superposed side upper wall 111 and under the side of bottom Wall 112, last week of side lower wall 112 along the next week with side upper wall 111 is along being connected so that material can be preferably from side lower wall 112 Slide to the bottom of side lower wall 112, dead band is crushed so as to decrease or even eliminate.Wherein, at least a portion of side lower wall 112 Ecto-entad shrinks on direction from top to bottom, and material will focus on the centre of the bottom of side lower wall 112, to facilitate blade powder Broken material, so as to preferably avoid crushing dead band, and the outside of heating chamber 11 covers formed with thermal conductive cavity 3, thermal conductive cavity 3 At least a portion of the cavity wall of heating chamber 11, thermal conductive cavity 3 is interior to be filled with heat-conducting medium 31 (such as conduction oil etc.), and heat-conducting medium 31 contact with the cavity wall of heating chamber 11.Heater element 2, which is located on cup component 1, to be used to heat heat-conducting medium 31, and member of generating heat Part 2 is spaced apart with the cavity wall of heating chamber 11.Thus, it can not only decrease or even eliminate and crush dead band, can also avoid heater element 2 Directly the heating of the cavity wall of heating chamber 11 is caused to heat it is uneven, so as to improve the performance of reducing mechanism 100.

Preferably, reference picture 1 and Fig. 6, the inner bottom surface of side lower wall 112 is formed with inwardly projecting arc convex portion 1121. Can be transition arc connection or broken line connection etc. between side upper wall 111 and side lower wall 112.Side lower wall 112 can be with curved, this Sample is easy to material to fall back to the bottom of heating chamber 11, so as to avoid the crushing dead band of straight tube bottom of a cup root, improve crush efficiency and Smashing fineness.

Referring to figs. 1 to Fig. 1 e, thermal conductive cavity 3 is located at the outside of the bottom of heating chamber 11, and heat-conducting medium is filled with thermal conductive cavity 3 31, and heat-conducting medium 31 contacts with the cavity wall of heating chamber 11 and at least covers a part for the bottom wall of thermal conductive cavity 3, and heat-conducting medium 31 Contact area with the cavity wall of heating chamber 11 is in the range of 6885 square millimeters to 73100 square millimeters.Thus, it is possible to so that Heat is more delivered to heat-conducting medium 31, so as to while the utilization rate of heat is improved, improve the uniformity of heating.

Specifically, with reference to Fig. 1 a to Fig. 1 e, the cup diameter of soy bean milk making machine heating chamber 11 is D, the highest liquid of heat-conducting medium 31 The height of face to the bottom of heating chamber 11 is H, and heat-conducting medium 31 and the contact area of heating chamber 11 are S, then have：S=3.14*D*D/ 4+3.14*D*H=3.14*D*D/4+4*V*1000000/D=0.85*D*D+4000000*V/D；Again because conventional soy bean milk making machine heats In the range of the cup diameter D=90mm~160mm of chamber 11, in the range of capacity V=0.4L~1.7L of conventional soy bean milk making machine, then

1st, H=0 is worked as, during D=90mm, Smin=0.85*90*90=6885 square millimeters；

2nd, V=1.7L is worked as, during D=160mm, Smax=0.85*160*160+4000000*1.7/160=73100 squares Millimeter；

3rd, the heat-conducting medium 31 and contact area S of heating chamber 11 is more than 73100 square millimeters, the liquid level of heat-conducting medium 31 Highest height during conventional soy bean milk making machine maximum capacity will be exceeded, invalid heat-conducting area S ', this partial invalidity will be formed The materials that the heat in heat-conducting medium 31 can not be effectively passed in heating chamber 11 of heat-conducting area S ', cause heat losses, Conduction efficiency reduces.Volume, the quality of heat-conducting medium 31 can be increased simultaneously, cause cup weight increase cost increase simultaneously；

4th, when heat-conducting medium 31 and the contact area S of heating chamber 11 are less than 6885 square millimeters, heat-conducting medium 31 and heating The contact area of chamber 11 is too small, the material that now heat in heat-conducting medium 31 can not be passed to fast and effectively in heating chamber 11, The temperature of heat-conducting medium 31 can be very high, is unfavorable for whole heater, while the time that can cause entirely to heat lengthens, work week Phase can also lengthen accordingly.

In some specific embodiments of the present invention, thermal conductive cavity 3 is arranged to coat the bottom of heating chamber 11, and thermal conductive cavity 3 The liquid level of interior heat-conducting medium 31 is not higher than the 50% of the depth of heating chamber 11.So not only can be more fully by heat Heating chamber 11 is delivered to by heat-conducting medium 31, improves the uniformity of heating, can also reduce heat-conducting medium 31 use, reduce into This, and mitigate the weight of reducing mechanism 100.

Preferably, during the use of actual food product processor, the liquid level and heating chamber of material in heating chamber 11 The ratio of 11 depth is generally no greater than 2.7, that is to say, that the liquid level of material is generally not more than the depth of heating chamber 11 37.04%, based on this, the liquid level of heat-conducting medium 31 can be arranged to not higher than heating chamber 11 depth 40% (example Such as be arranged to the depth of heating chamber 11 37.4%).

It is further preferred that ring width of the thermal conductive cavity 3 around the part of heating chamber 11 when thermal conductive cavity 3 coats 11 bottom of heating chamber In the range of 5 millimeters to 20 millimeters.

In addition, during the use of food processor, heater element 2 produces heat after being powered, caused by heater element 2 Heat will be transferred to heat-conducting medium 31, so as to be heated by heater element 2 to heat-conducting medium 31, while heat-conducting medium 31 Also transfer heat in heating chamber 11, so as to be heated to material to be heated in heating chamber 11.

Because heater element 2 does not heat directly to heating chamber 11, but it have selected and carried out using heat-conducting medium 31 Heat conduction, the temperature difference of heat-conducting medium 31 everywhere is smaller, and therefore, heat-conducting medium 31 will relatively be concentrated caused by heater element 2 Heat disperseed, heat the problem of uneven everywhere so as to avoid or reduce cup component 1 so that cup component 1 is each Place's uniformly heating, it finally avoid regional area in cup component 1 and be sticking and other positions heating the problem of not reaching requirement also.

With reference to Fig. 6, Fig. 7 and Fig. 9, in some embodiments of the invention, agitating device 5 is stretched into heating chamber 11, is stirred Mixing device 5 includes blade 51, and the lowermost extent of side lower wall 112 and blade are relative about 51.Wherein, the lowest region of side lower wall 112 The maximum radial dimension D1 in the domain and radial dimension D2 (being designated as crushed zone) of blade 51 ratio is less than 1.5.That is, D1/D2<1.5, now, the maximum radial dimension D1 of the lowermost extent of side lower wall 112 can be more than the radial dimension D2 of blade 51. Certainly, in some specific embodiments of the present invention, the maximum radial dimension D1 of the lowermost extent of side lower wall 112 can also be equal to Or the radial dimension D2 less than blade 51.Dead band is crushed thus, it is possible to reduce or even eliminate, improves the smashing fineness of material.

Reference picture 1 and Fig. 8, in other embodiments of the present invention, agitating device 5 include being looped around the outside of blade 51 and The flow disturbing cover 52 of open at its lower end, the maximum radial dimension D1 of the lowermost extent of side lower wall 112 and the radial direction of the opening of flow disturbing cover 52 The ratio of dimension D 3 (being designated as crushed zone) is less than 1.5.That is, D1/D3<1.5, now, the lowermost extent of side lower wall 112 Maximum radial dimension D1 can be more than flow disturbing cover 52 opening radial dimension D3.Certainly, some in the present invention are specific real Apply in example, the maximum radial dimension D1 of the lowermost extent of side lower wall 112 can also be equal to or less than the footpath of the opening of flow disturbing cover 52 To dimension D 3.Dead band is crushed thus, it is possible to reduce or even eliminate, the smashing fineness of material is improved, preferably meets the need of user Ask.

The reducing mechanism 100 of food processor according to embodiments of the present invention, by by the maximum radial chi of crushed zone It is very little to be set with the maximum radial dimension of the lowermost extent of side lower wall 112 by predetermined ratio so that material is greatly all in crushed zone In, and at least a portion of side lower wall 112 ecto-entad on direction from top to bottom shrinks, and is so easy to material to fall back to The bottom of heating chamber 11, so as to solve the problems, such as to exist in correlation technique the crushing dead band of straight tube bottom of a cup root, and then improve powder Broken efficiency and smashing fineness.Further, since being provided with thermal conductive cavity 3, and heat-conducting medium 31 is provided with thermal conductive cavity 3, therefore, can It is convenient that heat is disperseed to conduct heat by heat-conducting medium 31, so as to convenient uniformly heating.

With reference to Fig. 6, Fig. 7 and Fig. 9, according to some specific embodiments of the present invention, the rotation of blade 51 in floor projection Mark of going through transition covers the lowermost extent of side lower wall 112, the maximum radial dimension D1 of the lowermost extent of side lower wall 112 and the footpath of blade 51 It is less than 1 to the ratio of dimension D 2 (being designated as crushed zone).Further, the rotational trajectory of blade 51 covers side in floor projection The lowermost extent of lower wall 112, the maximum radial dimension D1 of the lowermost extent of the side lower wall 112 and radial dimension D2 of blade 51 ratio Value is less than 0.8.Thus, when the use of reducing mechanism 100 is when on food processor, the lowermost extent of side lower wall 112, which is less than, to be crushed Region, therefore material is easy to fall back to the bottom of side lower wall 112, and make material greatly all in crushed zone, so as to improve thing The smashing fineness and crush efficiency of material, preferably meet the needs of user.

Reference picture 1 and Fig. 8, in other embodiments of the present invention, agitating device 5 include being looped around the outside of blade 51 and The flow disturbing cover 52 of open at its lower end, the lowermost extent of the covering of flow disturbing cover 52 side lower wall 112 in floor projection, and side lower wall 112 The maximum radial dimension D1 of lowermost extent and the radial dimension D3 (being designated as crushed zone) of the opening of flow disturbing cover 52 ratio are less than 1.Further, agitating device 5 includes the flow disturbing cover 52 for being looped around the outside of blade 51 and open at its lower end, the flow-disturbing in floor projection The lowermost extent of the covering side lower wall 112 of cover 52, and the maximum radial dimension D1 of the lowermost extent of side lower wall 112 and flow disturbing cover 52 The radial dimension D3 of opening ratio is less than 0.8.Thus, when the use of reducing mechanism 100 is when on food processor, side lower wall 112 lowermost extent is less than crushed zone, therefore material is easy to fall back to the bottom of side lower wall 112, and material is greatly all in powder In broken region, so as to improve the smashing fineness of material and crush efficiency, preferably meets the needs of user.

With reference to Fig. 1 and Fig. 6 to Fig. 9, according to some embodiments of the present invention, side lower wall 112 is from top to bottom (for example, Fig. 1 Shown in above-below direction) be gradually inwardly contracted to the minimum point of heating chamber 11, the bottom of side lower wall 112 is in plane (reference picture 7 To Fig. 9), to the arcwall face (reference picture 4) of lower recess or arcwall face protruding upward (reference picture 1 and Fig. 6).As a result, thing Material preferably can be slid to the bottom of side lower wall 112 from side lower wall 112, and dead band is crushed so as to decrease or even eliminate.

For example, in Fig. 7 to Fig. 9 example, the inner bottom surface of side lower wall 112 is plane.In the example of fig. 4, side lower wall 112 bottom is in the arcwall face to lower recess.In Fig. 1 and Fig. 6 example, the bottom of side lower wall 112 is in arc protruding upward Shape, thus, crush efficiency can be improved.

Wherein, in other embodiments of the invention, the bottom of side lower wall 112 can also be in such as Wave curved shape, The concrete structure of side lower wall 112 can be according to being actually needed accommodation.

As shown in Figure 1 and Figure 4, according to some specific embodiments of the present invention, side lower wall 112 is in direction from top to bottom Intilted arc on (for example, above-below direction shown in Fig. 4), thus, it is easy to make the material after crushing slide to side The bottom of wall 112, so as to improve the smashing fineness of material.

Certainly, the invention is not restricted to this, in other embodiments of the invention, reference picture 7 to Fig. 9, side lower wall 112 also may be used With in rounding mesa-shaped.Thus, the smashing fineness of material can be improved to a certain extent.

Reference picture 1, according to some embodiments of the present invention, the inner surface of side lower wall 112 is provided with flow-interfering bar 114.Flow-disturbing Muscle 114 extends internally and flow-interfering bar 114 is multiple, and multiple arranged for interval of flow-interfering bar 114 are in the inside of heating chamber 11, thus, energy It is enough that preferably material is stirred, avoid the occurrence of the phenomenon being sticking.

Reference picture 5 simultaneously combines Fig. 4 and Fig. 3, and in some specific embodiments of the present invention, the outer wall of thermal conductive cavity 3 is provided with Inlet 32, and the outer wall of thermal conductive cavity 3 is provided with closure member 4, closure member 4 is used to close inlet 32.Can by inlet 32 With the filling heat-conductive medium 31 into thermal conductive cavity 3, the producing efficiency of cup component 1 is improved, is completed in addition, being injected in heat-conducting medium 31 Afterwards, inlet 32 can be closed by closure member 4.

It is, of course, also possible to while cup component 1 is made, heat-conducting medium 31 is injected into thermal conductive cavity 3.In addition, envelope Closing member 4 can be fixed on the outer wall of thermal conductive cavity 3 by modes such as welding, clamping, threaded connections.

For example, in the embodiment of the present invention shown in fig. 3, closure member 4 includes screw rod 41 and cover plate 42, screw rod 41 One end lower end of screw rod 41 (for example, in Fig. 3) is connected with cover plate 42, the other end of screw rod 41 (for example, in Fig. 3 screw rod 41 it is upper End) stretch into inlet 32 and be connected with the outer wall thread of thermal conductive cavity 3, sealing is provided between the outer wall of cover plate 42 and thermal conductive cavity 3 Pad 43, sealing gasket 43 be bonded with the outer wall of thermal conductive cavity 3 and be enclosed on on the outer peripheral face of screw rod 41.The mode being connected through a screw thread can So that closure member 4 is stable and is quickly installed on the outer wall of thermal conductive cavity 3, in addition, between the outer wall of cover plate 42 and thermal conductive cavity 3 Sealing gasket 43 is set, inlet 32 can be closed by sealing gasket 43, improves the sealing and stability of thermal conductive cavity 3.

Preferably, with reference to Fig. 3 and Fig. 5, the week of inlet 32 is along provided with the turn-up portion 321 towards extension in thermal conductive cavity 3, closing Part 4 is threadedly coupled with turn-up portion 321.By setting turn-up portion 321, closure member 4 can be made to be stably installed at cup component 1 On, so as to improve the stability of the installation of closure member 4, and further improve the sealing property to inlet 32.

In addition, inlet 32 can be located at the side wall or bottom wall of thermal conductive cavity 3.

As shown in figure 1, according to some specific embodiments of the present invention, at least one in the bottom and side face of cup component 1 Place is provided with thermal conductive cavity 3.Thereby, it is possible to preferably transfer heat to heat-conducting medium 31, so as to further realize to material Uniformly heating.

For example, in the example of fig. 1, the bottom of cup component 1 is provided with thermal conductive cavity 3, thus, it is possible to preferably to cup Material in body component 1 is heated.Certainly, in other embodiments of the invention, can also be set in the side face of cup component 1 Thermal conductive cavity 3 is equipped with, can also be and thermal conductive cavity 3 is provided with the bottom of cup component 1 and side face.The specific of thermal conductive cavity 3 sets The mode of putting can be according to being actually needed accommodation.

With reference to Fig. 1 and Fig. 4, according to some embodiments of the present invention, cup component 1 includes：Cup 12 and envelope 13.Its In, limit heating chamber 11 in cup 12, envelope 13 is located at the bottom bottom of cup 12 (for example, in Fig. 1) of cup 12, bag Network layers 13 are located at the outside of cup 12, envelope 13 in cassette shapes unlimited above, last week of envelope 13 along with cup 12 Outer surface is connected to limit the thermal conductive cavity 3 of closing between envelope 13 and cup 12.Limited between envelope 13 and cup 12 Make thermal conductive cavity 3.So that the mode for forming thermal conductive cavity 3 is simple, the manufacture craft of cup component 1 is simplified, and reduces cost.

Wherein, reference picture 1, edge last week of envelope 13 is connected with the lower surface of the bottom wall of cup 12, and the note of heat-conducting medium 31 Full thermal conductive cavity 3.It can so enable heat more abundant and be delivered evenly to cup 12, so as to improve heating Uniformity.

Certainly, the invention is not restricted to this.The bottom of cup 12 is coated with reference to Fig. 1 a to Fig. 1 e or envelope 13, And edge last week of envelope 13 is connected with the perisporium of cup 12, is limited between the perisporium and bottom wall of envelope 13 and the bottom of cup 12 Thermal conductive cavity 3, and thermal conductive cavity 3 coats the bottom of heating chamber 11, the liquid level of heat-conducting medium 31 not less than the bottom surface of heating chamber 11 or is full of Thermal conductive cavity 3.The utilization rate of heat can be so improved, uniform heating is better achieved.

Can also be that envelope 13 coats the bottom of cup 12, envelope 13 in a ring, last week of envelope 13 along with cup The perisporium of body 12 is connected, and the next week edge of envelope 13 is connected with the periphery of the bottom wall of cup 12, envelope 13 and the week of the bottom of cup 12 Thermal conductive cavity 3 is limited between wall, so as to improve the uniformity of heating.

In addition, envelope 13 to be coated on to the outside of cup 12, the stability of cup component 1 can be improved, relative to general Envelope 13 is arranged on for the inner side of cup 12, is avoided because poor sealing causes heat conduction to be situated between envelope 13 and cup 12 The safety problems such as the leakage of matter 31, improve the safety and stability of reducing mechanism 100.

Further, as shown in Figure 1 and Figure 4, envelope 13 coats the bottom of cup 12, and at least one of envelope 13 Divide and thermal conductive cavity 3 is limited between cup 12, the week edge of envelope 13 is connected with the perisporium or bottom wall of cup 12.Envelope 13 with The bottom of the perisporium of cup 12 and bottom wall are spaced apart to limit thermal conductive cavity 3.When food processor works, heater element 2 is right Thermal conductive cavity 3 heats so that the heat of the heat-conducting medium 31 in thermal conductive cavity 3 is more homogeneous, then can be by heat by thermal conductive cavity 3 In conduction to the side wall and bottom wall of heating chamber 11 simultaneously so that side wall and bottom wall heat, so as to improve the homogeneity of heating.

As shown in Figure 1 and Figure 4, in order to facilitate the cooperation of cup 12 and envelope 13, the making of raising cup component 1 and dress With efficiency, the radial dimension of the bottom of cup 12 is less than the radial dimension on top, and the perisporium of envelope 13 and the perisporium of cup 12 Top is substantially flush.So that the good appearance of cup component 1, and it is easy to the assembling and making of cup component 1.

In addition, the side lower wall 112 of cup 12 can be with curved, the arc of the bottom of cup 12 and the arc of side lower wall 112 Radian can be consistent or inconsistent.Thus, it is easy to material to fall back to the bottom of cup 12, so as to avoid the powder of straight tube bottom of a cup root Broken dead band, improve crush efficiency and smashing fineness.

In addition, such as Fig. 6, in other embodiments of the present invention, last week of envelope 13 is along the bottom wall phase with cup 12 Even, and the bottom wall of envelope 13 is spaced apart with the bottom wall of cup 12 to limit thermal conductive cavity 3.So as to be limited in the bottom of cup 12 Go out thermal conductive cavity 3.

In some embodiments of the invention, it is connected with reference to Fig. 1, edge last week of envelope 13 with the boxing of cup 12.So as to The stability and sealing connected between envelope 13 and cup 12 is improved, avoids heat-conducting medium 31 from spilling, or it is to be heated Article flows into thermal conductive cavity 3.

With reference to Fig. 1 to Fig. 9, in some embodiments of the invention, the height at the top of heat-conducting medium 31 is not less than heating chamber The height of 11 bottoms.Heat-conducting medium 31 is contacted with heating chamber 11, to facilitate heater element 2 by heat-conducting medium 31 Heat conduct to heating chamber 11, and make the temperature in cup 12 everywhere more consistent.

Further, in some embodiments of the invention, heat-conducting medium 31 is full of thermal conductive cavity 3.So that good heat conduction effect.

Preferably, heat-conducting medium 31 is liquid heat-conducting medium.It is convenient that heat-conducting medium 31 is injected into thermal conductive cavity 3, it is easy to The operation and maintenance of reducing mechanism 100.

Reference picture 1, heater element 2 are located in thermal conductive cavity 3, and heat-conducting medium 31 coats at least a portion of heater element 2. Directly heat-conducting medium 31 is heated that is heater element 2 is arranged in thermal conductive cavity 3, because heat-conducting medium 31 has coated hair At least a portion of thermal element 2 so that the heat of heater element 2 can be rapidly conducted to heat-conducting medium 31, but also can be with The loss of heat is avoided, improves energy utilization rate.

In actual use, heat-conducting medium 31 can be coated heater element 2 completely, can also selects to use heat conduction Medium 31 coats at least a portion of heater element 2, it is only necessary to which heat-conducting medium 31 can disperse heat caused by heater element 2 And pass to heating chamber 11.

Further, as shown in figure 1, inside due to heater element 2 to be arranged on to thermal conductive cavity 3, therefore, it is necessary to by electricity It can guide to heater element 2 so that heater element 2 is powered and generated heat.For example, the heater element 2 in the present invention has wiring Post 22, binding post 22 can be used for the energization of heater element 2, and binding post 22 can be connected with the outer wall of thermal conductive cavity 3, make It is stable to obtain the position of binding post 22, so as to improve the stability of heater element 2 and security.In addition, in order to facilitate binding post 22 connection power supplys, binding post 22 can be arranged to pass to the outer wall of thermal conductive cavity 3.

The fixed form of binding post 22 can include a variety of in the present invention, for example, the wiring of binding post 22 is welded in into thermal conductive cavity 3 Outer wall on, or the outer wall of binding post 22 and thermal conductive cavity 3 is integrally formed (for example with two-shot process).Certainly, also Nut link post 22 can be passed through.

Preferably, heater element 2 is heat-generating pipe, both ends (left and right ends of heater element 2 in reference picture 1) shape of heat-generating pipe Into binding post 22.Make the structure of heat-generating pipe simple, it is easy to assembly.In addition, after binding post 22 is secured, heat-generating pipe is also stably It is fixed in thermal conductive cavity 3, so as to be effectively improved the stability of heater element 2 and reliability.

Reference picture 6 to Fig. 9, heater element 2 is located at the outside of thermal conductive cavity 3, can so avoid direct pair of heater element 2 from adding Material in hot chamber 11 is heated, so as to improve the uniformity of heating.

In addition, the heater element 2 of the present invention can be arranged on the other positions of cup component 1, for example, by heater element 2 It is arranged on the outer surface of the outer wall of thermal conductive cavity 3.Preferably, can be set in the outside wall surface of thermal conductive cavity 3 and heat-conducting medium 31 Inside and outside relative heat-conducting plate 21 (reference picture 9), heat-conducting plate 21 can be located at the bottom wall of envelope 13 or the outside of side wall, heating member Part 2 is arranged on heat-conducting plate 21.Heater element 2 heats to heat-conducting plate 21, and the temperature on heat-conducting plate 21 everywhere is more uniform, then The heat of heat-conducting plate 21 is conducted to thermal conductive cavity 3, and is conducted by the heat-conducting medium 31 in thermal conductive cavity 3 to heating chamber 11, temperature Twice uniformly, further reduce the problem of local temperature of heating chamber 11 is too high, improve the uniform of the temperature everywhere of heating chamber 11 Property.

Preferably, as shown in figure 9, heat-conducting plate 21 is located on the lateral wall of the bottom of heating chamber 11.Specifically, thermal conductive cavity The bottom of 3 covering heating chambers 11, and heat-conducting plate 21 is arranged on the lateral wall of the bottom of thermal conductive cavity 3.To facilitate heater element 2 to connect Power supply, it is easy to installation and the arrangement of cabling and other elements (such as control panel).

Reference picture 6 to Fig. 8, according to a second aspect of the present invention embodiment food processor 200, including：Shell 210, powder Crushing device and head 220.

Specifically, reducing mechanism is located in shell 210, and reducing mechanism is the food processor of above-mentioned first aspect embodiment Reducing mechanism 100；Head 220 openably covers to be used to closing or opening heating chamber 11, reducing mechanism on reducing mechanism 100 100 agitating device 5 is located on head 220.Food processor 200 according to embodiments of the present invention, as a result of the present invention The reducing mechanism 100 of first aspect embodiment, can play the purpose uniformly heated, improve the uniformity of heating.

With reference to Fig. 9, certainly, the food processor 200 in the present invention can also be the underlying food processor of agitating device 5 200.Specifically, food processor 200 also includes support 230, and reducing mechanism 100 is shelved on support 230, agitating device 5 It is located on support 230 and stretches into heating chamber 11.

In addition, cup component 1 also includes lid 240, lid 240 is covered on cup 12.

Reference picture 9, further, shell 210 are releasably supported on support 230, and agitating device 5 includes：Blade 51, Connecting rod 53, electric machine assembly 54 and connector 55.

Specifically, blade 51 is located in heating chamber 11, and connecting rod 53 is rotatably arranged at the bottom of reducing mechanism 100, and The upper end of connecting rod 53 is connected with blade 51, and electric machine assembly 54 is located on support 230, connector 55 include upper connector 551 and with The lower connector 552 that lower connector 552 is separably connected, upper connector 551 are connected and are relatively fixed with connecting rod 53, lower connection Device 552 is rotatably installed on support 230 and is connected with electric machine assembly 54.

By setting upper connector 551 and lower connector 552 so that the component that housing and reducing mechanism 100 cooperatively form , can be with the use of instant food processor 200 with 230 separable connection of support, and instant food processor 200 makes With, cleaning and safeguard, and also reduce the cost of maintenance.

With reference to Fig. 1 and Fig. 6, in an embodiment of the present invention, cup component 1 includes：Cup 12 and envelope 13.Wherein, Heating chamber 11 is limited in cup 12, envelope 13 is located at the bottom of cup 12 and positioned at the outside of cup 12, envelope 13 and cup Thermal conductive cavity 3 is limited between body 12.It is simple to form the mode of thermal conductive cavity 3, simplifies the manufacture craft of cup component 1, and reduce Cost.

In addition, envelope 13 to be coated on to the outside of cup 12, the stability of cup component 1 can be improved, relative to general Envelope 13 is arranged on for the inner side of cup 12, is avoided because poor sealing causes heat conduction to be situated between envelope 13 and cup 12 The safety problems such as the leakage of matter 31, improve the safety and stability of reducing mechanism 100.

The present invention provides a kind of reducing mechanism 100 of food processor, the bottom of cup 12 or (and) set on outer wall A closed cavity (i.e. thermal conductive cavity 3) is put, higher boiling low bulk, the high heat-conducting medium of the coefficient of conductivity are injected in closed cavity 31 such as heat-conducting liquids.Heater element 2 is placed in airtight cavity/and it is outer, by the even heat of liquid in closed cavity, by heat Amount is uniformly transferred in cup 12, so as to avoid heat from excessively concentrating, caused by thermal inertia it is big caused by overflow, or be sticking.

The side lower wall 112 of cup 12 is curved, is easy to material to fall back to the bottom of cup 12, so as to avoid the root of straight tube Dead band is crushed, improves crush efficiency and smashing fineness.

Wherein, the maximum region D1 of cup bottommost (is in fact the area that bottom of cup material is stockpiled due to Action of Gravity Field Domain), (wherein, D4 is region or the opening covering of flow disturbing cover 52 of the running orbit covering of blade 51 to flow-disturbing crushed zone D4 Region), D1≤D4, and the maximum region D1 of flow-disturbing crushed zone D4 covering cup bottommosts, therefore material is easy to fall back to The bottom of cup 12, and material is always positioned at the high efficient district of crushing, so as to avoid the crushing dead band of the root of straight tube, improves and crushes effect Rate, smashing fineness.

In addition, the region D1 of bottom of cup is less than crushed zone D4, therefore material is easy to fall back to bottom of a cup, and material is mostly In the D2 of crushed zone, so as to improve crush efficiency and smashing fineness.

As shown in figure 1, the envelope 13 equipped with heater element 2 is welded on by way of boxing on cup 12, it is ensured that Therebetween form sealing, will not seepage, so as to form closed thermal conductive cavity 3.Then heat-conducting medium 31 is passed through into inlet again 32 injections form closed thermal conductive cavity 3, and by closure member 4 and sealing gasket 43, heat-conducting medium 31 is sealed in closed heat conduction In chamber 3.

The side lower wall 112 of cup 12 is non-straight barrel structure such as arc, comminuting matter can fall after rise arc cup 12 Bottom, now material is near blade 51 or flow spoiler, so that the high efficient district in crushing.So that will not be as straight tube cup one Sample is low in side wall and a large amount of materials of bottom junction concentration, dead band or the crush efficiency for forming crushing under blade centrifugal force Region.

The reducing mechanism 100 of food processor according to embodiments of the present invention, by by the maximum radial chi of crushed zone It is very little to be set with the maximum radial dimension of the lowermost extent of side lower wall 112 by predetermined ratio so that material is greatly all in crushed zone In, and at least a portion of side lower wall 112 ecto-entad on direction from top to bottom shrinks, and is so easy to material to fall back to The bottom of heating chamber 11, so as to solve the problems, such as to exist in correlation technique the crushing dead band of straight tube bottom of a cup root, and then improve powder Broken efficiency and smashing fineness.Further, since being provided with thermal conductive cavity 3, and heat-conducting medium 31 is provided with thermal conductive cavity 3, therefore, can It is convenient that heat is disperseed to conduct heat by heat-conducting medium 31, so as to convenient uniformly heating.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or the feature for combining the embodiment or example description It is contained at least one embodiment or example of the present invention.In this manual, need not to the schematic representation of above-mentioned term Identical embodiment or example must be directed to.Moreover, specific features, structure, material or the feature of description can be any Combined in an appropriate manner in individual or multiple embodiments or example.In addition, in the case of not conflicting, the technology of this area Different embodiments or example and the feature of different embodiments or example described in this specification can be combined by personnel And combination.

Although embodiments of the invention have been shown and described above, it is to be understood that above-described embodiment is example Property, it is impossible to limitation of the present invention is interpreted as, one of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changed, replacing and modification.

Claims (12)

1. A kind of 1. reducing mechanism of food processor, it is characterised in that including：

   Cup component, the cup component is interior formed with heating chamber, and the heating chamber includes superposed side upper wall and is located at The side lower wall of bottom, last week of the side lower wall along the next week with the side upper wall along being connected, at least one of the side lower wall The ecto-entad on direction from top to bottom is divided to shrink, the outside of the heating chamber is formed with thermal conductive cavity, the thermal conductive cavity covering At least a portion of the cavity wall of the heating chamber, is filled with heat-conducting medium in the thermal conductive cavity, and the heat-conducting medium with it is described The cavity wall contact of heating chamber；

   Heater element, the heater element, which is located on the cup component, to be used to heat the heat-conducting medium, and the heating member Part is spaced apart with the cavity wall of the heating chamber；

   Agitating device, the agitating device are stretched into the heating chamber, and the agitating device includes blade, and the side lower wall is most Low area is relative up and down with the blade,

   Wherein, the maximum radial dimension D1 of the lowermost extent of the side lower wall and the radial dimension D2 of the blade ratio are less than 1.5；Or flow disturbing cover of the agitating device including being looped around the blade outside and open at its lower end, the lowest region of the side lower wall The maximum radial dimension D1 in the domain and radial dimension D3 of the opening of flow disturbing cover ratio is less than 1.5.
2. 2. the reducing mechanism of food processor according to claim 1, it is characterised in that the blade described in floor projection Rotational trajectory cover the lowermost extent of the side lower wall, the maximum radial dimension D1 of the lowermost extent of the side lower wall with it is described The radial dimension D2 of blade ratio is less than 1；

   Or flow disturbing cover of the agitating device including being looped around the blade outside and open at its lower end, disturbed described in floor projection Stream cover covers the lowermost extent of the side lower wall, and the maximum radial dimension D1 of the lowermost extent of the side lower wall and the flow-disturbing The radial dimension D3 of the opening of cover ratio is less than 1.
3. 3. the reducing mechanism of food processor according to claim 2, it is characterised in that the blade described in floor projection Rotational trajectory cover the lowermost extent of the side lower wall, the maximum radial dimension D1 of the lowermost extent of the side lower wall with it is described The radial dimension D2 of blade ratio is less than 0.8；

   Or flow disturbing cover of the agitating device including being looped around the blade outside and open at its lower end, disturbed described in floor projection Stream cover covers the lowermost extent of the side lower wall, and the maximum radial dimension D1 of the lowermost extent of the side lower wall and the flow-disturbing The radial dimension D3 of the opening of cover ratio is less than 0.8.
4. 4. the reducing mechanism of the food processor according to any one of claim 1-3, it is characterised in that the side lower wall The minimum point of the heating chamber is gradually inwardly contracted to from top to bottom, and the bottom of the side lower wall is in plane, the arc to lower recess Shape face or arcwall face protruding upward.
5. 5. the reducing mechanism of the food processor according to any one of claim 1-3, it is characterised in that the side lower wall In the intilted arc on direction from top to bottom；

   Or the side lower wall is in rounding mesa-shaped.
6. 6. the reducing mechanism of the food processor according to any one of claim 1-3, it is characterised in that the side lower wall Inner surface be provided with flow-interfering bar.
7. 7. the reducing mechanism of food processor according to claim 1, it is characterised in that the thermal conductive cavity is arranged to coat The bottom of the heating chamber, and the liquid level of the heat-conducting medium in the thermal conductive cavity is not higher than the heating chamber depth 50%.
8. 8. the reducing mechanism of food processor according to claim 1, it is characterised in that the cup component includes：

   Cup, the heating chamber is limited in the cup；

   Envelope, the envelope are located at the bottom of the cup and on the outside of the cups, and the envelope is in open above The cassette shapes opened, edge last week of the envelope are connected with the envelope and the cup with the outer surface of the cup Between limit the thermal conductive cavity of closing.
9. 9. the reducing mechanism of food processor according to claim 8, it is characterised in that

   Edge last week of the envelope is connected with the lower surface of the cup bottom wall, and the heat-conducting medium fills the heat conduction Chamber；

   Or the envelope coats the bottom of the cup, and edge last week of the envelope is connected with the cup perisporium, institute State and the thermal conductive cavity is limited between envelope and the perisporium and bottom wall of the cup bottom, and add described in thermal conductive cavity cladding The bottom of hot chamber, the liquid level of the heat-conducting medium is not less than the heating chamber bottom surface or full of the thermal conductive cavity；

   Or the envelope coats the bottom of the cup, the envelope in a ring, last week of the envelope along with it is described Cup perisporium is connected, and the next week edge of the envelope is connected with the periphery of the cup bottom wall, the envelope and the cup The thermal conductive cavity is limited between the perisporium of bottom.
10. 10. the reducing mechanism of food processor according to claim 1, it is characterised in that

    The thermal conductive cavity is located at the outside of the heating chamber bottom, and the heat-conducting medium contacts and extremely with the cavity wall of the heating chamber A part for the thermal conductive cavity bottom wall is covered less, and the contact area of the cavity wall of the heat-conducting medium and the heating chamber is 6885 Square millimeter is in the range of 73100 square millimeters.
11. A kind of 11. food processor, it is characterised in that including：

    Shell；

    Reducing mechanism, the reducing mechanism are located in the shell, and the reducing mechanism is according to any in claim 1-10 The reducing mechanism of food processor described in；

    Head, the head openably covers to be used to closing or opening the heating chamber, the crushing on the reducing mechanism The agitating device of device is located on the head.
12. A kind of 12. food processor, it is characterised in that including：

    Shell；

    Reducing mechanism, the reducing mechanism are located in the shell, and the reducing mechanism is according to any in claim 1-10 The reducing mechanism of food processor described in；

    Support, the cup component of the reducing mechanism are shelved on the support, and the agitating device of the reducing mechanism is located at institute State on support, the agitating device is stretched into the heating chamber.