CN206371968U - The heating container of food processor and the food processor with it - Google Patents

Abstract

The utility model discloses a kind of heating container of food processor and food processor with it, the heating container includes：Cup component, heating chamber is formed with cup component, cup component is in bottom lock and the drum of open upper end, and thermal conductive cavity is formed with the outside of heating chamber, thermal conductive cavity is located at the outside of heating chamber bottom, be filled with heat-conducting medium in thermal conductive cavity, and heat-conducting medium contact and an at least part for covering thermal conductive cavity bottom wall with the cavity wall of heating chamber, and the cavity wall of heat-conducting medium and heating chamber contact area in the range of 6885 square millimeters to 73100 square millimeters；Heater element, heater element, which is located on cup component, to be used to heat heat-conducting medium.According to the heating container of the food processor of the utility model embodiment, the uniformity of heating is improved.

Description

The heating container of food processor and the food processor with it

Technical field

The utility model is related to field of household appliances, the heating container of more particularly to a kind of food processor and the food with it Processor.

Background technology

Existing food processor typically sets heater element using in the bottom of cup/outer wall, and heater element is conducted Cup in, because the partial heat of heater element correspondence cup is higher, and other local heats of cup are relatively low, so appearance It is easily caused heat excessively to concentrate, so as to cause the heat of cup everywhere uneven.

Utility model content

The utility model is intended at least solve one of technical problem in correlation technique to a certain extent.Therefore, this reality It is the heating container for proposing a kind of food processor with a new purpose, the uniformity of heating can be improved.

A purpose of the present utility model is to propose a kind of food processor, and the food processor is provided with above-mentioned food The heating container of product processor.

According to the heating container of the food processor of the utility model first aspect embodiment, including：Cup component, it is described Heating chamber is formed with cup component, the cup component is in bottom lock and the drum of open upper end, the thermal conductive cavity Heat-conducting medium, and the heat-conducting medium and the heating are filled with outside positioned at the heating chamber bottom, the thermal conductive cavity The cavity wall of chamber contacts and at least covers a part for the thermal conductive cavity bottom wall, and the heat-conducting medium and the cavity wall of the heating chamber Contact area in the range of 6885 square millimeters to 73100 square millimeters；Heater element, the heater element is located at described It is used to heat the heat-conducting medium on cup component, and the heater element is spaced apart with the cavity wall of the heating chamber.

According to the heating container of the food processor of the utility model embodiment, the uniformity of heating is improved.

In addition, according to the heating container of the food processor of the utility model above-described embodiment, can also have following attached Plus technical characteristic：

In some embodiments of the present utility model, the outer wall of the thermal conductive cavity is provided with inlet, and the thermal conductive cavity Outer wall be provided with and be used to close the closure member of the inlet.

Further, the closure member includes screw rod and cover plate, and one end of the screw rod is connected with the cover plate, the spiral shell The other end of bar is stretched into the inlet and is connected with the outer wall thread of the thermal conductive cavity, the cover plate and the thermal conductive cavity The second sealing gasket is provided between outer wall, second sealing gasket is fitted with the outer wall of the thermal conductive cavity and is enclosed on and the screw rod On outer peripheral face.

Advantageously, the thermal conductive cavity is arranged to coat the bottom of the heating chamber, and the heat-conducting medium in the thermal conductive cavity Liquid level be not higher than the 50% of the heating chamber depth.

In some embodiments of the present utility model, the cup component includes：Limited in cup, the cup described Heating chamber；Envelope, the envelope is located at the bottom of the cup and on the outside of the cup, and the envelope is in above Unlimited cassette shapes, edge last week of the envelope is connected with the envelope and the cup with the outer surface of the cup The thermal conductive cavity of closing is limited between body.

Further, edge last week of the envelope is connected with the lower surface of the cup bottom wall, and the heat-conducting medium Fill the thermal conductive cavity；Or the envelope coats the bottom of the cup, and the envelope last week along with the cup The perisporium of bottom is connected, and the thermal conductive cavity, and institute are limited between the envelope and the perisporium and bottom wall of the cup bottom The bottom that thermal conductive cavity coats the heating chamber is stated, the liquid level of the heat-conducting medium is not less than the heating chamber bottom surface or full of described Thermal conductive cavity；Or the envelope coats the bottom of the cup, the envelope in a ring, last week of the envelope along with institute State cup perisporium to be connected, 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 body bottom.

According to some embodiments of the present utility model, the heater element is located in the thermal conductive cavity or the thermal conductive cavity Outside.

In some embodiments of the present utility model, the heater element is located in the thermal conductive cavity, the heat-conducting medium At least a portion of the heater element is coated, the heater element has binding post, the binding post and the thermal conductive cavity Outer wall is connected and passes the outer wall of the thermal conductive cavity.

According to some embodiments of the present utility model, the heater element is located on the outer wall of the thermal conductive cavity, and described The outer wall of thermal conductive cavity is provided with the heat-conducting plate relative with inside and outside the heat-conducting medium, and the heater element is arranged on the heat-conducting plate On.

According to the food processor of the utility model second aspect embodiment, including：Shell；Heat container, the heating Container is located in the shell, and the heating container is the heating container of food processor described above；Head, the head Openably cover is used to closing or opening the heating chamber on the heating container, and the head is provided with agitating device, institute Agitating device is stated to stretch into the heating chamber.

According to the food processor of another embodiment of the utility model second aspect, including：Shell；Heat container, institute State heating container to be located in the shell, the heating container is the heating container of food processor described above；Support, institute Heating container placement is stated on the support, the support is provided with agitating device, and the agitating device stretches into the heating chamber It is interior.

In some embodiments of the present utility model, the centre of the heating container bottom is provided with the installation of open at its lower end Hole, thermal conductive cavity described in the mounting hole insertion, and the mounting hole are separated with the thermal conductive cavity.

Brief description of the drawings

Fig. 1 is the schematic diagram of the heating container of the food processor of the utility model one embodiment.

Fig. 1 a to Fig. 1 e are the schematic diagrames of the heating container of the food processor of the several not be the same as Examples of the utility model.

Fig. 2 is the close-up schematic view of Fig. 1 centre circles a-quadrant.

Fig. 3 is the close-up schematic view in Fig. 1 centre circle B regions.

Fig. 4 is the schematic diagram of the heating container of the food processor of the utility model one embodiment, wherein, in thermal conductive cavity Unimplanted heat-conducting medium.

Fig. 5 is the close-up schematic view in Fig. 4 centre circle C regions.

Fig. 6 to Fig. 9 is the schematic diagram of the food processor of several not be the same as Examples in the utility model.

Reference：

Food processor 100,

Heat container 1, heating chamber 101, thermal conductive cavity 102, heat-conducting medium 103, inlet 104, closure member 105, screw rod 1051, cover plate 1052, the second sealing gasket 1053, turn-up portion 1054, mounting hole 106, cup component 11, cup 111, envelope 112, heater element 12, binding post 121, flange 1211, nut 1212, the first sealing gasket 1213, heat-conducting plate 1214,

Shell 2,

Agitating device 3, blade 31, connecting rod 32, electric machine assembly 33, connector 34, upper connector 341, lower connector 342, 3rd sealing gasket 35, bearing 36,

Head 4,

Support 5.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element or element with same or like function are represented to same or similar label eventually.Below by ginseng The embodiment for examining accompanying drawing description is exemplary, it is intended to for explaining the utility model, and it is not intended that to the utility model Limitation.

Food processor typically sets heater element, the cup that heater element is conducted using in the bottom of cup/outer wall In, although increasing heat conduction between cup and heater element than faster hardware (aluminium) in this structure, so as to increase Heat-conducting area, it is to avoid heat is excessively concentrated, but the method can only improve heat and excessively concentrate, it is impossible to it is basic to solve heat collection In, the problem of conduction is uneven.In another scheme, using Electromagnetic Heating, it is necessary to which control element, electromagnetic wire coil structure is answered It is miscellaneous, thus cost is higher.

Therefore, the utility model proposes a kind of new food processor and its heating container.To avoid or reduce heat The problem of concentration.

With reference to Fig. 1 to Fig. 9, according to the heating container 1 of the food processor of the utility model embodiment, including：Cup group Part 11 and heater element 12.

Specifically, heating chamber 101 is formed with cup component 11, cup component 11 is in bottom lock and open upper end Drum, material (such as soybean milk liquid, milk) to be heated can be placed in heating chamber 101.The outside shape of heating chamber 101 Heat conduction is filled with into having in thermal conductive cavity 102, at least a portion of the cavity wall of the covering heating chamber 101 of thermal conductive cavity 102, thermal conductive cavity 102 Medium 103, and heat-conducting medium 103 contacts with the cavity wall of heating chamber 101.Heater element 12, which is located on cup component 11, to be used to heat Heat-conducting medium 103, and heater element 12 is spaced apart with the cavity wall of the heating chamber 101 of cup component 11, it is to avoid heater element 12 The direct cavity wall to heating chamber 101, which is directly heated, causes heating uneven.

Wherein, referring to figs. 1 to Fig. 1 e, thermal conductive cavity 102, which is located in the outside of the bottom of heating chamber 101, thermal conductive cavity 102, to be filled with Heat-conducting medium 103, and heat-conducting medium 103 contacts with the cavity wall of heating chamber 101 and at least covers one of the bottom wall of thermal conductive cavity 102 Point, and model of the contact area at 6885 square millimeters to 73100 square millimeters of the cavity wall of heat-conducting medium 103 and heating chamber 101 In enclosing.Thus, it is possible to which so that heat is more delivered to heat-conducting medium 103, so as to improve the same of the utilization rate of heat When, 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 101 is D, the highest of heat-conducting medium 103 Liquid level is H to the height of the bottom of heating chamber 101, and heat-conducting medium 103 and the contact area of heating chamber 101 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+40 00000*V/D；Again because of routine In the range of the cup diameter D=90mm of soy bean milk making machine heating chamber 101~160mm, capacity V=0.4L~1.7L's of conventional soy bean milk making machine In the range of, 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 103 and contact area S of heating chamber 101 is more than 73100 square millimeters, the liquid level of heat-conducting medium 103 Height will exceed highest height during conventional soy bean milk making machine maximum capacity, will constitute invalid heat-conducting area S ', this part The material that invalid heat-conducting area S ' can not effectively pass to the heat in heat-conducting medium 103 in heating chamber 101, causes heat It is lost in, conduction efficiency reduction.Volume, the quality of heat-conducting medium 103 can be increased simultaneously, causing the increase of cup weight, cost increases simultaneously Plus；

4th, when heat-conducting medium 103 and the contact area S of heating chamber 101 are less than 6885 square millimeters, heat-conducting medium 103 is with adding The contact area of hot chamber 101 is too small, and now the heat in heat-conducting medium 103 can not be passed to fast and effectively in heating chamber 101 Material, the temperature of heat-conducting medium 103 can be very high, is unfavorable for whole heater, while the time entirely heated can be caused to lengthen, Work period can also lengthen accordingly.

In some specific embodiments of the present utility model, thermal conductive cavity 102 is arranged to coat the bottom of heating chamber 101, and The liquid level of heat-conducting medium 103 in thermal conductive cavity 102 is not higher than the 50% of the depth of heating chamber 101.So not only can be more Heat is fully delivered to heating chamber 101 by heat-conducting medium 103, the uniformity of heating is improved, can also reduce heat-conducting medium 103 use, reduce cost, and mitigate the weight of heating container 1.

Preferably, during the use of actual food product processor, the liquid level and heating chamber of material in heating chamber 101 The ratio of 101 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 101 37.04%, based on this, the liquid level of heat-conducting medium 103 can be arranged to the 40% of the not higher than depth of heating chamber 101 (be for example arranged to the depth of heating chamber 101 37.4%).

It is further preferred that thermal conductive cavity 102 is around the part of heating chamber 101 when thermal conductive cavity 102 coats 101 bottom of heating chamber Ring width in the range of 5 millimeters to 20 millimeters.

During the use of food processor, heater element 12 produces heat, the heat that heater element 12 is produced after being powered Amount will be conducted to heat-conducting medium 103, so as to be heated by heater element 12 to heat-conducting medium 103, while heat-conducting medium 103 also conduct heat in heating chamber 101, so as to be heated to material to be heated in heating chamber 101.

Directly heating chamber 101 is heated because heater element 12 is no, but have selected and entered using heat-conducting medium 103 Row heat conduction, the temperature difference of heat-conducting medium 103 everywhere is smaller, therefore, the comparison that heat-conducting medium 103 produces heater element 12 The heat of concentration is disperseed, so as to avoid or reduce the problem of cup component 11 heats uneven everywhere so that cup group The heating of the uniform throughout of part 11, finally avoid regional area paste ground in cup component 11 and other positions heating does not reach requirement also The problem of.

According to the heating container 1 of the food processor of the utility model embodiment, due to being provided with thermal conductive cavity 102, and Heat-conducting medium 103 is provided with thermal conductive cavity 102, therefore, it can conduct heat by heat-conducting medium 103, it is convenient that heat is divided Dissipate, so that convenient uniform heating.

Reference picture 1- Fig. 6 and Fig. 9, in some embodiments of the present utility model, at least a portion of heater element 12 It is located in thermal conductive cavity 102, and heat-conducting medium 103 coats at least a portion of heater element 12.That is heater element 12 is set Put and directly heat-conducting medium 103 is heated in thermal conductive cavity 102, because heat-conducting medium 103 has coated heater element 12 extremely A few part so that the heat of heater element 12 can be rapidly conducted to heat-conducting medium 103, but also can avoid heat Loss, improves energy utilization rate.

In actual use, the cladding heater element 12 completely of heat-conducting medium 103 can also be selected to use and led Thermal medium 103 coats a part for heater element 12, it is only necessary to the heat that heat-conducting medium 103 can produce heater element 12 point Dissipate and pass to heating chamber 101.

Further, with reference to Fig. 1 and Fig. 2, due to heater element 12 to be arranged on to the inside of thermal conductive cavity 102, therefore, need Electric energy is guided to heater element 12 so that heater element 12 is powered and generated heat.For example, the heating member in the utility model Part 12 has binding post 121, and binding post 121 can be used for the energization of heater element 12, and can be by binding post 121 and heat conduction The outer wall of chamber 102 is connected so that the position of binding post 121 is stable, so as to improve the stability and security of heater element 12. In addition, binding post 121 connects power supply for convenience, binding post 121 can be arranged to pass to the outer wall of thermal conductive cavity 102.

The fixed form of binding post 121 can be including a variety of, for example, the wiring of binding post 121 is welded in the utility model On the outer wall of thermal conductive cavity 102, or the outer wall of binding post 121 and thermal conductive cavity 102 is integrally formed (for example with quadric injection mould work Skill).The utility model additionally provides a kind of scheme by nut link post 121.

As shown in Fig. 2 binding post 121 is provided with outwardly flange 1211, and flange 1211 is against thermal conductive cavity 102 On the inner surface of outer wall, the part for passing thermal conductive cavity 102 of binding post 121 is connected with nut 1212, nut 1212 and binding post 121 are threadedly coupled, and nut 1212 is against on the outer wall of thermal conductive cavity 102.That is, flange 1211 is against thermal conductive cavity 102 On the inner surface of outer wall, and nut 1212 is threadedly coupled with binding post 121 and is against on the outer surface of the outer wall of thermal conductive cavity 102, Therefore, binding post 121 is fixed on the outer wall of thermal conductive cavity 102 by the cooperation of flange 1211 and nut 1212, so as to will connect Terminal 121 is stably installed on the outer wall of thermal conductive cavity 102.Further, since employing the side of the link post 121 of nut 1212 Formula, can effectively improve the fixed form of binding post 121, improve assembling and the producing efficiency of heating container 1.

Further, since heat-conducting medium 103 (such as liquid, gaseous state, solid-state) is filled with thermal conductive cavity 102, in some feelings , it is necessary to improve the sealing property of thermal conductive cavity 102 under condition, however, because heater element 12 is located in thermal conductive cavity 102, and binding post 121, which stretch out thermal conductive cavity 102, is used for wiring, accordingly, it would be desirable to set sealing structure (also may be used certainly in the fixed position of binding post 121 To be sealed using modes such as welding or quadric injection moulds).It is for instance possible to use 1213 pairs of the first sealing gasket as shown in Figure 2 The installation site of binding post 121 is sealed, specifically, close provided with first between the outer wall of nut 1212 and thermal conductive cavity 102 Packing 1213, the first sealing gasket 1213 is fitted with the outer surface of the outer wall of thermal conductive cavity 102 and is enclosed on the outer peripheral face of binding post 121 On.Acted on by the locking of nut 1212, the first sealing gasket 1213 is fitted in the outer peripheral face and thermal conductive cavity 102 of binding post 121 Outer wall outer surface on, realize effective sealing of the installation site of binding post 121, improve the sealing effectiveness of thermal conductive cavity 102, And the producing efficiency of heating container 1 can be effectively improved.

Preferably, heater element 12 is heat-generating pipe, the two ends (left and right ends of heater element 12 in reference picture 1) of heat-generating pipe Form binding post 121.Make the simple in construction of heat-generating pipe, it is easy to assembly, in addition, after binding post 121 is secured, heat-generating pipe is also steady Surely it is fixed in thermal conductive cavity 102, so as to be effectively improved the stability and reliability of heater element 12.

In addition, heater element 12 of the present utility model can also be arranged on the other positions of cup component 11, for example, will hair Thermal element 12 is arranged on the outer surface of the outer wall of thermal conductive cavity 102.Preferably, can be set on the outer wall of thermal conductive cavity 102 with Relative heat-conducting plate 1214 inside and outside heat-conducting medium 103, heater element 12 is arranged on heat-conducting plate 1214.Heater element 12 is to heat conduction Plate 1214 is heated, and the temperature on heat-conducting plate 1214 everywhere is more uniform, and then the heat of heat-conducting plate 1214 is conducted to thermal conductive cavity 102, and conducted by the heat-conducting medium 103 in thermal conductive cavity 102 to heating chamber 101, temperature it is uniform twice, further reduce The problem of heating chamber 101 local temperature is too high, the uniformity of the temperature everywhere of heating chamber 101.

Preferably, heat-conducting plate 1214 is located at the bottom of heating chamber 101.Specifically, the covering of thermal conductive cavity 102 heating chamber 101 Bottom, and heat-conducting plate 1214 is arranged on the bottom of thermal conductive cavity 102.With facilitate heater element 12 connect power supply, be easy to cabling and The installation of other elements (such as control panel) and arrangement.

With reference to Fig. 1 to Fig. 5, in some embodiments of the present utility model, the outer wall of thermal conductive cavity 102 is provided with inlet 104, and the outer wall of thermal conductive cavity 102 is provided with the closure member 105 for being used for closing inlet 104.Can be with guide by inlet 104 Filling heat-conductive medium 103 in hot chamber 102, improves the producing efficiency of cup component 11, is completed in addition, being injected in heat-conducting medium 103 Afterwards, inlet 104 can be closed by closure member 105.

Heat-conducting medium 103 can also be injected into thermal conductive cavity 102 while cup component 11 is made.

In addition, closure member 105 can be fixed on the outer wall of thermal conductive cavity 102 by modes such as welding, clamping, threaded connections On.

For example, in embodiment of the present utility model as shown in Figure 3, closure member 105 includes screw rod 1051 and cover plate 1052, one end (lower end of screw rod 1051 in reference picture 3) of screw rod 1051 is connected with cover plate 1052, the other end of screw rod 1051 (upper end of screw rod 1051 in reference picture 3) is stretched into inlet 104 and is connected with the outer wall thread of thermal conductive cavity 102, cover plate 1052 The second sealing gasket 1053 is provided between the outer wall of thermal conductive cavity 102, the second sealing gasket 1053 is fitted simultaneously with the outer wall of thermal conductive cavity 102 It is enclosed on the outer peripheral face with screw rod 1051.The direction being connected through a screw thread can make closure member 105 stable and be quickly installed On the outer wall of thermal conductive cavity 102, in addition, setting the second sealing gasket between the outer wall of cover plate 1052 and thermal conductive cavity 102, it can pass through Seal closes inlet 104, improves the sealing and stability of thermal conductive cavity 102.

Preferably, with reference to Fig. 3 and Fig. 5, the turn-up portion 1054 extended along being provided with towards in thermal conductive cavity 102 in week of inlet 104, Closure member 105 is threadedly coupled with turn-up portion 1054.It by setting turn-up portion 1054, can be stably installed at closure member 105 On cup component 11, so as to improve the stability of the installation of closure member 105, and the sealing to inlet 104 is further improved Performance.

For the heating chamber 101 and thermal conductive cavity 102 that are formed on cup component 11, can cup component 11 perisporium and Thermal conductive cavity 102 is set out at least one in bottom wall.The utility model proposes solution.

Specifically, as shown in figure 1, in embodiment of the present utility model, cup component 11 includes：Cup 111 and bag Network layers 112.Wherein, heating chamber 101 is limited in cup 111, envelope 112 is located at the bottom of cup 111 and positioned at cup 111 Outside, envelope 112 in cassette shapes unlimited above, last week of envelope 112 along be connected with the outer surface of cup 111 with The thermal conductive cavity 102 of closing is limited between envelope 112 and cup 111.Heat conduction is limited between envelope 112 and cup 111 Chamber 102.The mode for forming thermal conductive cavity 102 is simple, simplifies the manufacture craft of cup component 11, and reduce cost.

Wherein, reference picture 1, edge last week of envelope 112 is connected with the lower surface of the bottom wall of cup 111, and heat-conducting medium 103 Fill thermal conductive cavity 102.It can so enable heat more abundant and be delivered evenly to cup 111, so as to improve The uniformity of heating.

Certainly, the utility model not limited to this.Cup 111 is coated with reference to Fig. 1 a to Fig. 1 e or envelope 112 Bottom, and envelope 112 last week along being connected with the perisporium of the bottom of cup 111, the perisporium of envelope 112 and the bottom of cup 111 Thermal conductive cavity 102 is limited between bottom wall, and thermal conductive cavity 102 coats the bottom of heating chamber 101, the liquid level of heat-conducting medium 103 is not Less than the bottom surface of heating chamber 101 or full of thermal conductive cavity 102.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 112 to be coated on to the outside of cup 111, the stability of cup component 11 can be improved, relative to Envelope 112 is arranged on for the inner side of cup 111, it is to avoid because poor sealing causes between envelope 112 and cup 111 The safety problems such as the leakage of heat-conducting medium 103, improve the safety and stability of heating container 1.

Further, as shown in Figure 1 and Figure 4, envelope 112 coats the bottom of cup 111, envelope 112 and cup 111 The bottom of perisporium and bottom wall are spaced apart to limit thermal conductive cavity 102.When food processor works, heater element 12 is to heat conduction Chamber 102 is heated so that heat-conducting medium 103 in thermal conductive cavity 102 have it is more homogeneous, then can be by heat by thermal conductive cavity 102 On amount conduction to the side wall and bottom wall of heating chamber 101 simultaneously so that side wall and bottom wall are heated, so as to improve the homogeneity of heating.

As shown in Figure 1 and Figure 4, the cooperation of cup 111 and envelope 112 for convenience, improves the making of cup component 11 And efficiency of assembling, radial dimension of the radial dimension less than top of the bottom of cup 111, and the perisporium and cup 111 of envelope 112 The top of perisporium is substantially flush.The good appearance of cup component 11, and it is easy to the assembling and making of cup component 11.

In addition, such as Fig. 6, in other embodiments of the present utility model, last week of envelope 112 along with cup 111 Bottom wall is connected, and the bottom wall of envelope 112 is spaced apart to limit thermal conductive cavity 102 with the bottom wall of cup 111.So as in cup 111 bottom limits thermal conductive cavity 102.

In some embodiments of the present utility model, edge last week of envelope 112 is connected with the boxing of cup 111.So as to carry The high stability and sealing connected between envelope 112 and cup 111, it is to avoid heat-conducting medium 103 is spilt, or to be heated Article flows into thermal conductive cavity 102.

With reference to Fig. 1 to Fig. 9, in some embodiments of the present utility model, the height at the top of heat-conducting medium 103, which is not less than, to be added The height of the hot bottom of chamber 101.Heat-conducting medium 103 is contacted with heating chamber 101, sent out with facilitating by heat-conducting medium 103 The heat of thermal element 12 is conducted to heating chamber 101, and makes the temperature in cup 111 everywhere more consistent.

Further, in some embodiments of the present utility model, heat-conducting medium 103 is full of thermal conductive cavity 102.So that heat conduction Effect is good.

Preferably, heat-conducting medium 103 is liquid heat-conducting medium.It is convenient that heat-conducting medium 103 is injected into thermal conductive cavity 102, The operation and maintenance of convenient heating container 1.

In some embodiments of the present utility model, heat-conducting medium 103 is conduction oil, and the boiling point of conduction oil is not less than 100 DEG C and the coefficient of expansion is not higher than 0.0005.So that heat-conducting medium 103 has excellent heat conductivility, and it also avoid conduction oil Expansion damages the technical problem of thermal conductive cavity 102.

Inlet 104 can be set in the bottom/side of envelope 112, and provided with matched at inlet 104 Cap (i.e. closure member 105).Heat-conducting medium 103 expired the bottom of cup 111.Heater element 12 is placed in thermal conductive cavity 102, can also be by Heater element 12 is set outside thermal conductive cavity 102, and such as heater element 12 is placed in the bottom of envelope 112 (or side wall).

Envelope 112 is arranged on the side wall of cup 111, with the formation of cup 111 bottom, the confined air for having gap of sidepiece Between.

Furthermore it is possible to convex to form the space of isolation isolation heat-conducting liquid medium in the bottom up of envelope 112.

The utility model the bottom of cup 111 or with outer wall set a closed cavity (i.e. thermal conductive cavity 102), close Higher boiling low bulk, the high liquid of the coefficient of conductivity (i.e. heat-conducting medium 103) are injected in the cavity closed.Heater element 12 is placed in closed In cavity, heater element 12, which generates heat, conducts heat liquid in closed cavity, because liquid conductive is uniform, thus closed chamber Fluid temperature is uniform in body, and the temperature everywhere contacted with cup 111 is consistent, so that even heat is transmitted in cup 111.

So as to avoid heat from excessively concentrating, the big caused spilling of the thermal inertia caused, or be sticking, in addition can be without examining The power for considering heater element 12 is excessive, and caused local heat load is excessive to be caused to burn pipe, so as to appropriate increase heater element 12 power improves the operating efficiency of machine.

In addition, the conduction oil in the utility model can have：1. there is higher boiling point under normal pressure；2. relatively low solidification Point；3. in working condition, kinematic viscosity is low；4. heat conductivity is good；5. non-corrosiveness, nontoxic, tasteless；6. stable chemical performance； 7. it is nonflammable；8. it is environmentally safe；9. it is cheap.In this regard, table 1 lists the technical parameter of part conduction oil for ginseng Examine.

The technical parameter (part) of the conduction oil of table 1

Conduction oil technical parameter

Such as Fig. 6 is to Fig. 9, and second aspect of the present utility model discloses a kind of food processor 100, including：Shell 2, plus Heat container 1 and agitating device 3.

Specifically, heating container 1 is located in shell 2, and heating container 1 is according to any one foregoing implementation of the utility model The heating container 1 of the food processor 100 of the combination of example or several embodiments.Agitating device 3 is stretched into heating chamber 101.

According to the food processor 100 of the utility model embodiment, hold as a result of the foregoing heating of the utility model Device 1, can play the purpose uniformly heated, improve the uniformity of heating.

In some embodiments of the present utility model, food processor 100 also includes head 4, and head 4 is openably covered It is used to closing or opening heating chamber 101 on heating container 1, under agitating device 3 is located on head 4 and stretched into heating chamber 101 Portion.

Certainly, the food processor 100 in the utility model can also be the underlying food processor 100 of agitating device 3, Specifically, food processor 100 also includes support 5, and heating container 1 is shelved on support 5, and agitating device 3 is located on support 5 And stretch into heating chamber 101.

Reference picture 9, further, shell 2 are releasably supported on support 5, and agitating device 3 includes：Blade 31, connecting rod 32nd, electric machine assembly 33 and connector 34.

Specifically, blade 31 is located in heating chamber 101；Connecting rod 32 is rotatably arranged at the bottom of heating container 1, and even The upper end of bar 32 is connected with blade 31；Electric machine assembly 33 is located on support 5；Connector 34 include upper connector 341 and with lower company The lower connector 342 that device 342 is separably connected is connect, upper connector 341 is connected and is relatively fixed with connecting rod 32, lower connector 342 are rotatably installed on support 5 and are connected with electric machine assembly 33.

Will be by setting upper connector 341 and lower connector 342 so that the component that housing and heating container 1 are cooperatively formed With the separable connection of base, can with the use of instant food processor 100, and instant food processor 100 use, clear Reason and maintenance, and also reduce the cost of maintenance.

Further, such as Fig. 9, the bottom of heating container 1, which is provided with the mounting hole 106 of open at its lower end, mounting hole 106, to be provided with 3rd sealing gasket 35 and bearing 36, the 3rd sealing gasket 35 is nested with any of bearing 36 to be arranged in mounting hole 106 and is arranged On connecting rod 32.So that connecting rod 32 with stable operation, can improve the stability of food processor 100.

With reference to Fig. 1 and Fig. 9, in embodiment of the present utility model, cup component 11 includes：Cup 111 and envelope 112.Wherein, heating chamber 101 is limited in cup 111, envelope 112 is located at the bottom of cup 111 and outside cup 111 Side, limits thermal conductive cavity 102 between envelope 112 and cup 111.The mode for forming thermal conductive cavity 102 is simple, simplifies cup group The manufacture craft of part 11, and reduce cost.

In addition, envelope 112 to be coated on to the outside of cup 111, the stability of cup component 11 can be improved, relative to Envelope 112 is arranged on for the inner side of cup 111, it is to avoid because poor sealing causes between envelope 112 and cup 111 The safety problems such as the leakage of heat-conducting medium 103, improve the safety and stability of heating container 1.

Preferably, the centre of heating container 1 bottom is provided with the mounting hole 106 of open at its lower end, the insertion thermal conductive cavity of mounting hole 106 102, and mounting hole 106 separates with thermal conductive cavity 102.The bottom fovea superior of envelope 112 forms the mounting hole 106.To cup 111 structure influence is small, it is to avoid cause the problems such as cup 111 seals difficulty because cup 111 is complicated.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " suitable The orientation or position relationship of the instruction such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumference " are based on orientation shown in the drawings Or position relationship, be for only for ease of description the utility model and simplify and describe, rather than indicate or imply signified device or Element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limit of the present utility model System.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, such as two It is individual, three etc., unless otherwise specifically defined.

In the utility model, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. term should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integrally；Can be Mechanically connect or electrically connect；Can be joined directly together, can also be indirectly connected to by intermediary, can be two The connection of element internal or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the common skill of this area For art personnel, concrete meaning of the above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature is "above" or "below" second feature Can be that the first and second features are directly contacted, or the first and second features pass through intermediary mediate contact.Moreover, first is special Levy second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only Represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be with Be fisrt feature immediately below second feature or obliquely downward, or be merely representative of fisrt feature level height less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means to combine specific features, structure, material or the spy that the embodiment or example are described Point is contained at least one embodiment of the present utility model or example.In this manual, to the schematic table of above-mentioned term State and be necessarily directed to identical embodiment or example.Moreover, specific features, structure, material or the feature of description can be with Combined in an appropriate manner in any one or more embodiments or example.In addition, in the case of not conflicting, this area Technical staff the not be the same as Example or the feature of example and non-be the same as Example or example described in this specification can be entered Row is combined and combined.

Although embodiment of the present utility model has been shown and described above, it is to be understood that above-described embodiment is Exemplary, it is impossible to it is interpreted as to limitation of the present utility model, one of ordinary skill in the art is in scope of the present utility model It is interior above-described embodiment to be changed, changed, replaced and modification.

Claims (12)

1. a kind of heating container of food processor, it is characterised in that including：

Heating chamber is formed with cup component, the cup component, the cup component is in bottom lock and the circle of open upper end Thermal conductive cavity is formed with the outside of barrel shape, and the heating chamber, the thermal conductive cavity is located at the outside of the heating chamber bottom, described Heat-conducting medium is filled with thermal conductive cavity, and the heat-conducting medium contacts with the cavity wall of the heating chamber and at least covers the heat conduction A part for bottom of chamber wall, and the heat-conducting medium and the contact area of the cavity wall of the heating chamber arrive at 6885 square millimeters In the range of 73100 square millimeters；

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.

2. the heating container of food processor according to claim 1, it is characterised in that set on the outer wall of the thermal conductive cavity There is inlet, and the outer wall of the thermal conductive cavity is provided with the closure member for being used for closing the inlet.

3. the heating container of food processor according to claim 2, it is characterised in that the closure member include screw rod and Cover plate, one end of the screw rod is connected with the cover plate, and the other end of the screw rod is stretched into the inlet and led with described The outer wall thread connection of hot chamber, is provided with the second sealing gasket, second sealing between the cover plate and the outer wall of the thermal conductive cavity Pad is fitted with the outer wall of the thermal conductive cavity and is enclosed on the outer peripheral face with the screw rod.

4. the heating container of food processor according to claim 1, it is characterised in that the thermal conductive cavity is arranged to cladding The liquid level of heat-conducting medium in the bottom of the heating chamber, and the thermal conductive cavity is not higher than the heating chamber depth 50%.

5. the heating container of food processor according to claim 1, it is characterised in that the cup component includes：

The heating chamber is limited in cup, the cup；

Envelope, the envelope is located at the bottom of the cup and on the outside of the cup, and the envelope is in open above The cassette shapes opened, edge last week of the envelope is connected with the envelope and the cup with the outer surface of the cup Between limit the thermal conductive cavity of closing.

6. the heating container of food processor according to claim 5, 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 the envelope last week along the perisporium phase with the cup bottom Even, the thermal conductive cavity is limited between the envelope and the perisporium and bottom wall of the cup bottom, and the thermal conductive cavity is coated The bottom of the heating 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.

7. the heating container of food processor according to claim 1, it is characterised in that the heater element is located at described In thermal conductive cavity or the thermal conductive cavity outside.

8. the heating container of food processor according to claim 1, it is characterised in that the heater element is located at described In thermal conductive cavity, the heat-conducting medium coats at least a portion of the heater element, and the heater element has binding post, described Binding post is connected with the outer wall of the thermal conductive cavity and passes the outer wall of the thermal conductive cavity.

9. the heating container of food processor according to claim 1, it is characterised in that the heater element is located at described On the outer wall of thermal conductive cavity, and the outer wall of the thermal conductive cavity is provided with the heat-conducting plate relative with inside and outside the heat-conducting medium, the hair Thermal element is arranged on the heat-conducting plate.

10. a kind of food processor, it is characterised in that including：

Shell；

Container is heated, the heating container is located in the shell, the heating container is according to any one of claim 1-9 The heating container of described food processor；

Head, the head is openably covered to be used to closing or opening the heating chamber, the head on the heating container Agitating device is provided with, the agitating device is stretched into the heating chamber.

11. a kind of food processor, it is characterised in that including：

Shell；

Container is heated, the heating container is located in the shell, the heating container is according to any one of claim 1-9 The heating container of described food processor；

Support, the heating container placement is on the support, and the support is provided with agitating device, and the agitating device is stretched into In the heating chamber.

12. food processor according to claim 11, it is characterised in that the centre of the heating container bottom is provided with down The unlimited mounting hole in end, thermal conductive cavity described in the mounting hole insertion, and the mounting hole are separated with the thermal conductive cavity.