CN215914323U - Food processor - Google Patents

Abstract

The application provides a cooking machine, including host computer, water tank set spare, crushing cup subassembly and boil out cup subassembly. The host computer or smash the cup subassembly and still include thick liquid valve and heating device. The host computer includes the brace table and set up in the temperature measurement subassembly and the inductive switch of brace table. The boiling cup assembly comprises an induction element. When the boiling cup assembly is placed on the supporting table, the induction element is arranged to trigger the induction switch so as to control the slurry discharge valve to discharge slurry and/or the heating device to heat. The temperature measuring assembly comprises a fixed frame fixed to the shell and a temperature measuring probe fixed to the fixed frame. The temperature measuring probe is used for detecting the temperature in the accommodating space. The fixing frame comprises a butting part for limiting the induction switch. The fixing frame is used for fixing the temperature measuring probe and the inductive switch at the same time, the structure is simple, and the cost is saved.

Description

Food processor

Technical Field

The application relates to a small household electrical appliance field especially relates to cooking machine.

Background

With the increasing living standard of people, many different types of food processors appear on the market. The functions of the food processor mainly include, but are not limited to, functions of making soybean milk, squeezing fruit juice, making rice paste, mincing meat, shaving ice, making coffee and/or blending facial masks and the like. The food processor can comprise a soybean milk machine, a stirrer or a wall breaking food processor and other machines for crushing and stirring food. The food material of the related food processor is stirred in the stirring cup, and the stirred food material flows into the boiling cup. However, the related food processor is complicated in structure.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking machine of simple structure.

The application provides a food processor, including host computer, water tank set spare, crushing cup subassembly and boil out cup subassembly, boil out cup subassembly includes accommodation space to be used for holding edible material, the host computer includes the casing and is located the motor in the space that the casing encloses, smash cup subassembly including smash the cup and set up in smash the interior crushing sword that just passes through of cup, water tank set spare can be according to the culinary art procedure to carry water in smashing the cup, the host computer or smash cup subassembly still including arranging the thick liquid valve, arrange the thick liquid valve and be set up to steerable thick liquid in smashing the cup and flow in according to the culinary art procedure in the accommodation space, the host computer or boil out cup subassembly still includes heating device for give the edible material heating in the accommodation space, the host computer includes the brace table and set up in the temperature measurement subassembly and the inductive switch of brace table, boil out the cup subassembly and include inductive element, work as boil out the cup subassembly place in when propping up on the supporting bench, inductive element is set up to triggerable inductive switch, in order to control it arranges thick liquid and/or heating device heating to arrange the thick liquid valve, temperature measurement component including be fixed extremely the mount of casing and fixed extremely the temperature probe of mount, temperature probe is used for detecting temperature in the accommodation space, the mount is including supporting the portion of holding, in order to be used for spacingly inductive switch.

In some embodiments, the fixing frame of the technical scheme fixes the temperature measuring probe and the inductive switch at the same time, so that the structure is simple, and the cost is saved; meanwhile, the assembling process is simplified, and the assembling efficiency is improved.

Further, the inductive switch comprises a reed switch or a hall switch, and the inductive element comprises a magnetic part.

In some embodiments, the inductive switch in the above technical solution is a reed switch, and the reed switch has the advantages of simple structure, small volume, high speed and long service life compared with a general mechanical switch; compared with an electronic switch, the electronic switch has the characteristics of strong load impact resistance, high working reliability and the like.

Furthermore, the supporting platform comprises a top wall and a boss extending from the top wall, the boss encloses an accommodating groove for accommodating the inductive switch, and the abutting portion is located below the inductive switch to support the inductive switch.

In some embodiments, the inductive switch of the above technical solution has better stability and is easy to assemble.

Further, the supporting platform comprises a side wall extending from the top wall and a convex rib extending from the side wall, the fixing frame is provided with a limiting groove, and at least part of the convex rib is contained in the limiting groove.

In some embodiments, the arrangement of the protruding rib and the limiting groove in the above technical solution can further limit the fixing frame, and increase the stability of the fixing frame.

Further, the supporting platform comprises a fixing column extending from the top wall, the fixing frame is provided with an assembling hole, the host computer comprises a fixing piece, and the fixing piece penetrates through the assembling hole and then is fixed to the fixing column so as to fix the fixing frame to the supporting platform.

In some embodiments, the supporting table and the fixing frame are easy to assemble, and the assembling efficiency is improved.

Further, the mount includes the basal portion and certainly the barricade that the basal portion upwards extended and detain the portion of holding, support the portion of holding certainly the basal portion extends to one side and forms, the equipment hole set up in the basal portion, the barricade encloses into and accomodates the groove, temperature probe includes the main part, is located the contact site on the top of main part and set up in the chimb of main part, at least part the main part accept in accomodate the inslot, detain the portion with the chimb is detained and is held fixedly, works as the boiling cup subassembly place in during the supporting bench, the contact site with the contact of boiling cup subassembly, in order to detect temperature in the accommodation space.

In some embodiments, the temperature measuring assembly is easy to assemble, and the assembly efficiency is improved.

Further, the temperature probe atress can be followed the brace table reciprocates, the temperature measurement subassembly includes the elastic component, the one end of elastic component with the temperature probe supports and holds, the other end with the mount supports and holds, works as the boiling cup subassembly place in when the brace table, the boiling cup subassembly crimping the contact site, the temperature probe extrusion the elastic component.

In some embodiments, the arrangement of the elastic element in the technical scheme ensures effective contact between the temperature probe and the boiling cup assembly, and ensures the effectiveness of temperature detection.

Further, boil out the cup subassembly including boil out the cup and set up in boil out the interior cup of cup, interior cup with boil out the cup and enclose into accommodation space, interior cup includes the diapire, boil out the cup subassembly place in during the supporting bench, the contact site with the diapire contacts, the diapire is made by the heat conduction material.

In some embodiments, the bottom wall of the above technical solution can ensure the accuracy of temperature detection.

Further, the brace table includes water receiving box, temperature measurement top cap and equipment extremely the temperature measurement bottom of temperature measurement top cap, water receiving box crimping in the temperature measurement top cap, the temperature measurement subassembly is located the temperature measurement top cap with the space that the temperature measurement bottom encloses, the temperature measurement top cap includes the roof the boss and the fin.

In some embodiments, the setting of above-mentioned technical scheme's water receiving box can hold waste water, has increased the convenience of using.

Further, the host computer include steam generator and with the air outlet means of steam generator intercommunication, the cup subassembly of cooking includes air inlet unit, the cup subassembly of cooking place in during the supporting bench, air inlet unit with air outlet unit intercommunication makes the steam process that steam generator produced air outlet unit and air inlet unit gets into in the accommodation space.

In some embodiments, above-mentioned technical scheme's cooking machine utilizes steam to give the heating of the edible material in the cup subassembly of cooking to cook edible material, make the heating more even, can prevent to lead to eating the phenomenon of sticking with paste the end because of local high temperature, heat through the mode of slowly cooking, make edible material taste better.

Drawings

Fig. 1 is a schematic view of a food processor according to an exemplary embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of the food processor shown in fig. 1.

Fig. 3 is an exploded view of the main body of the food processor shown in fig. 1.

FIG. 4 is an exploded view of the support base and temperature measurement assembly of the mainframe shown in FIG. 3.

Fig. 5 is a bottom schematic view of the food processor shown in fig. 1, wherein the temperature measuring bottom cover is not shown.

Fig. 6 is an enlarged view of the circled portion of the food processor shown in fig. 5.

Fig. 7 is another schematic cross-sectional view of the food processor shown in fig. 1.

Fig. 8 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 7.

FIG. 9 is an exploded view of the thermometric assembly shown in FIG. 4.

FIG. 10 is a cross-sectional view of the thermometric assembly shown in FIG. 4.

Fig. 11 is an exploded view of the cooking cup assembly of the food processor shown in fig. 1.

Fig. 12 is a cross-sectional schematic view of the brewing cup assembly of the food processor shown in fig. 1.

Fig. 13 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 2.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. Unless otherwise indicated, "front", "rear", "lower" and/or "upper" and the like are for convenience of description and are not limited to one position or one spatial orientation. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 to 8, the food processor includes a main body 1, a cooking cup assembly 2, a water tank assembly 3 and a pulverizing cup assembly 4. The water tank assembly 3 is detachably assembled to the main body 1. The crushing cup component 4 and the main machine 1 can be detached or fixed and can not be detached.

Smash cup subassembly 4 can dismantle, can take out and wash, conveniently washs smash cup subassembly 4. Smash cup subassembly 4 can heat the edible material, also can not heat, and the edible material after the processing flows into and boils in the cup subassembly 2 and heat. The food materials in the crushing cup assembly 4 are only stirred and are not heated, so that the phenomenon that the food materials in the crushing cup assembly 4 are burnt can be prevented, and the crushing cup assembly 4 is easy to clean; meanwhile, the overflow phenomenon in the heating process can be prevented, which is beneficial to the cleaning of the food processor and the protection of the food processor from being damaged; secondly, the food materials are heated in the cooking cup component 2, so that the cooking condition of the food materials can be conveniently observed, and the use experience of a user is improved; moreover, the area of the bottom of the boiling cup component 2 is relatively large, so that the uniformity of heated food materials can be improved, and the taste of the processed food materials is improved.

The main machine 1 comprises a shell 10, a steam generating device 11 positioned in a space enclosed by the shell 10, a motor 12, a temperature measuring component 13, an inductive switch 14 and an air outlet device 15 communicated with the steam generating device 11. Steam generator 11 with 3 intercommunications of water tank set spare, water in the water tank set spare 3 can flow into steam generator 11 according to the culinary art procedure to produce steam, in order to be used for giving the heating of eating material in the cup subassembly 2 of cooking to cook and eat the material, make heating more even, can prevent to lead to eating the phenomenon of sticking with paste the end because of local high temperature, heat through the mode of slowly cooking, make to eat the material taste better.

In one embodiment, the steam generator 11 is connected to the water tank assembly 3 and the milling cup assembly 4, and the water in the water tank assembly 3 is heated by the steam generator 11 and flows into the milling cup assembly 4. In the process of stirring and beating the food materials by the crushing cup assembly 4, hot water is added, so that the cooking time of the food materials can be shortened; meanwhile, the smashing cup assembly 4 can be cleaned more effectively by utilizing hot water, and the smashing cup assembly can be cleaned more cleanly.

The main body 1 further comprises a pump assembly (not shown) arranged such that water in the water tank assembly 3 can be pumped into the grinding cup assembly 4 after passing through the steam generating device 11 according to a cooking program; or, the water in the water tank assembly 3 can flow through the steam generating device 11 according to a cooking program to generate steam so as to heat and cook food materials in the cooking cup assembly 2.

In one embodiment, the pump assembly includes a first pump (not shown) and a second pump (not shown). The first pump and the second pump are respectively communicated with the water tank assembly 3 and the steam generating device 11. The working flow of the first pump is less than the working flow of the second pump. The steam is formed after the steam flows through the first pump and enters the steam generating device 11 so as to heat food materials in the boiling cup assembly 2, and the hot water is generated after the water flows through the second pump and enters the steam generating device 11 so as to be pumped into the crushing cup assembly 4. The pump assembly comprises a first pump and a second pump, and the service life of the first pump and the service life of the second pump can be prolonged.

In one embodiment, the first pump has an operating flow rate of 20ml/min or more and 50ml/min or less, and the second pump has an operating flow rate of 200ml/min or more and 800ml/min or less.

In one embodiment, the first pump may be a solenoid pump and the second pump may be a motor pump.

The pump assembly is provided with only one pump, which saves space and cost. The pump assembly has a working flow rate that is adjusted between 20ml/min and 400ml/min, and uses a small flow rate when providing steam to the brewing cup assembly 2 as required by the cooking program, and a large flow rate when supplying hot water to the pulverizing cup assembly 4 as required by the cooking program.

The grinding cup assembly 4 includes a grinding cup 40 and a grinding knife 41 located within the grinding cup 40. The motor 12 is configured to drive the crushing blade 41 to rotate to whip the food material. The grinding cup 40 is communicated with the water tank assembly 3, and water in the water tank assembly 3 can be pumped into the grinding cup 40 according to a cooking program.

The grinding cup assembly 4 also includes a discharge valve 42. The discharge valve 42 is arranged to control the flow of food material from the comminution cup assembly 4 into the brewing cup assembly 2 according to a cooking program. The slurry discharge valve 42 may be provided in the main unit 1. The discharge valve 42 is switchable between a first state and a second state. In the first state, the slurry discharge valve 42 cuts off the grinding cup component 4 and the cooking cup component 2, and the food materials in the grinding cup component 4 cannot flow out; during the second state, arrange thick liquid valve 42 intercommunication smash cup subassembly 4 with boil out cup subassembly 2, smash the edible material in the cup subassembly 4 and can flow.

The main body 1 further comprises a support table 17. The support platform 17 is provided with through holes 1701. The boiling cup component 2 is placed on the supporting platform 17. Temperature measuring component 13 is located boil out the below of cup subassembly 2 in order to survey boil out the temperature of the edible material in the cup subassembly 2, the cooking machine basis the temperature control that temperature measuring component 13 surveyed 11 pause work or start working of steam generator to prevent to boil out the edible material in the cup subassembly 2 and stick with paste the end or overflow the phenomenon such as. The penetrating hole 1701 is used for exposing the temperature measuring component 13. The inductive switch 14 is located below the boiling cup component 2 to judge whether the boiling cup component 2 is placed on the supporting table 17.

The support platform 17 comprises a water receiving box 170, a temperature measuring top cover 171 and a temperature measuring bottom cover 172 assembled to the temperature measuring top cover 171. The temperature measuring component 13 is located in a space enclosed by the temperature measuring top cover 171 and the temperature measuring bottom cover 172. The temperature measuring assembly 13 is fixed to the temperature measuring top cover 171. The water receiving box 170 is pressed on the temperature measuring top cover 171. The water receiving box 170 can contain waste water, and convenience in use is improved.

The temperature measuring top cover 171 comprises a top wall 1710, a side wall 1711 extending from the top wall 1710, a boss 1712, a fixing column 1713 and a convex rib 1714 extending from the side wall 1711. The side wall 1711 and the temperature measurement bottom cover 172 are fixed together by means of a buckle or a screw lock, so that the temperature measurement bottom cover 172 is assembled to the temperature measurement top cover 171. The boss 1712 defines a receiving slot 17120 for receiving the inductive switch 14. The boss 1712 abuts against the inductive switch 14 to limit the inductive switch 14. The top wall 1710 is provided with a through hole 17101.

The inductive switch 14 is a reed switch. The reed switch has the advantages of simple structure, small volume, high speed and long service life compared with a common mechanical switch; compared with an electronic switch, the electronic switch has the characteristics of strong load impact resistance, high working reliability and the like. In other embodiments, the inductive switch 14 may be a hall element or the like.

The temperature measurement top cover 171 or the temperature measurement bottom cover 172 may be integrally provided with the case 10. The water receiving box 170 is detachable from the temperature measuring top cover 171.

In one embodiment, the supporting platform 17 can be integrally provided with the housing 10, and the temperature measuring component 13 and the inductive switch 14 are fixed to the supporting platform 17, so that the structure is simpler.

Referring to fig. 9 to 10, the temperature measuring assembly 13 includes a fixing frame 131, an elastic member 132, and a temperature measuring probe 133.

The fixing frame 131 includes a base 1310, a retaining wall 1311 and a retaining portion 1312 extending upward from the base 1310, and a retaining portion 1313 extending to one side from the base 1310. The base 1310 is provided with an assembly hole 13101 and a through hole 13102. The abutting portion 1313 is provided with a limiting groove 13130. The retaining wall 1311 encloses a receiving groove 13110. The through hole 13102 is located below the receiving groove 13110 and communicates with the receiving groove 13110.

The fixing bracket 131 is assembled to the temperature measuring top cover 171. The assembling holes 13101 are aligned with the fixing posts 1713, and are fixed to the fixing posts 1713 after passing through the assembling holes 13101 by fixing members, such as screws, to fix the fixing frame 131 to the temperature measuring top cover 171. The fixing bracket 131 may also be fixed to the temperature measuring bottom cover 172.

The fixing posts 1713 and the assembly holes 13101 are provided in a pair. A pair of assembly holes 13101 are respectively located at both sides of the through hole 13102. The stopper groove 13130 is located outside the assembly hole 13101. When the fixing frame 131 is fixed to the temperature measuring top cover 171, the protruding ribs 1714 of the temperature measuring top cover 171 are accommodated in the limiting grooves 13130, so as to further limit the fixing frame 131.

The abutting portion 1313 is located below the inductive switch 14 and abuts against the inductive switch 14 to fix the inductive switch 14. In another embodiment, the inductive switch 14 may be fixed to the supporting portion 1313, for example, the supporting portion 1313 may be provided with an assembly slot, and the inductive switch 14 may be accommodated in the assembly slot.

The temperature probe 133 includes a main body 1330, a contact portion 1331 located at the top end of the main body 1330, and a flange 1332 disposed on the main body 1330. At least part of the main body 1330 is accommodated in the accommodating groove 13110, and the retaining portion 1312 of the fixing frame 131 is retained and fixed with the flange 1332, so as to limit the temperature measuring probe 133 to the fixing frame 131. The bottom end of the main body 1330 passes out of the through hole 13102.

When the temperature measuring unit 13 is assembled to the temperature measuring top cover 171, the contact portion 1331 penetrates through the through hole 17101.

The elastic member 132 is located in the receiving groove 13110, the top end of the elastic member 132 abuts against the flange 1332 of the temperature probe 133, and the bottom end of the elastic member 132 abuts against the fixing frame 131. When the temperature measuring probe 133 is applied with a force, it can move downward along the receiving groove 13110 and press the elastic member 132. When the force disappears, the resisting force of the elastic member 132 drives the temperature measuring probe 133 to move upwards.

With this arrangement, when the boiling cup assembly 2 is not placed on the supporting base 17 of the main body 1, the contact portion 1331 of the temperature probe 133 is exposed through the through hole 1701 of the supporting base 17, that is, the contact portion 1331 is higher than the supporting base 17. When boil out cup subassembly 2 place in during the brace table 17, boil out cup subassembly 2 pushes down temperature probe 133, temperature probe 133 atress removes down, makes contact portion 1331 with boil out cup subassembly 2 effectively contacts, ensures temperature probe 133 can accurately survey the temperature in the boil out cup subassembly 2.

Referring to fig. 2 and fig. 11 to 13, the boiling cup assembly 2 includes a boiling cup 20, a cup holder 21, a handle 22, a cup cover 23, an air inlet device 24 and an induction element 25.

The boiling cup 20 includes a cup main body 201. The cup holder 21 includes an inner cup holder 210 and an outer cup holder 211. The cup main body 201 and the inner cup holder 210 enclose a containing space 2010 for containing food materials. The inner cup holder 210 is made of metal. The inner cup holder 210 includes a bottom wall 2101 and a side wall 2102 extending from the bottom wall 2101. The bottom wall 2101 is made of a heat conductive material and has the characteristic of high heat transfer efficiency, for example, stainless steel stamping forming or heat transfer aluminum casting forming can be selected to facilitate heat transfer, so that the temperature probe 133 can accurately detect the temperature in the cooking cup 20. The outer cup 211 is made of a material with poor thermal conductivity, such as plastic, to prevent the inner cup 210 from being burned.

The air inlet device 24 is disposed on the side wall 2102. When the boiling cup assembly 2 is placed on the supporting table 17 of the main machine 1, the air inlet device 24 is matched with the air outlet device 15 of the main machine 1, so that steam generated by the steam generating device 11 can enter the accommodating space 2010 through the air outlet device 15 and the air inlet device 24, and food materials in the accommodating space 2010 are heated and boiled.

In one embodiment, a heating element may be provided at the support platform 17 or the cup holder 21 to heat the food material in the receiving space 2010. The heating member may be a heating pipe or a heating plate, etc.

The outer cup holder 211 is made of plastic and includes a retaining wall 2110. The retaining wall 2110 encloses a receiving portion 2113. The outer cup holder 211 is further provided with an opening 2112 communicating with the housing portion 2113. The inner cup holder 210 is accommodated in the accommodating portion 2113. The opening 2112 is used for exposing the bottom wall 2101 of the inner cup 210 to contact with the contact part 1331 of the temperature measuring probe 133, so as to accurately detect the temperature in the accommodating space 2010 and prevent the overflow phenomenon when the food materials are boiled.

For example, in one embodiment, the temperature probe 133 detects the temperature in the accommodating space 2010, when the detected temperature is greater than or equal to 80 degrees, the steam generating device 11 stops working, and when the time t for stopping working is greater than or equal to 1 minute and less than or equal to 2 minutes, the steam generating device 11 starts working again, and the circulation is repeated for 5 times or more, the slurry is boiled to be well done, the process is finished, and the pulping is completed.

The temperature measuring component 13 is contacted with the bottom wall 2101 of the boiling cup 20 through the contact part 1331 of the temperature measuring probe 133 to detect the temperature in the boiling cup 20, the temperature measuring component 13 is arranged in the host 1, the electrical connection is reduced, the electrical safety is ensured, and the temperature transmission of the temperature measuring component 13 is stable.

The inductive element 25 may be a magnetic element. When the boiling cup component 2 is assembled in the supporting table 17 of the main machine 1, the sensing element 25 touches the sensing switch 14, the main machine 1 receives a signal, recognizes that the boiling cup component 2 is assembled in place, and controls the food processor to work next step, such as opening the slurry discharge valve 42 and controlling the heating work of the steam generating device 11.

For example, when it is detected that the cooking cup assembly 2 is assembled in place, the slurry discharge valve 42 is opened, so that the fluid in the grinding cup 40 can flow into the accommodating space 2010 through the slurry discharge valve 42, and the condition that the fluid in the grinding cup 40 flows out when the cooking cup assembly 2 is not assembled can be prevented; for another example, when detecting that the cup subassembly 2 of cooking assembles in place, steam generator 11 just can go out steam, avoids not assembling the cup subassembly 2 of cooking and leads to steam to hinder people's accident.

The fixing frame 131 of the temperature measurement component 13 of the embodiment of the application not only fixes the temperature measurement probe 133, but also fixes the inductive switch 14, has a simple structure, saves the cost and the assembly process, and improves the assembly efficiency.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being covered by the following claims.

Claims (10)

1. The food processor is characterized by comprising a host (1), a water tank assembly (3), a crushing cup assembly (4) and a cooking cup assembly (2), wherein the cooking cup assembly (2) comprises a containing space (2010) for containing food materials, the host (1) comprises a shell (10) and a motor (12) positioned in the space enclosed by the shell (10), the crushing cup assembly (4) comprises a crushing cup (40) and a crushing knife (41) arranged in the crushing cup (40) and controlled by the motor (12), the water tank assembly (3) can convey water into the crushing cup (40) according to a cooking program, the host (1) or the crushing cup assembly (4) further comprises a pulp discharge valve (42), the pulp discharge valve (42) is set to control pulp in the crushing cup (40) to flow into the containing space (2010) according to the cooking program, host computer (1) or boil out cup subassembly (2) still include heating device, in order to be used for giving the edible material heating in accommodation space (2010), host computer (1) including brace table (17) and set up in temperature measurement subassembly (13) and inductive switch (14) of brace table (17), boil out cup subassembly (2) including sensing element (25), work as boil out cup subassembly (2) place in when on brace table (17), sensing element (25) are set up to triggerable inductive switch (14), in order to control arrange thick liquid valve (42) row thick liquid and/or heating device heating, temperature measurement subassembly (13) including be fixed to mount (131) of casing (10) and fixed to temperature probe (133) of mount (131), temperature probe (133) are used for detecting the temperature in accommodation space (2010), the fixing frame (131) comprises a butting part (1313) for limiting the inductive switch (14).

2. The food processor of claim 1, wherein the inductive switch (14) comprises a reed switch or a hall switch and the inductive element (25) comprises a magnetic member.

3. The food processor of claim 1, wherein the support table (17) comprises a top wall (1710) and a boss (1712) extending from the top wall (1710), the boss (1712) enclosing a receiving slot (17120) for receiving the inductive switch (14), and the abutting portion (1313) is located below the inductive switch (14) to support the inductive switch (14).

4. The food processor of claim 3, wherein the support platform (17) comprises a side wall (1711) extending from the top wall (1710) and a rib (1714) extending from the side wall (1711), the fixing frame (131) is provided with a limiting groove (13130), and at least part of the rib (1714) is accommodated in the limiting groove (13130).

5. The food processor of claim 3, wherein the support table (17) comprises a fixing post (1713) extending from the top wall (1710), the fixing frame (131) is provided with an assembling hole (13101), the main body (1) comprises a fixing member, and the fixing member is fixed to the fixing post (1713) after passing through the assembling hole (13101) so as to fix the fixing frame (131) to the support table (17).

6. The food processor of claim 5, wherein the fixing frame (131) comprises a base (1310), and a retaining wall (1311) and a retaining portion (1312) extending upward from the base (1310), the retaining portion (1313) is formed by extending from the base (1310) to one side, the assembling hole (13101) is disposed on the base (1310), the retaining wall (1311) defines an accommodating slot (13110), the temperature probe (133) comprises a main body (1330), a contact portion (1331) at the top end of the main body (1330), and a flange (1332) disposed on the main body (1330), at least a portion of the main body (1330) is accommodated in the accommodating slot (13110), the retaining portion (1332) is retained and fixed with the flange (1332), and when the cooking cup assembly (2) is placed on the supporting platform (17), the contact portion (1331) contacts with the cooking cup assembly (1332), to detect the temperature within the containment space (2010).

7. The food processor according to claim 6, wherein the temperature measuring probe (133) is stressed to move up and down along the supporting platform (17), the temperature measuring component (13) comprises an elastic member (132), one end of the elastic member (132) abuts against the temperature measuring probe (133), the other end of the elastic member abuts against the fixing frame (131), when the boiling cup component (2) is placed on the supporting platform (17), the boiling cup component (2) is pressed against the contact part (1331), and the temperature measuring probe (133) extrudes the elastic member (132).

8. The food processor according to claim 6, wherein the boiling cup assembly (2) comprises a boiling cup (20) and an inner cup holder (210) arranged on the boiling cup (20), the inner cup holder (210) and the boiling cup (20) enclose the accommodating space (2010), the inner cup holder (210) comprises a bottom wall (2101), when the boiling cup assembly (2) is placed on the supporting platform (17), the contact part (1331) is in contact with the bottom wall (2101), and the bottom wall (2101) is made of a heat conducting material.

9. The food processor of claim 4, wherein the support table (17) comprises a water receiving box (170), a temperature measuring top cover (171) and a temperature measuring bottom cover (172) assembled to the temperature measuring top cover (171), the water receiving box (170) is pressed on the temperature measuring top cover (171), the temperature measuring component (13) is located in a space enclosed by the temperature measuring top cover (171) and the temperature measuring bottom cover (172), and the temperature measuring top cover (171) comprises the top wall (1710), the boss (1712) and the rib (1714).

10. The food processor according to any one of claims 1 to 9, wherein the main machine (1) comprises a steam generating device (11) and an air outlet device (15) communicated with the steam generating device (11), the boiling cup assembly (2) comprises an air inlet device (24), when the boiling cup assembly (2) is placed on the supporting table (17), the air inlet device (24) is communicated with the air outlet device (15), so that steam generated by the steam generating device (11) enters the accommodating space (2010) through the air outlet device (15) and the air inlet device (24).

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