CN214017234U - Host computer and cooking machine of cooking machine - Google Patents

Abstract

The application provides a host computer and cooking machine of cooking machine. A main machine comprises a shell, an upper shell, a cup body, a motor and a stirring knife. The shell comprises a main body part extending along the vertical direction, a first supporting part extending from the bottom end of the main body part to one side, a second supporting part extending from the bottom end of the main body part to the other side, and an extending part extending from the top end of the main body part to one side. The extension part is positioned above the first supporting part. The main machine further comprises a heating device positioned below the first supporting part. The main machine also comprises a valve component arranged on the extension part. The valve assembly is configured to control the flow of fluid from the cup into the juice receiving cup assembly. The shell is designed in a one-piece independent mode, only one set of die is needed, and the high cost of die opening is omitted; meanwhile, the assembly process is omitted, and the production efficiency is improved; moreover, damage caused by disassembly or assembly during maintenance can be avoided in one piece mode, and the service life of the food processor is prolonged.

Description

Host computer and cooking machine of cooking machine

Technical Field

The application relates to a small household electrical appliance field especially relates to host computer and cooking machine of 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 shell of relevant cooking machine is formed by the equipment of a plurality of split type parts, need open a plurality of moulds, and is very high.

SUMMERY OF THE UTILITY MODEL

The application provides a can save host computer and cooking machine of cost.

The application provides a host computer of cooking machine can be used to the matched stack water tank subassembly and connect the juice cup subassembly, the host computer includes the shell, sets up in the last casing of shell and is located cup and motor in the space that the shell encloses and set up in the stirring sword of motor, the stirring sword is located in the space that the cup encloses, the shell includes the main part that extends along vertical direction, from the bottom of main part to the first supporting part of one side extension, from the bottom of main part to the second supporting part of opposite side extension and from the top of main part to the extension of one side extension, the extension is located the top of first supporting part, the host computer still includes heating device, heating device is located the below of first supporting part, the host computer still including set up in the extension and with the valve assembly that the cup intercommunication set up, the valve assembly is set up to the fluid in the controllable cup and flows in according to the culinary art procedure connect the juice cup group A member, the first support portion being configured to support the juice receiving cup assembly, the second support portion being configured to assemble the water tank assembly, the water tank assembly being in communication with the cup body and being operable to deliver water into the cup body according to a cooking program.

In some embodiments, the heating device of the above technical scheme is used for heating food materials in the juice receiving cup assembly, and the stirring cup assembly only stirs the food materials and does not heat the food materials, so that the bottom pasting phenomenon of the food materials in the stirring cup assembly can be prevented, and a cup body of the stirring cup assembly 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 juice receiving cup assembly, so that the cooking condition of the food materials is convenient to observe, and the use experience of a user is improved; moreover, the area of the bottom of the juice receiving cup assembly is relatively large, so that the heating uniformity of food materials can be improved, and the mouthfeel of the processed food materials is improved; in some embodiments, the shell of the technical scheme is designed in a one-piece independent mode, only one set of die is used, and the high cost of die opening is omitted; meanwhile, the assembly process is omitted, and the production efficiency is improved; moreover, damage caused by disassembly or assembly during maintenance can be avoided in one piece mode, and the service life of the food processor is prolonged.

Further, the main part includes preceding lateral wall, back lateral wall, a pair of connecting wall, platelike portion and from platelike portion downwardly extending's spacing portion, platelike portion connect in at least one in preceding lateral wall, back lateral wall and a pair of connecting wall, first supporting part and extension are certainly preceding lateral wall extends and forms, the second supporting part certainly back lateral wall extends and forms, spacing portion encloses into storage space, the motor is at least partly located in storage space, spacing portion is equipped with the louvre, the louvre is located the below of motor.

In some embodiments, the arrangement of the limiting part enables heat generated by the motor to gather to the storage space and is beneficial to external cold air entering the storage space, and heat dissipation of the motor is facilitated.

Further, the main machine comprises a positioning plate arranged on the cup body, the positioning plate is fixedly assembled with the plate-shaped portion, the motor comprises a shaft portion, the shaft portion penetrates through the plate-shaped portion and the positioning plate, and the stirring knife is arranged on the shaft portion.

In some embodiments, above-mentioned technical scheme's locating plate with platelike portion equipment is fixed to more firmly the fixing stirring cup subassembly, the stirring sword set up in the axial region has saved upper and lower coupler, has saved the cost, simultaneously, has avoided the noise that the collision between the upper and lower coupler caused, can reduce the noise of cooking machine during operation, moreover, can improve transmission efficiency.

Further, the host computer including set up in the last casing of shell, the shell include certainly from the first locating post that platelike portion upwards extended, go up the casing and include apron portion, from apron portion downwardly extending's locating cylinder, the host computer still includes the setting element, first locating post is equipped with the passageway, so that the setting element passes, the setting element assemble in locating cylinder.

In some embodiments, the first positioning column of the above technical solution is provided with a channel for the positioning element to pass through, and the positioning element is assembled on the positioning column body, so that the screw hole of the upper shell can be prevented from occurring, and the consistency of the appearance can be prevented from being affected.

Further, the shell comprises a first buckle extending upwards from the extending portion, the upper shell comprises a second buckle arranged on the cover plate portion, and the second buckle is arranged to be capable of being buckled with the first buckle.

In some embodiments, the shell and the upper shell of the above technical scheme are assembled together in a snap-fit manner, so that the assembly and disassembly are convenient; meanwhile, when the upper shell and the shell are assembled, the first buckle is buckled and held on the second buckle, so that the upper shell is fixed on the shell in advance, and then the positioning piece is assembled, thereby being beneficial to locking the positioning piece and improving the convenience of assembly.

Further, the host computer including set up in the last casing of shell, the shell include certainly the main part upwards extends first chimb, first chimb is equipped with a plurality of first sunken, go up the casing include apron portion, certainly apron portion downwardly extending's side and certainly the limit is held in support that the side extends, support to holding the limit and be equipped with a plurality of breach portions, the side with be formed with air inlet channel between the first chimb, air inlet channel first sunken and breach portion can be used to supply external cold air to pass through, the louvre can be used to the hot-blast process of heat supply.

In some embodiments, above-mentioned technical scheme's inlet air channel, first sunken and breach portion can be used to supply the outside cold air to pass through, the louvre can be used to supply the hot air to pass through for cooking machine has the radiating effect of preferred.

Further, the host computer still including set up in the lower casing of shell, the casing includes bottom plate portion and the barricade that upwards extends from bottom plate portion down, bottom plate portion is equipped with the air outlet, the host computer still includes the fan, the fan is located at least partially in the space that the barricade encloses, the fan is located the top of air outlet, the louvre and the air outlet can be used for supplying hot-blast to pass.

In some embodiments, the retaining wall of the technical scheme is beneficial to gathering hot air and heat dissipation.

Further, the host computer still including being located the first power strip of the below of second supporting part, the fan and heating device with first power strip lotus root connects, the fan is located heating device and between the first power strip, the casing is equipped with a plurality of first air intakes down, the casing still is equipped with a plurality of second air intakes down, first air intake and second air intake can be used to supply external cold air to pass through, the air outlet is used for the hot air process, the air outlet is located first air intake with between the second air intake.

In some embodiments, above-mentioned technical scheme's fan can dispel the heat for motor, first power strip and heating device simultaneously, and simple structure has saved the cost and is favorable to the miniaturized development trend of cooking machine.

Further, the host computer still includes set up in the lower casing or the fixed plate of shell, the fixed plate is located the top of first power strip, the shell includes from first fixing portion that the back lateral wall extends and from the second fixing portion that the preceding lateral wall extends, the fixed plate is equipped with the third fixing portion that upwards extends, the host computer still includes the second power strip, the motor with the coupling of second power strip, one end of second power strip fix in first fixing portion, the other end fix in the second fixing portion, the bottom fix in the third fixing portion.

In some embodiments, one end of the second power board in the above technical solution is fixed to the first fixing portion, the other end is fixed to the second fixing portion, and the bottom end is fixed to the third fixing portion.

Further, the shell still includes to run through the light trap of preceding lateral wall, the host computer still including set up in the temperature detection device of preceding lateral wall, the temperature detection device includes the probe, the probe with the light trap aligns for be used for surveying the temperature of the edible material in the juice receiving cup subassembly.

In some embodiments, the probe of the above technical solution is aligned with the light-transmitting hole for detecting the temperature of the food material in the juice receiving cup assembly, without opening a hole on the cup wall of the juice receiving cup assembly, which can prevent the problem of water leakage and can facilitate cleaning of the juice receiving cup assembly.

Further, the host computer still includes instant heating device, instant heating device intercommunication water tank set spare with the cup.

In some embodiments, the instant heating device in the above technical solution is arranged to add hot water during the process of stirring the food material by the stirring cup assembly, so as to shorten the cooking time of the food material; simultaneously, utilize hot water can wash the cup more effectively, more clean that can wash.

The embodiment of this application still provides a cooking machine, including the host computer that connects juice cup subassembly, water tank set spare and foretell cooking machine, water tank set spare assemble in the host computer.

Drawings

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

Fig. 2 is an exploded 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. 2.

Fig. 4 is a schematic cross-sectional view of the food processor shown in fig. 1.

Fig. 5 is a schematic view of the housing of the host shown in fig. 3.

Fig. 6 is a schematic partial cross-sectional view of the housing shown in fig. 5.

Fig. 7 is an enlarged view of a circled portion a of the cross-sectional view shown in fig. 6.

Fig. 8 is an enlarged view of a circled portion B of the cross-sectional view shown in fig. 6.

Fig. 9 is a schematic view of another angle of the housing of the host shown in fig. 3.

Fig. 10 is a cross-sectional schematic view of the housing of the host shown in fig. 3.

Fig. 11 is a top view of the housing of the host shown in fig. 3.

Fig. 12 is a bottom view of the housing of the host shown in fig. 3.

Fig. 13 is a schematic view of an upper housing of the host shown in fig. 3.

Fig. 14 is an enlarged view of the circled portion of the upper housing shown in fig. 13.

Fig. 15 is a side schematic view of the food processor shown in fig. 1.

Fig. 16 is a schematic view of a lower housing of the host shown in fig. 3.

Fig. 17 is a schematic view of the instant heating apparatus of the host shown in fig. 3.

Fig. 18 is a schematic view of a heating device of the main unit shown in fig. 3.

FIG. 19 is a schematic view of a temperature sensing device of the host machine shown in FIG. 3.

Fig. 20 is a schematic cross-sectional view of the food processor shown in fig. 15 at a temperature detecting device.

Fig. 21 is an enlarged view of a circled portion of the cross-sectional view a shown in fig. 20.

Fig. 22 is an enlarged view of a circled portion of the cross-sectional view B shown in fig. 20.

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 2, the food processor includes a main machine 1, a juice receiving cup assembly 2, a water tank assembly 3 and a cup cover assembly 4. The water tank assembly 3 and the cup cover assembly 4 are detachably assembled on the main machine 1.

Referring to fig. 2 to 4, the main body 1 includes a housing 10, and an instant heating device 11, a motor 12, a stirring cup assembly 13, a heating device 14, a control panel 151, a second power panel 152, a first power panel 153, a fixing plate 16, a fan 17, and a temperature detecting device 18 located in a space enclosed by the housing 10. The housing 10 includes a casing 101, and an upper housing 102 and a lower housing 103 assembled to the casing 101. The motor 12 is coupled to the second power board 152 to provide power to the motor 12. The heating device 14 and the fan 17 are coupled to the first power board 153 to provide power to the heating device 14 and the fan 17.

Referring to fig. 3 to 4 and 20, the stirring cup assembly 13 includes a cup body 130, a positioning plate 131 disposed at a bottom end of the cup body 130, and a stirring blade 133 disposed in a space surrounded by the cup body 130. The cup cover assembly 4 is arranged on the cup body 130 in a covering mode. The motor 12 includes a shaft portion 120. The shaft 120 of the motor 12 passes through the positioning plate 131 and the bottom of the cup body 130, enters the space surrounded by the cup body 130, and is fixed with the stirring blade 133. Stirring sword 133 is fixed in motor shaft 120 has saved upper and lower coupler, has saved the cost, simultaneously, has avoided the noise that the collision between the upper and lower coupler caused, can reduce the noise of cooking machine during operation, moreover, can improve transmission efficiency.

Referring to fig. 4 to 12, the housing 101 includes a main body 1010 extending in a vertical direction, a first support 1013 extending from a bottom end of the main body 1010 to one side, a second support 1014 extending from the bottom end of the main body 1010 to the other side, and an extension 1016 extending from a top end of the main body 1010 to one side. The extension 1016 is positioned above the first support 1013 and extends toward the first support 1013. The main body portion 1010 is provided with a first space 10100. The instant heating device 11 and the second power board 152 are located in the first space 10100.

The main body portion 1010 includes a front sidewall 10101, a rear sidewall 10102, a pair of connecting walls 10103, a plate-shaped portion 10104, a limiting portion 10105 extending downward from the plate-shaped portion 10104, a first positioning column 10106 and a second positioning column 10107 extending upward from the plate-shaped portion 10104, a fourth positioning column 10127 extending downward from the plate-shaped portion 10104, a first baffle 10108 extending from the front sidewall 10101 toward the inside of the main body portion 1010, a second baffle 10109 and a third positioning column 10126, a supporting portion 10110 extending from the front sidewall 10101 toward the outside of the main body portion 1010, a first holding portion 10120 extending from the rear sidewall 10102, and a second holding portion 10121 extending from the front sidewall 10101. The outer surface of the abutting portion 10110 is arc-shaped and is used for abutting against the cup wall of the juice receiving cup component 2.

A pair of the connecting walls 10103 connects the front side wall 10101 and the rear side wall 10102. The plate portion 10104 is connected to the front sidewall 10101, the rear sidewall 10102, and a pair of connecting walls 10103. The limit portion 10105 encloses a receiving space 10113. The motor 12 is located in the receiving space 10113. The limiting portion 10105 is provided with heat dissipation holes 10114, and the heat dissipation holes 10114 are located below the motor 12 to dissipate heat. The setting of spacing portion 10105 makes the heat that motor 12 produced gather together to take in space 10113 and be favorable to in the outside cold air gets into take in space 10113, be favorable to for the motor heat dissipation.

The back lateral wall 10102 is equipped with first knot and holds portion 10115, and it is shown with reference to fig. 2, water tank set spare 3 includes that the second detains and holds portion 31, first knot hold portion 10115 with the second is detained and is held 31 to be used for spacingly water tank set spare 3, convenient equipment and dismantlement water tank set spare 3. The housing 10 is provided with a light hole 10116 penetrating the front side wall 10101 and the abutting portion 10110. The first holding portion 10120 has a first groove (not shown). The second holding portion 10121 has a second groove (not labeled). One end of the second power board 152 is inserted into the first groove portion, and the other end is inserted into the second groove portion, so as to limit the second power board 152.

The housing 101 further includes a first flange 10124 extending upwardly from the body portion 1010 and the extension 1016. The first flange 10124 extends upward from the rear side wall 10102 and the pair of connecting walls 10103 of the main body portion 1010. The first rim 10124 extending upward from the rear sidewall 10102 of the main body portion 1010 is provided with a plurality of first recesses 10125.

The extension 1016 includes a bottom wall 10160, a ring-shaped side 10161 extending upward from the bottom wall 10160, and a first catch 10162 extending upward from the side 10161. The bottom wall 10160 is circular and is provided with a through hole 10163. The first flange 10124 extends from the side 10161. The side 10161 is provided with an arc 10164 connected to the front side 10101. Referring to fig. 20, the main unit 1 further includes a valve assembly 19. The valve assembly 19 is accommodated in the space surrounded by the arc-shaped portion 10164. The valve assembly 19 includes an inlet end 190 and an outlet end 191. The liquid inlet end 190 is communicated with the stirring cup assembly 13, and the liquid outlet end 191 is inserted into the through hole 10163 of the extension 1016, so that the food material stirred by the stirring cup assembly 13 can flow into the juice receiving cup assembly 2 through the liquid outlet end 191 of the valve assembly 19.

The first support part 1013 includes a base 10130, a second rim 10131 extending downward from the base 10130, a first sidewall 10132 and a first column 10133. The base 10130 is provided with a recess 10135 to accommodate the juice receiving cup assembly 2, preventing the juice receiving cup assembly 2 from moving; meanwhile, the juice receiving cup component 2 is assembled into the recess 10135, so that the juice receiving cup component 2 is aligned to the liquid outlet end 191 of the valve assembly 19, and the use experience of a user is improved. The second flange 10131 and the first side wall 10132 are used for assembling and fixing with the lower housing 103.

The second support 1014 includes a top 10140, a second side wall 10141 extending downward from the top 10140, a second cylinder 10142 extending downward from the top 10140, and a through hole 10143 penetrating the top 10140. The rear sidewall 10102 of the housing 101 and the top 10140 of the second support 1014 enclose a receiving space 10146 for receiving the water tank assembly 3. The top portion 10140 is provided with a groove 10145 to receive the bottom end of the water tank assembly 3. The through hole 10143 communicates the water tank assembly 3 and the instant heating device 11, so that water in the water tank assembly 3 can enter the instant heating device 11 for heating.

The housing 101 further includes a second flange 10144 extending downwardly from the main body portion 1010, the first support portion 1013, and the second support portion 1014. The second flange 10144 extends downward from the connecting wall 10103 of the main body 1010, the first side wall 10132 of the first support 1013, and the second side wall 10141 of the second support 1014.

Referring to fig. 13 to 15, the upper housing 102 includes a cover portion 1020, a transition portion 1021 extending obliquely upward from the cover portion 1020, an operation portion 1029 extending obliquely downward from the transition portion 1021, a side edge 1022 extending downward from the cover portion 1020, the transition portion 1021 and the operation portion 1029, a positioning pillar 1023 extending downward from the cover portion 1020, and a holding edge 1025 extending from the side edge 1022, a holding protrusion 1026 and a second latch 1027. The holding edge 1025 is provided with a plurality of notches 10250. The cover plate 1020 is provided with a window 10201 for exposing the cup mouth of the stirring cup assembly 13 to feed food.

Referring to fig. 20, the lid assembly 4 extends beyond the lid portion 1020 to facilitate assembly and disassembly of the lid assembly 4; since the transition portion 1021 is disposed obliquely upward from the cover 1020, even if the cup 130 overflows, the fluid will not flow to the operation portion 1029 and the console 151 can be protected because the transition portion 1021 is blocked by the transition portion 1021; transition portion 1021 is not higher than the top of bowl cover subassembly 4, during the transportation packing, transition portion 1021 can support the foam box with bowl cover subassembly 4 jointly for the foam box is more firm, also can avoid other article to crush bowl cover subassembly 4.

Referring to fig. 4 and fig. 20 to 21, after the upper housing 102 and the housing 101 are assembled, the positioning post 1023 of the upper housing 102 is inserted into the first positioning post 10106 of the housing 101, and then passes through the first positioning post 10106 by using a positioning element such as a screw or a bolt, and then is locked and fixed with the positioning post 1023, so as to fix the upper housing 102 to the housing 101, which can prevent the upper housing 102 from having a screw hole and affecting the consistency of the appearance, specifically, the first positioning post 10106 is provided with a channel 1028 for the positioning element to pass through, and the positioning element is assembled to the positioning post 1023; the first flange 10124 of the housing 101 is located between the abutting edge 1025 and the abutting convex part 1026 of the upper case 102, and the second latch 1027 of the upper case 102 is fastened and fixed with the first latch 10162 of the housing 101 to limit the upper case 102. The first buckle 10162 and the second buckle 1027 are fastened and fixed, so that the assembly and disassembly are convenient, the assembly time is saved, and the maintenance is convenient; meanwhile, when the upper housing 102 and the housing 101 are assembled, the first buckle 10162 is firstly buckled on the second buckle 1027, so that the upper housing 102 is fixed on the housing 101 in advance, and then the positioning part is assembled, which is beneficial to locking the positioning part and increases the convenience of assembly.

The abutting edge 1025 of the upper shell 102 is located outside the first flange 10124 of the housing 101 to maintain the consistency of the appearance of the food processor. The first convex edge 10124 of the housing 101 is provided with a plurality of first recesses 10125, the abutting edge 1025 of the upper housing 102 is provided with a plurality of notch portions 10250, the notch portions 10250 are correspondingly arranged with the first recesses 10125, the height of the abutting edge 1025 of the upper housing 102 is greater than the height of the first convex edge 10124 of the housing 101, so that an air inlet channel 10221 is formed between the side edge 1022 of the upper housing 102 and the first convex edge 10124 of the housing 101, and outside cold air can pass through the air inlet channel 10221, the first recesses 10125 and the notch portions 10250 to enter the inside of the food processer so as to dissipate heat for the motor 12. The control panel 151 is assembled inside the operation unit 1029, and the operation of the food processor can be controlled by the operation unit 1029.

Referring to fig. 15, an included angle a between the operating unit 1029 and the horizontal direction is greater than or equal to 45 degrees and less than or equal to 70 degrees, preferably 60 degrees, so that the operator can observe and manipulate the operating unit 1029 conveniently. The distance d between the top end of the operating unit 1029 and the top end of the cover 1020 is greater than or equal to 5mm and less than or equal to 25mm, preferably 10mm, which is convenient for the operator to observe and operate the operating unit 1029. Referring to fig. 20, a distance D2 between the bottom end of the operating portion 1029 and the bottom wall 10160 is greater than or equal to 70mm and less than or equal to 130mm, and a space surrounded by the extending portion 10106 is large, so that the operating portion can be used for assembling other components.

Referring to fig. 3-4, the positioning plate 131 of the blender cup assembly 13 is provided with an aperture 1310. After the blending cup assembly 13 is assembled with the housing 101, the second positioning column 10107 of the housing 101 passes through the hole 1310, and then is assembled to the second positioning column 10107 by using a positioning member, such as a screw or a bolt, to fix the positioning plate 131 to the housing 101, so as to fix the blending cup assembly 13 to the housing 101.

Referring to fig. 16, the lower housing 103 includes a bottom plate 1030, a first side plate 1031 extending upward from the bottom plate 1030, a second side plate 1032, a pair of third side plates 1033, a retaining wall 1034 and a retaining post 1035. The retaining wall 1034 is circular. The first side plate portion 1031 and the second side plate portion 1032 are located at both ends of the bottom plate portion 1030. The first side plate portion 1031 and the second side plate portion 1032 each extend in the width direction of the bottom plate portion 1030. The pair of third side plate portions 1033 extend in the longitudinal direction of the bottom plate portion 1030. The lower housing 103 further includes a plurality of first air inlets 1036 disposed on the first side plate portion 1031, a plurality of second air inlets 1037 and a plurality of air outlets 1038 disposed on the bottom plate portion 1030. The plurality of air outlets 1038 are formed in a circular shape. Retaining wall 1034 encloses the outside of air outlet 1038. The plurality of first air inlets 1036 are arranged along a width direction of the bottom plate portion 1030. The plurality of second air inlets 1037 are arranged along a width direction of the bottom plate portion 1030. The first air inlet 1036 extends to the bottom plate portion 1030. The second air inlet 1037 is located between the retaining wall 1034 and the second side plate portion 1032. The first side plate 1031 and the third side plate 1033 are provided with storage grooves 10310.

Referring to fig. 20, after the lower housing 103 and the outer housing 101 are assembled, the second flange 10144 of the outer housing 101 is assembled into the receiving groove 10310 of the lower housing 103, the second flange 10131 of the outer housing 101 is located at the outer side of the second side plate 1032 of the lower housing 103, and the holding column 1035 of the lower housing 103 is fixed to the first column 10133 and the second column 10142 of the outer housing 101, so as to assemble the lower housing 103 to the outer housing 101, and at the same time, the first power board 153 and the heating device 14 can be fixed to the outer housing 101. In other embodiments, the first power strip 153 and the heating device 14 may be separately fixed. The first power board 153 is located between the first side board portion 1031 and the retaining wall 1034. The heating device 14 is located between the second side plate portion 1032 and the retaining wall 1034. The fan 17 is located between the first power board 153 and the heating device 14, and the motor 12 is located above the fan 17. The fan 17 is coupled to the first power board 153 to provide electric power to the fan 17.

The fixed plate 16 is fixed to the housing 101 or the lower case 103. The fixing plate 16 is located above the first power board 153 for holding the instant heating device 11 and the second power board 152. The fixing plate 16 includes a third holding portion 161, and the bottom end of the second power supply plate 152 is held by the third holding portion 161. The fan 17 is at least partially located in a space surrounded by the retaining wall 1034 of the lower housing 103, so that the external cold air can be blown to the motor 12 through the air intake channel 10221, the first recess 10125 and the notch 10250, and then discharged through the heat dissipation hole 10114 and the air outlet 1038 of the lower housing 103, so as to take away heat generated by the motor 12 and also take away heat generated by the second power board 152; the first power board 153 is located between the first side board 1031 and the retaining wall 1034, and the fan 17 allows outside cold air to enter the food processor through the first air inlet 1036 and be blown toward the first power board 153 and then be discharged from the air outlet 1038, so as to cool the first power board 153; heating device 14 is located second side board portion 1032 with between the barricade 1034, fan 17 makes outside cold air can get into the cooking machine inside and blow to via second air intake 1037 follow behind the heating device 14 the air outlet 1038 discharges for heating device 14 cools down, sets up a fan 17, can cool down motor 12, first power supply board 153 and heating device 14 simultaneously, has saved the cost and has saved the space of cooking machine.

Referring to fig. 17, the instant heating device 11 includes a heat generating member 110, a water pump 111, a flow meter 112, an upper holding column 113, and a lower holding column 114. The flowmeter 112, the water pump 111 and the heating element 110 communicate, the flowmeter 112 communicates the water tank assembly 3, the heating element 110 communicates the cup 130 of the stirring cup assembly 13, so that water in the water tank assembly 3 flows into the heating element 110 after passing through the flowmeter 112 to be heated, and then enters the cup 130 of the stirring cup assembly 13 to process food materials or clean the cup 130. The flow meter 112 detects the amount of water flowing out of the water tank assembly 3, stops the operation of the water pump 111 when the water reaches a predetermined amount, and stops the supply of water into the cup body 130 of the stirring cup assembly 13. The upper retaining post 113 is fixed to the fourth positioning post 10127 of the housing 101, and the lower retaining post 114 is fixed to the fixing plate 16 to limit the instant heating device 11.

The heating member 110 may be a quartz tube nano-coating heating member, a thick film heating member, a heating tube, an infrared tube heating member, or the like. The quartz tube nano coating heating member has the characteristics of high heating efficiency and high heating speed. In the process of stirring the food materials by the stirring cup assembly 13, hot water is added, so that the cooking time of the food materials can be shortened; meanwhile, the cup body 130 of the stirring cup assembly 13 can be more effectively cleaned by hot water, and the cup can be cleaned more cleanly.

Referring to fig. 18, the heating device 14 is located below the first support part 1013 for heating the food material in the juice receiving cup assembly 2. The heating device 14 includes a holder 141, and a lug 142 and a coil 143 disposed on the holder 141. The coil 143 is coupled with the first power panel 153, and the coil 143 is electrified for heating, so that the heating is more uniform, and the food in the juice receiving cup assembly 2 is not easy to stick. The lug 142 is fixed to the lower case 103 to limit the heating device 14. In other embodiments, the heating device 14 may also be fixed to the housing 101. In other embodiments, the heating device 14 may also be a heating tube, a heating plate, a heating film (thick film), a quartz tube nano-film, or the like.

The distance between the heating means 14 and the lower surface of the base 10130 of the first support 1013 is 10mm or less to improve the heating efficiency of the heating means 14. The stirring cup assembly 13 only stirs food materials and does not heat the food materials, so that the food materials in the stirring cup assembly 13 can be prevented from being burnt, and the cup body 130 of the stirring cup assembly 13 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 juice receiving cup assembly 2, so that the cooking condition of the food materials is convenient to observe, and the use experience of a user is improved; moreover, the area of the bottom of the juice receiving cup assembly 2 is relatively large, so that the uniformity of heated food materials can be improved, and the mouthfeel of the processed food materials is improved.

Referring to fig. 9, 19, 20 and 22, the temperature detector 18 is used for detecting the temperature of the food material in the juice receiving cup assembly 2, and detecting whether the food is cooked; at the same time, the power of the heating device 14 can be controlled depending on the temperature. The temperature detecting device 18 comprises a circuit board 180, a probe 181 arranged on the circuit board 180, and a constant temperature sleeve 182 arranged on the probe 181. The constant temperature sleeve 182 is sleeved on the probe 181 and is fastened with the probe 181 into a whole. The probe 181 is preferably made of copper, or aluminum, ceramic, iron, or the like. The thermostatic jacket 182 may also be integral with the probe 181.

The probe 181 is an infrared probe, and detects the temperature of the food material in the juice receiving cup assembly 2 by using infrared rays, and at the same time, can detect the height of the liquid level in the juice receiving cup assembly 2 to prevent dry burning; furthermore, there is no need to open a hole in the wall of the juice receiving cup assembly 2, which can prevent the problem of water leakage and facilitate cleaning of the juice receiving cup assembly 2.

The circuit board 180 is provided with an assembly hole 1801. After the temperature detector 18 and the housing 101 are assembled, the probe 181 is assembled in a space surrounded by the second baffle 10109 to limit the probe 181. The circuit board 180 is located in a space surrounded by the first baffle 10108, and can be fixed to the third positioning column 10126 of the housing 101 after passing through the assembling hole 1801 by using positioning members such as screws or bolts, so as to limit the temperature detecting device 18. The temperature detecting device 18 may also be disposed on the housing 101 by means of a snap fit or welding.

The probe 181 generates infrared rays through the light transmitting hole 10116 of the case 101. When the juice receiving cup assembly 2 is placed on the first support part 1013, the cup wall part of the juice receiving cup assembly 2 extends into the light hole 10116, so that the juice receiving cup assembly 2 can be limited. The distance D1 between the center line of the probe 181 and the cup bottom of the juice receiving cup assembly 2 is greater than or equal to 5mm and less than or equal to 30mm, so as to accurately detect the temperature of the food material in the juice receiving cup assembly 2.

The shell 101 of the host 1 in the embodiment of the application is designed in a one-piece independent mode, only one set of die is used, and the high cost of die opening is omitted; meanwhile, the assembly process is omitted, and the production efficiency is improved; secondly, the damage caused by disassembly or assembly in maintenance can be avoided in one piece, and the service life of the food processor is prolonged; moreover, the outer surface of the shell is not sunken, so that dust is not easy to accumulate and the shell is easy to clean.

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 (12)

1. The utility model provides a host computer of cooking machine, can be used to the matched stack water tank set spare (3) and connect juice cup subassembly (2), its characterized in that, the host computer includes shell (101), is located cup (130) and motor (12) in the space that shell (101) enclose and set up in stirring sword (133) of motor (12), stirring sword (133) are located the space that cup (130) enclose, shell (101) include along the main part (1010) of vertical direction extension, from the bottom of main part (1010) to first supporting part (1013) that one side extended, from the bottom of main part (1010) to the second supporting part (1014) of opposite side extension and from the top of main part (1010) to extension (1016) that one side extended, extension (1016) are located the top of first supporting part (1013), the host computer still includes heating device (14), the heating device (14) is located below the first supporting part (1013), the main machine further comprises a valve assembly (19) arranged in the extending part (1016) and communicated with the cup body (130), the valve assembly (19) is arranged to control the fluid in the cup body (130) to flow into the juice receiving cup assembly (2) according to a cooking program, the first supporting part (1013) is arranged to support the juice receiving cup assembly (2), the second supporting part (1014) is arranged to assemble the water tank assembly (3), and the water tank assembly (3) is communicated with the cup body (130) and can deliver water into the cup body (130) according to the cooking program.

2. The main machine of food processor as claimed in claim 1, wherein the main body part (1010) comprises a front side wall (10101), a rear side wall (10102), a pair of connecting walls (10103), a plate-shaped part (10104), and a limit part (10105) extending downward from the plate-shaped part (10104), the plate-shaped portion (10104) is connected to at least one of the front sidewall (10101), the rear sidewall (10102), and a pair of connecting walls (10103), the first support part (1013) and the extension part (1016) are formed by extending from the front side wall (10101), the second supporting part (1014) is formed by extending from the rear side wall (10102), the limit part (10105) encloses a receiving space (10113), the motor (12) is at least partially located in the accommodating space (10113), the limiting portion (10105) is provided with heat dissipation holes (10114), and the heat dissipation holes (10114) are located below the motor (12).

3. The main machine of food processor of claim 2, wherein the main machine comprises a positioning plate (131) disposed on the cup body (130), the positioning plate (131) is assembled and fixed with the plate-shaped portion (10104), the motor (12) comprises a shaft portion (120), the shaft portion (120) passes through the plate-shaped portion (10104) and the positioning plate (131), and the stirring knife (133) is disposed on the shaft portion (120).

4. The host machine of the food processer according to claim 2, wherein the host machine comprises an upper housing (102) disposed on the housing, the housing (101) comprises a first positioning column (10106) extending upwards from the plate-shaped portion (10104), the upper housing (102) comprises a cover plate portion (1020) and a positioning column (1023) extending downwards from the cover plate portion (1020), the host machine further comprises a positioning member, the first positioning column (10106) is provided with a channel (1028) for the positioning member to pass through, and the positioning member is assembled on the positioning column (1023).

5. The host machine of food processor of claim 4, wherein the housing (101) comprises a first buckle (10162) extending upwards from the extension portion (1016), the upper housing (102) comprises a second buckle (1027) arranged on the cover plate portion (1020), and the second buckle (1027) is arranged to be buckled with the first buckle (10162).

6. The host machine of claim 2, wherein the host machine comprises an upper housing (102) disposed on the housing, the housing (101) includes a first flange (10124) extending upwardly from the main body portion (1010), the first flange (10124) is provided with a plurality of first recesses (10125), the upper shell (102) comprises a cover plate part (1020), a side edge (1022) extending downwards from the cover plate part (1020) and a holding edge (1025) extending from the side edge (1022), the propping edge (1025) is provided with a plurality of gap parts (10250), an air inlet channel (10221) is formed between the side edge (1022) and the first convex edge (10124), the air inlet channel (10221), the first recess (10125) and the gap portion (10250) can be used for passing through cold air from the outside, and the heat dissipation holes (10114) can be used for passing through hot air.

7. The host machine of the food processor of claim 6, further comprising a lower casing (103) disposed on the housing (101), wherein the lower casing (103) comprises a bottom plate portion (1030) and a retaining wall (1034) extending upward from the bottom plate portion (1030), the bottom plate portion (1030) is provided with an air outlet (1038), the host machine further comprises a fan (17), at least a portion of the fan (17) is located in a space surrounded by the retaining wall (1034), the fan (17) is located above the air outlet (1038), and the heat dissipation holes (10114) and the air outlet (1038) are used for hot air to pass through.

8. The host computer of the food processor of claim 7, further comprising a first power board (153) located below the second supporting portion (1014), wherein the blower (17) and the heating device (14) are coupled to the first power board (153), the blower (17) is located between the heating device (14) and the first power board (153), the lower housing (103) is provided with a plurality of first air inlets (1036), the lower housing (103) is further provided with a plurality of second air inlets (1037), the first air inlets (1036) and the second air inlets (1037) are used for passing outside cold air, the air outlet (1038) is used for passing hot air, and the air outlet (1038) is located between the first air inlets (1036) and the second air inlets (1037).

9. The main frame of food processor according to claim 8, further comprising a fixing plate (16) disposed on the lower case (103) or the housing (101), the fixing plate (16) is located above the first power panel (153), the housing (101) includes a first holding portion (10120) extending from the rear sidewall (10102) and a second holding portion (10121) extending from the front sidewall (10101), the fixing plate (16) is provided with a third holding part (161) extending upwards, the main machine further comprises a second power supply plate (152), the motor (12) is coupled to the second power board (152), one end of the second power board (152) is fixed to the first fixing portion (10120), the other end of the second power board is fixed to the second fixing portion (10121), and the bottom end of the second power board is fixed to the third fixing portion (161).

10. The host computer of food processer of claim 2, characterized in that, the shell (101) further comprises a light hole (10116) running through the front side wall (10101), the host computer further comprises a temperature detecting device (18) arranged on the front side wall (10101), the temperature detecting device (18) comprises a probe (181), the probe (181) is aligned with the light hole (10116) for detecting the temperature of the food material in the juice receiving cup assembly (2).

11. The main machine of food processor according to any one of claims 1 to 10, further comprising an instant heating device (11), wherein the instant heating device (11) communicates the water tank assembly (3) with the cup body (130).

12. Food processor characterized in that it comprises a juice cup assembly (2), a tank assembly (3) and a main machine of the food processor according to any one of claims 1 to 11, said tank assembly (3) being assembled to said main machine.

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