CN213757956U - Host and food processor - Google Patents

Abstract

The application provides a host and cooking machine. A host comprises a shell, a first motor, a second motor and a fixing frame. The fixing frame is limited on the shell. The first motor includes a first shaft portion. The second motor includes a second shaft portion. The fixing frame is provided with a first through hole, a second through hole, a plurality of first limiting holes and a plurality of second limiting holes. The first through hole is used for the first shaft part to pass through. The second through hole is used for the second shaft part to pass through. The host computer still includes first mounting and second mounting. The first fixing piece is assembled in the first limiting hole and the first motor. The second fixing piece is assembled in the second limiting hole and the second motor. Above-mentioned technical scheme's host computer passes through the mount and fixes first motor and second motor together, and the mount is assembled in the casing, can avoid the noise that the collision between a plurality of parts caused, can reduce the noise of cooking machine during operation.

Description

Host and food processor

Technical Field

The application relates to a small household electrical appliance field especially relates to host computer and 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. Relevant cooking machine includes two motors, drives stirring knife tackle spare and grinding component respectively, and the noise is great.

SUMMERY OF THE UTILITY MODEL

The application provides a host computer and cooking machine of noise reduction.

The application provides a host computer, including the casing, be located first motor and the second motor in the space that the casing encloses and set up in the mount of first motor and second motor, the mount is spacing in the casing, first motor includes first axial region, the second motor includes second axial region, the mount is equipped with first through-hole, second through-hole, a plurality of first spacing hole and a plurality of second spacing hole, first through-hole is used for supplying first axial region passes, the second through-hole is used for supplying second axial region passes, the host computer still includes first mounting and second mounting, first mounting assemble in first spacing hole and first motor, the second mounting assemble in second spacing hole and the second motor.

In some embodiments, the host computer of above-mentioned technical scheme passes through the mount and fixes first motor and second motor together, and the mount is assembled in the casing, can avoid the noise that the collision between a plurality of parts caused, can reduce the noise of cooking machine during operation.

Furthermore, the fixing frame is further provided with a plurality of through holes, the host machine further comprises a shock pad assembled in the through holes, the shock pad is provided with holes, the shell comprises a first positioning part, and the first positioning part is assembled in the holes of the shock pad.

In some embodiments, the shock pad of above-mentioned technical scheme can prevent the noise that the collision brought between mount and other parts to reduce the noise of cooking machine during operation.

The host further comprises a fixing device located in a space enclosed by the shell, the fixing device comprises a side wall and a second positioning portion extending from the side wall, the side wall encloses an accommodating space, the first motor and the second motor are located in the accommodating space, the second positioning portion is provided with a second assembling hole, the host further comprises a third fixing piece, and the third fixing piece is assembled in the second assembling hole of the fixing device and the first assembling hole of the first positioning portion.

In some embodiments, the first motor and the second motor of the above technical solution are located in a space surrounded by the holding device, so as to reduce noise generated when the food processor operates.

Further, the shock pad is located between the housing and the second positioning portion.

In some embodiments, the shock pad of the above technical scheme is located between the housing and the holding device, so as to avoid noise caused by collision between the housing and the holding device, thereby reducing noise generated during operation of the food processor.

Further, the fixing frame comprises a base portion, a first protruding portion and a second protruding portion, the first protruding portion and the second protruding portion extend from the base portion, the first through hole and the first limiting hole are formed in the first protruding portion, and the second through hole and the second limiting hole are formed in the second protruding portion.

In some embodiments, the fixing frame of the above technical solution includes a base, and a first protrusion and a second protrusion extending from the base, wherein the first through hole and the first limit hole are disposed in the first protrusion, the second through hole and the second limit hole are disposed in the second protrusion, and the first protrusion and the second protrusion can enhance the strength of the fixing frame, thereby increasing the stability of the fixing frame with the first motor and the second motor, and reducing noise.

Furthermore, the first bulge and the second bulge are circular, a plurality of first limiting holes are uniformly distributed along the circumferential direction of the first bulge, a plurality of second limiting holes are uniformly distributed along the circumferential direction of the second bulge, the first limiting holes are arranged around the first through hole, and the second limiting holes are arranged around the second through hole.

In some embodiments, the plurality of first limiting holes are uniformly distributed along the circumferential direction of the first protruding portion, and the plurality of second limiting holes are uniformly distributed along the circumferential direction of the second protruding portion, so that the stability of the fixing frame with the first motor and the second motor can be increased, and the noise can be reduced.

This application embodiment still provides a cooking machine, including cup body assembly and foretell host computer, cup body assembly includes the cup, assembles in the cup of cup, assembles in the second pivot and the first pivot of cup, assembles in the stirring knife tackle spare of second pivot and assembles in the grinding piece of first pivot, the axis of second pivot is parallel with the axis of first pivot, the second motor is used for the drive stirring knife tackle spare rotates, first motor is used for the drive grinding piece rotates.

In some embodiments, the axis of the second rotating shaft is parallel to the axis of the first rotating shaft in the above technical scheme, so that the stirring blade assembly can be effectively prevented from shielding the feeding port of the grinding assembly, and the stirring blade assembly is prevented from influencing food materials to enter the grinding assembly; meanwhile, the food materials can be pushed to the feeding port of the grinding assembly by the stirring of the stirring knife assembly, so that the food materials can enter the grinding assembly, and the grinding of the food materials is facilitated; furthermore, the stirring knife assembly and the grinding assembly operate independently without influencing each other, and the rotating speed of the stirring knife assembly and the grinding assembly can be adjusted, so that the noise is reduced, and the grinding effect is improved.

Further, the cup body assembly comprises a handle arranged on the cup body, and the grinding piece is positioned between the handle and the stirring knife assembly.

In some embodiments, the grinding member of the above technical scheme is positioned between the handle and the stirring knife assembly, so that the cup body assembly is more compact, and the utilization rate of the space of the cup body is improved.

Further, the stirring knife assembly is located at the center of a space surrounded by the cup body, and the grinding piece is located between the stirring knife assembly and the side wall of the cup body.

In some embodiments, the stirring blade assembly of the above technical scheme is located at the center of a space surrounded by the cup body, the grinding member is located between the stirring blade assembly and the side wall of the cup body, and the stirring blade assembly is beneficial to food materials entering the feeding port of the grinding member when in operation.

The embodiment of the application still provides a cooking machine, including cup and foretell host computer, the cup assemble in the host computer, first motor includes first axial region, the second motor includes second axial region, the cooking machine still including assemble in the grinding member of first axial region and assemble in the stirring sword subassembly of second axial region, the axis of first axial region is parallel with the axis of second axial region.

In some embodiments, the first motor of the above technical solution includes a first shaft portion, the second motor includes a second shaft portion, the food processor further includes a grinding member assembled to the first shaft portion and a stirring blade assembly assembled to the second shaft portion, the second lower clutch, the first lower clutch, the second upper clutch and the first upper clutch are omitted, the structure is simple, the cost is saved, and the transmission efficiency is improved; simultaneously, avoided the second down the clutch and the second on the clutch and the first noise that produces down between the clutch and the first clutch, reduced the noise of cooking machine.

Drawings

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

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

Fig. 3 is an enlarged view of the circled portion of the cross-section shown in fig. 2.

Fig. 4 is a schematic view of a fixing frame of the mainframe shown in fig. 2.

Fig. 5 is a cross-sectional view of the main unit shown in fig. 2 after the first motor, the second motor and the fixing frame are assembled.

Fig. 6 is an exploded view of the cup assembly of the food processor shown in fig. 1.

Fig. 7 is an exploded view of the grinding member of the cup assembly shown in fig. 6.

Fig. 8 is a cross-sectional view of the assembled cup body assembly and cup lid assembly of the food processor shown in fig. 1.

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, the food processor according to the embodiment of the present application may be a soymilk maker or a juice extractor. The cooking machine includes that host computer 1, detachably assemble in cup body assembly 2 of host computer 1 and detachably assemble in cup cover assembly 3 of cup body assembly 2.

Referring to fig. 2 to 3, the main body 1 includes a housing 10, a first motor 11, a second motor 12 and a holding device 16 located in a space enclosed by the housing 10, a fixing frame 13 disposed on the first motor 11 and the second motor 12, a first lower clutch 15 assembled on the first motor 11, and a second lower clutch 14 assembled on the second motor 12. The first motor 11 is provided with a first shaft portion 110. The first shaft portion 110 may be directly or indirectly connected to the first motor 11. The second motor 12 is provided with a second shaft portion 120. The second shaft portion 120 may be directly or indirectly connected to the second electric machine 12. The first motor 11 and the second motor 12 are located in a space surrounded by the holding device 16 to reduce noise generated when the food processor works.

The housing 10 includes a top wall 101, and a first side wall 102 and a first positioning portion 103 extending from the top wall 101. The top wall 101 is provided with a first through hole 1010 and a second through hole 1012. The first shaft 110 of the first motor 11 is fixed to the first lower clutch 15 after passing through the first through hole 1010. The second shaft portion 120 of the second motor 12 passes through the second through hole 1012 and is fixed to the second lower clutch 14. The first positioning portion 103 is provided with a first assembling hole 1030.

The fixing device 16 includes a side wall 160 and a second positioning portion 161 extending from the side wall 160. The side walls 160 enclose an accommodating space 1601. The first motor 11 and the second motor 12 are located in the housing space 1601. The second positioning portion 161 is provided with a second assembling hole 1610 and a third assembling hole 1611.

Referring to fig. 4 and 5, the fixing frame 13 includes a base 130, a plurality of ribs 131 extending from the base 130, a first protrusion 132 and a second protrusion 134 extending from the base 130, and a plurality of fixing portions 133 extending from the base 130. The rib 131 connects the first protruding portion 132 and the fixing portion 133 and connects the second protruding portion 134 and the fixing portion 133, so as to enhance the strength of the fixing frame 13. The first protrusion 132 and the second protrusion 134 are circular. The fixing portions 133 are located at four corners of the fixing frame 13. The fixing portion 133 is provided with a through hole 1330. The host 1 further includes a shock pad 19 assembled to the through hole 1330. The shock pad 19 is provided with a hole 190.

The first protrusion 132 has a first through hole 1320 and a plurality of first limiting holes 1321. The second protrusion 134 has a second through hole 1340 and a plurality of second limiting holes 1341. The first through hole 1320 is used for the first shaft portion 110 of the first motor 11 to pass through, and the second through hole 1340 is used for the second shaft portion 120 of the second motor 12 to pass through.

The main body 1 further includes a first fixing member 17 and a second fixing member 18. The first fixing member 17 is assembled to the first limiting hole 1321 and the first motor 11, so as to limit the first motor 11 to the fixing frame 13. The second fixing member 18 is assembled to the second position-limiting hole 1341 and the second motor 12, so as to limit the second motor 12 to the fixing frame 13. The first fixing member 17 and the second fixing member 18 may be screws or bolts. The plurality of first limiting holes 1321 are uniformly distributed along the circumferential direction of the first through hole 1320, and the plurality of second limiting holes 1341 are uniformly distributed along the circumferential direction of the second through hole 1340, so as to increase the stability of fixing the fixing frame 13 with the first motor 11 and the second motor 12, which is beneficial to reducing noise.

Referring to fig. 3, when the fixing frame 13 is assembled to the housing 10, the first positioning portion 103 of the housing 10 is assembled to the hole 190 of the shock absorbing pad 19, and an end portion of the first positioning portion 103 is received in the third assembling hole 1611 of the holding device 16. The host 1 further includes a third fixing member (not shown) assembled to the second assembling hole 1610 of the holding device 16 and the first assembling hole 1030 of the first positioning portion 103 to fix the holding device 16, the fixing frame 13, and the housing 10 together. The third fixing member may be a screw or a bolt. The shock pad 19 is located the shell 10 with between the fixing device 16, avoid the shell 10 with the noise that the collision brought between the fixing device 16 to reduce the noise of cooking machine during operation.

The host 1 of this application embodiment passes through mount 13 and fixes first motor 11 and second motor 12 together, and mount 13 is assembled in casing 10 again, can avoid the noise that the collision between a plurality of parts caused, can reduce the noise of cooking machine during operation.

Referring to fig. 6 to 8, the cup assembly 2 includes a cup 20, a handle 28 connected to the cup 20, a cup holder 21 assembled to the cup 20, a second rotating shaft 22 and a first rotating shaft 23 assembled to the cup holder 21, a stirring blade assembly 24 and a second upper clutch 25 assembled to the second rotating shaft 22, and a first upper clutch 26 and a grinding member 27 assembled to the first rotating shaft 23. The distance between the center of the second rotating shaft 22 and the center of the first rotating shaft 23 is greater than or equal to 5mm and less than or equal to 100mm, so that the space of the cup body 20 is more compact, and the crushing effect of the stirring knife assembly 24 is improved. The second upper clutch 25 is engaged with the second lower clutch 14, so that the second motor 12 can drive the stirring blade assembly 24 to rotate, so as to crush the food material. The first upper clutch 26 is engaged with the first lower clutch 15, so that the first motor 11 can drive the grinding member 27 to rotate, so as to grind the food material.

The ratio of the power of the second motor 12 to the power of the first motor 11 is greater than or equal to 1.5 and less than or equal to 3, so that the food materials can be ground more finely and the noise of the food processor can be effectively reduced. For example, the power of the second motor 12 is 200W, and the power of the first motor 11 is 100W. The axis of the second rotating shaft 22 is parallel to, i.e. not coincident with, the axis of the first rotating shaft 23, and the stirring blade assembly 24 and the grinding member 27 do not overlap or partially overlap in projection on a horizontal plane.

The stirring blade assembly 24 is located at the center of the space enclosed by the cup body 20, and the grinding piece 27 is located between the stirring blade assembly 24 and the side wall of the cup body 20. The grinding piece 27 is positioned between the stirring knife assembly 24 and the handle 28, so that the cup body assembly 2 is more compact, and the space utilization rate of the cup body 20 is improved. The centerlines of the grinding member 27, the stirring blade assembly 24 and the handle 28 are collinear, so that the cup body assembly 2 is more compact, and the utilization rate of the space of the cup body 20 is improved.

The grinding member 27 includes movable grinding stones 270 and static grinding stones 271 assembled together. The movable grinding head 270 is assembled into a space surrounded by the static grinding head 271. The first rotating shaft 23 is fixedly assembled with the movable grinding head 270, so that the first rotating shaft 23 can drive the movable grinding head 270 to rotate. The movable grinding head 270 includes a first tooth portion 2701 and a second tooth portion 2702. The second tooth portion 2702 is located above the first tooth portion 2701. The tooth pitch of the first tooth portion 2701 is larger than that of the second tooth portion 2702, and the first tooth portion 2701 can primarily grind food materials and then more finely grind the food materials by the second tooth portion 2702. The height of the movable grinding head 270 is more than or equal to 35mm and less than or equal to 45 mm.

The stationary grinding head 271 includes third teeth 2710 and fourth teeth 2711. Third tooth 2710 is located below fourth tooth 2711. The third tooth portion 2710 cooperates with the first tooth portion 2701, and the fourth tooth portion 2711 cooperates with the second tooth portion 2702 to grind food material. The stationary grinding head 271 includes a feeding port 2712, a discharging port 2713, and a grinding region 2714 located between the feeding port 2712 and the discharging port 2713. The minimum distance between the edge of the stirring knife assembly 24 and the feeding opening 2712 is more than or equal to 3 and less than or equal to 8mm, so that food materials can enter the feeding opening 2712 conveniently. The discharge port 2713 is located higher than the feed port 2712. The region where the third tooth portion 2710 and the first tooth portion 2701 are matched and the region where the fourth tooth portion 2711 and the second tooth portion 2702 are matched constitute the grinding region, so that food materials can be ground. The discharge port 2713 is positioned at the top end of the static grinding head 271. The width of the feeding opening 2712 is greater than or equal to 25mm and smaller than or equal to 42mm, food materials are stirred by the stirring blade assembly 24 to a certain size and then can enter the feeding opening 2712, and the grinding efficiency of the grinding piece 27 is effectively improved. The width of the discharge port 2713 is greater than or equal to 0.5mm and less than or equal to 1mm, food materials are ground to a certain size and then can be discharged from the discharge port 2713, and the grinding fineness of the grinding piece 27 is improved.

The height of the stirring knife assembly 24 is lower than that of the discharge port 2713, when the grinding piece 27 operates, the operation of the stirring knife assembly 24 can better assist the food material to be sucked into the feeding port 2712, and the stirring knife assembly 24 can crush the food material at the bottom of the cup body 20, so that the crushing effect is improved. After the food materials in the cup body 20 are crushed into smaller particles by the stirring knife assembly 24, the smaller particles enter the grinding area 2714 through the feeding port 2712 for grinding, and the ground food materials enter the space surrounded by the cup body 20 again through the discharging port 2713. The grinding member 27 may grind the food material a plurality of times to improve the fineness of grinding.

The axis of the second rotating shaft 22 is parallel to the axis of the first rotating shaft 23, and the projection of the stirring blade assembly 24 and the grinding member 27 on the horizontal plane is not overlapped or partially overlapped, so that compared with the situation that the stirring blade assembly 24 is located below the grinding member 27, the stirring blade assembly 24 can be effectively prevented from shielding the feeding port 2712 of the grinding member 27, and the stirring blade assembly 24 is prevented from influencing food materials to enter the grinding member 27; meanwhile, the food materials can be pushed to the feeding port 2712 of the grinding piece 27 by the stirring of the stirring knife assembly 24, so that the food materials can enter the grinding piece 27 and can be ground; moreover, the stirring knife assembly 24 and the grinding piece 27 operate independently without mutual influence, and the rotating speeds of the stirring knife assembly 24 and the grinding piece 27 can be adjusted, so that the noise is reduced, and the grinding effect is improved; first motor 11 drive grinding member 27 rotates, second motor 12 drive stirring knife tackle spare 24 rotates, can control stirring knife tackle spare 24 and grinding member 27's start-up and stop respectively, is favorable to noise reduction and improves the effect of grinding.

The cup holder 21 is provided with a gourd-shaped storage portion 214. The receiving portion 214 includes a first receiving space 2140 and a second receiving space 2141 which are communicated with each other. The second receiving space 2141 is smaller than the first receiving space 2140, the ratio of the area of the first receiving space 2140 to the area of the second receiving space 2141 is greater than or equal to 1.5 and smaller than or equal to 3.5, and the food material has a proper crushing region and a proper grinding region, so that the grinding effect of the food material is improved. The stirring blade assembly 24 is concentrically or eccentrically disposed with the center of the first receiving space 2140, and the grinding member 27 is located in the second receiving space 2141. The ratio of the diameter of the grinding piece 27 to the diameter of the second storage space 2141 is greater than or equal to 1 and less than or equal to 2, so that large-particle food materials are prevented from entering the second storage space 2141, the situation that the food materials cannot be crushed is avoided, and the grinding effect of the food materials is improved.

The width W of the inlet of the second receiving space 2141 is not less than 25mm and not more than 60mm, so that the situation that large-particle food materials cannot be crushed due to entering the second receiving space 2141 and the phenomenon that the large-particle food materials block the grinding piece 27 and are clamped due to grinding failure are prevented; the large-particle food material is only located in the first receiving space 2140, and after being crushed by the stirring blade assembly 24, the large-particle food material can enter the second receiving space 2141 to enter the feeding port 2712 of the grinding member 27 for grinding.

In other embodiments, the first motor 11 includes a first shaft 110, and the second motor 12 includes a second shaft 120. The axis of the first shaft portion 110 is parallel to the axis of the second shaft portion 120. The grinding member 27 is assembled to the first shaft portion 110, and the stirring blade assembly 24 is assembled to the second shaft portion 120. The second lower clutch 14, the first lower clutch 15, the second upper clutch 25 and the first upper clutch 26 are omitted, so that the structure is simple, the cost is saved, and the transmission efficiency is improved; meanwhile, the noise generated between the second lower clutch 14 and the second upper clutch 25 and between the first lower clutch 15 and the first upper clutch 26 is avoided, and the noise of the food processor is reduced.

The food processor of the embodiment of the application comprises the stirring knife assembly 24 and the grinding piece 27, wherein the grinding piece 27 is positioned on one side of the stirring knife assembly 24, so that the stirring knife assembly 24 is prevented from blocking food materials from entering the feeding port 2712 of the grinding piece 27, the grinding fineness of the food materials is improved, meanwhile, the rotation of the stirring knife assembly 24 can promote the food materials to enter the feeding port 2712 of the grinding piece 27, and the grinding fineness of the food materials is improved; the stirring knife assembly 24 and the grinding piece 27 operate independently, the stirring knife assembly 24 can crush food materials at a lower rotating speed, so that the noise of the food processor during working is reduced, and meanwhile, the food processor crushes large-particle food materials by using the stirring knife assembly 24 and then grinds the large-particle food materials by using the grinding piece 27, so that the food processor can grind the large-particle food materials; the cooking machine includes first motor 11 and second motor 12, and second motor 12 is used for driving stirring knife tackle spare 24 and rotates, and first motor 11 is used for driving grinding piece 27 and rotates, and the crushing work of stirring knife tackle spare 24 and the grinding work of grinding piece 27 separately go on, can adjust stirring knife tackle spare 24 and grinding piece 27's rotational speed respectively to reduce the noise of cooking machine during operation, simultaneously, can control stirring knife tackle spare 24 and grinding piece 27's start-up and stop respectively, in order to improve the effect of grinding.

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. A host machine is characterized by comprising a shell (10), a first motor (11) and a second motor (12) which are positioned in a space enclosed by the shell (10), and a fixing frame (13) arranged on the first motor (11) and the second motor (12), wherein the fixing frame (13) is limited on the shell (10), the first motor (11) comprises a first shaft part (110), the second motor (12) comprises a second shaft part (120), the fixing frame (13) is provided with a first through hole (1320), a second through hole (1340), a plurality of first limiting holes (1321) and a plurality of second limiting holes (1341), the first through hole (1320) is used for the first shaft part (110) to pass through, the second through hole (1340) is used for the second shaft part (120) to pass through, and the host machine further comprises a first fixing piece (17) and a second fixing piece (18), the first fixing piece (17) is assembled in the first limiting hole (1321) and the first motor (11), and the second fixing piece (18) is assembled in the second limiting hole (1341) and the second motor (12).

2. The host machine according to claim 1, wherein the fixing frame (13) further has a plurality of through holes (1330), the host machine further comprises a shock pad (19) assembled in the through holes (1330), the shock pad (19) has a hole (190), the housing (10) comprises a first positioning portion (103), and the first positioning portion (103) is assembled in the hole (190) of the shock pad (19).

3. The host machine according to claim 2, further comprising a holding device (16) located in a space enclosed by the housing (10), wherein the holding device (16) includes a side wall (160) and a second positioning portion (161) extending from the side wall (160), the side wall (160) encloses a receiving space (1601), the first motor (11) and the second motor (12) are located in the receiving space (1601), the second positioning portion (161) is provided with a second assembling hole (1610), and the host machine further includes a third fixing member assembled in the second assembling hole (1610) of the holding device (16) and the first assembling hole (1030) of the first positioning portion (103).

4. The machine according to claim 3, characterized in that the shock-absorbing pad (19) is located between the housing (10) and the second positioning portion (161).

5. The host machine according to any one of claims 1 to 4, wherein the fixing frame (13) comprises a base (130) and a first protrusion (132) and a second protrusion (134) extending from the base (130), the first through hole (1320) and the first limiting hole (1321) are disposed on the first protrusion (132), and the second through hole (1340) and the second limiting hole (1341) are disposed on the second protrusion (134).

6. The host machine according to claim 5, wherein the first protrusion (132) and the second protrusion (134) are circular, a plurality of first limiting holes (1321) are uniformly distributed along a circumferential direction of the first protrusion (132), a plurality of second limiting holes (1341) are uniformly distributed along a circumferential direction of the second protrusion (134), a plurality of first limiting holes (1321) are disposed around the first through hole (1320), and a plurality of second limiting holes (1341) are disposed around the second through hole (1340).

7. The food processer is characterized by comprising a cup body assembly (2) and the host machine as claimed in any one of claims 1 to 6, wherein the cup body assembly (2) comprises a cup body (20), a cup seat (21) assembled on the cup body (20), a second rotating shaft (22) assembled on the cup seat (21) and a first rotating shaft (23), a stirring knife assembly (24) assembled on the second rotating shaft (22) and a grinding piece (27) assembled on the first rotating shaft (23), the axis of the second rotating shaft (22) is parallel to the axis of the first rotating shaft (23), the second motor (12) is used for driving the stirring knife assembly (24) to rotate, and the first motor (11) is used for driving the grinding piece (27) to rotate.

8. The food processor of claim 7, wherein the cup assembly (2) comprises a handle (28) disposed on the cup (20), the grinding member (27) being located between the handle (28) and the blender knife assembly (24).

9. The food processor of claim 7, wherein the stirring blade assembly (24) is located at the center of a space surrounded by the cup body (20), and the grinding member (27) is located between the stirring blade assembly (24) and the side wall of the cup body (20).

10. A food processor, comprising a cup body (20) and the host machine of any one of claims 1 to 6, wherein the cup body (20) is assembled to the host machine, the first motor (11) comprises a first shaft portion (110), the second motor (12) comprises a second shaft portion (120), the food processor further comprises a grinding member (27) assembled to the first shaft portion (110) and a stirring knife assembly (24) assembled to the second shaft portion (120), and an axis of the first shaft portion (110) is parallel to an axis of the second shaft portion (120).

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