CN217137684U - Food processor convenient to assemble - Google Patents

Abstract

The utility model discloses a convenient food preparation machine of equipment belongs to food preparation machine technical field, including host computer, crushing cup and motor, crushing cup includes cup, crushing sword and bowl cover, and crushing sword is located in the cup and by motor drive, crushing cup includes cup shell, glass stand and radiation shield, and the glass stand is connected in the cup shell of packing into from the top down behind the bottom of cup, and the radiation shield is packed into in the cup shell and is connected in the glass stand from the top down, and the top side location is realized with the cup shell cooperation to the cup, and the bottom side location is realized with the cup shell cooperation to the radiation shield. The cup body and the cup shell are matched to realize top side positioning, the heat insulation sleeve and the cup shell are matched to realize bottom side positioning, and the cup body, the cup holder and the heat insulation sleeve are stably arranged in the cup shell by vertical bidirectional positioning. The installation structure between the cup body and the cup shell is simple, and the reasonable improvement of the assembly efficiency of the grinding cup is facilitated.

Description

Food processor convenient to assemble

Technical Field

The utility model relates to a food preparation machine technical field especially relates to a convenient food preparation machine of equipment.

Background

The existing food processor generally comprises a main machine and a crushing cup, wherein a motor is arranged in the main machine, a crushing cutter driven by the motor is arranged in the crushing cup, and when the machine body works, the motor drives the crushing cutter to rotate at a high speed to cut and crush materials in the crushing cup, so that the purpose of processing food is achieved. The cup body of the crushing cup in some food processing machines adopts a double-layer cup body structure with the metal inner cup matched with the shell, the cup body is also provided with a component for fixing the metal inner cup in the shell, and the matching structure between the metal inner cup and the shell in the existing food processing machine is complex, so that the assembly efficiency is inconvenient to improve.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the prior art, the utility model provides a food processor convenient to assemble, which effectively improves the assembly efficiency of the crushing cup.

In order to realize the technical purpose, the utility model provides a pair of convenient food preparation machine of equipment, including host computer, crushing cup and motor, crushing cup includes cup, crushing sword and bowl cover, and crushing sword is located in the cup and by motor drive, crushing cup includes shell, glass stand and radiation shield, and the glass stand is connected in the shell of packing into from the top down behind the bottom of cup, and the radiation shield is packed into in the shell of cup and is connected in the glass stand from the top down, and the top side location is realized with the shell of cup cooperation to the cup, and the bottom side location is realized with the shell of cup cooperation to the radiation shield.

Preferably, a positioning structure is arranged between the cup holder and the cup body, and the cup holder is connected to the bottom of the cup body through a fastener.

Preferably, the positioning structure comprises a positioning cavity arranged on the bottom wall of the cup body and a positioning ring arranged on the cup holder, and the positioning ring is inserted in the positioning cavity.

Preferably, the glass stand passes through the screw connection in the cup, and the glass stand is equipped with the connection platform that can fluctuate, connects the platform to be equipped with screw complex connecting hole, and the screw is worn through the connecting hole and is connected in the cup.

Preferably, the glass stand is provided with a notch for accommodating the connecting table, the connecting table is arranged at the notch, one end of the connecting table is connected with the glass stand, and the other end of the connecting table is suspended.

Preferably, the top end of the cup body is provided with a turned edge, the turned edge abuts against the top side of the cup shell to achieve top side positioning, a convex block is arranged on the inner wall of the cup shell, and the heat insulation sleeve is located at the bottom of the convex block and abuts against the convex block to achieve bottom side positioning.

Preferably, the bump is provided with a damping block which is abutted against the heat insulation sleeve; and/or, the heat insulating sleeve is connected to the cup holder through a screw, the cup holder is provided with a hollow convex column protruding downwards, a step hole with a thick upper part and a thin lower part is formed in the heat insulating sleeve, and the convex column is inserted into the upper part of the step hole and used for enabling the screw for connecting the heat insulating sleeve and the cup holder to penetrate through the lower part of the step hole and be screwed in the convex column.

Preferably, the center department of radiation shield is equipped with the bulge cover that upwards protrusion formed the cavity, and the lower extreme of smashing the sword stretches into in the cavity and the cover is equipped with down the transmission and connects, and the glass stand is equipped with and is located the bulge cover periphery and the convex bank of lines muscle downwards.

Preferably, the bottom of the cup holder is provided with a plurality of winding displacement buckles which are positioned outside the winding displacement ribs and arranged in pairs.

Preferably, the heat insulation sleeve is higher than the bottom surface of the cup shell, and a plurality of heat dissipation holes located on the periphery of the convex sleeve and lugs located above the heat dissipation holes are formed in the heat insulation sleeve.

After the technical scheme is adopted, the utility model has the advantages of as follows:

1. the utility model provides a food preparation machine smashes the cup and has added shell of a cup, glass stand and radiation shield, and the glass stand is connected in the shell of a cup of packing into from the top down behind the cup bottom, and the radiation shield is packed into in the shell of a cup and is connected in the glass stand from the top down, and the top side location is realized with the shell of a cup cooperation to the cup, and the bottom side location is realized with the shell of a cup cooperation to the radiation shield, makes cup, glass stand and radiation shield receive vertical two-way location and stable the installing in the shell of a cup. The installation structure between the cup body and the cup shell is simple, and the reasonable improvement of the assembly efficiency of the grinding cup is facilitated.

2. Be equipped with location structure between glass stand and the cup, location structure preferred adoption position circle and location chamber complex structure, the position circle is inserted and is located and make glass stand and cup receive radial positioning and axial positioning each other when the equipment in the location chamber, is favorable to improving the packaging efficiency between glass stand and the cup. In addition, after the assembly is completed, the cup body is positioned radially and axially through the matching of the positioning ring and the positioning cavity, and the structural stability of the cup body in working is improved.

3. The glass stand passes through the fastener and connects in the bottom of cup, and the screw connection is preferably passed through in the cup to the glass stand, and the screw is worn through the connecting hole and is connected in the cup, rationally sets up the fastening structure between glass stand and the cup, guarantees the structural strength after the equipment when improving packaging efficiency. The connecting platform provided with the connecting hole can float up and down on the cup holder, so that the adverse effect of the fit tolerance between the cup body and the cup holder on the assembly is eliminated, the screw can effectively connect the cup holder and the cup body, and the structural strength between the cup holder and the cup body is favorably improved.

4. The groove on the cup holder is located to the connection platform, and the one end of connecting the platform is connected with the cup holder, the unsettled setting of the other end, makes the connection platform float from top to bottom for the cup holder through cantilever structure, better satisfying the equipment requirement between cup holder and the cup when guaranteeing connection platform structural strength.

5. The cup is contradicted through turn-ups and cup shell top side and is realized the top side location, and the heat insulating sleeve offsets through the lug with on the cup shell inner wall and realizes the bottom side location, rationally sets up top side location fit structure and bottom side location fit structure, and top side location and bottom side location need not to adopt other components, are favorable to improving packaging efficiency.

6. Lug department sets up the snubber block, and the radiation shield is contradicted with the snubber block, helps alleviateing the vibrations transmission intensity between cup and the shell of a cup through the snubber block, is favorable to rationally reducing the noise at work of organism. The heat insulation sleeve is connected to the cup holder through the screw, and the convex column on the cup holder is inserted into the upper portion of the step hole to play a role in positioning during assembling, so that the assembling efficiency is improved.

7. The cavity formed by the convex sleeve on the heat insulation sleeve provides the installation space required by the lower transmission joint, and the structure of the grinding cup is more compact. The glass stand sets up the winding displacement muscle that is located convex cover periphery and downwardly extending, utilizes the winding displacement muscle can comb the electric wire that connects in smashing the cup, is favorable to solving the problem of smashing the inside winding displacement difficulty of cup.

8. The bottom of glass stand sets up the winding displacement clip, and the winding displacement clip can clip the electric wire that connects in smashing the cup, is favorable to further reasonable distribution to smash the electric wire that connects in the cup, avoids connecting the electric wire and takes place winding condition.

9. The heat insulation sleeve is provided with the heat dissipation holes, so that the heat dissipation in the grinding cup is facilitated, and the situation that the plastic part is thermally deformed due to the fact that the grinding cup is in a high-temperature state for a long time is avoided. The heat insulation sleeve is higher than the bottom surface of the cup shell, so that liquid on the table top can be prevented from entering the crushing cup through the heat dissipation holes. The top of louvre sets up the lug, and the lug can play the effect of blockking, prevents effectively that outside object from inserting through the louvre and smashing inside the cup.

Drawings

FIG. 1 is a diagram of a food processor according to an embodiment;

FIG. 2 is an internal structural view of a food processor according to an embodiment;

FIG. 3 is a block diagram of a cup of a food processor according to an embodiment;

FIG. 4 is a block diagram of a cup, a comminuting knife, and a bearing assembly of an embodiment of a food processor;

FIG. 5 is an exploded view of the grinding blade, cup bottom, bearing assembly and upper drive coupling of a food processor according to one embodiment;

FIG. 6 is a partial schematic view of the interior of a grinding cup of a food processor according to one embodiment.

FIG. 7 is a schematic view of a cup holder of the food processor according to the embodiment;

FIG. 8 is a block diagram of a cup shell in a food processor according to an embodiment.

In the figure, 100-a main machine, 110-a machine shell, 120-a panel, 130-a base, 200-a crushing cup, 210-a cup body, 211-a cup wall, 212-a cup bottom, 213-a turbulence rib, 213 a-a first arc section, 213 b-a second arc section, 213 c-a third arc section, 214-a mounting cavity, 215-a convex shell, 216-a positioning cavity, 217-a lug, 218-a flanging, 220-a crushing knife, 221-a knife shaft, 222-a knife blade, 230-a cup cover, 240-a cup shell, 241-a lug, 242-a shock absorption block, 250-a cup holder, a positioning ring, 252-a dodge port, 253-a connecting platform, 254-a connecting hole, 255-a notch, 256-a convex column, 257-a wire arranging rib and 258-a wire arranging clamp, 260-heat insulation sleeve, 261-stepped hole, 262-cavity, 263-convex sleeve, 264-heat dissipation hole, 265-convex piece, 270-bearing assembly, 271-bearing sleeve, 272-sealing ring, 273-bearing, 280-heating pipe, 300-motor, 410-upper transmission joint, 420-lower transmission joint, 430-lower coupling joint and 500-control board.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments. It is to be understood that the following terms "upper," "lower," "left," "right," "longitudinal," "lateral," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like are used in an orientation or positional relationship relative to one another only as illustrated in the accompanying drawings and are used merely for convenience in describing and simplifying the invention, and do not indicate or imply that the device/component so referred to must have a particular orientation or be constructed and operated in a particular orientation and therefore should not be considered as limiting the invention.

Example one

As shown in fig. 1 to 8, a food processor of the present invention includes a main body 100, a crushing cup 200 and a motor 300, the crushing cup 200 includes a cup body 210, a crushing blade 220 and a cup cover 230, the crushing blade 220 is disposed in the cup body 210 and driven by the motor 300. The pulverizing cup 200 includes a cup shell 240, a cup holder 250 and a heat insulating sleeve 260, the cup holder 250 is connected to the bottom of the cup body 210 and then is loaded into the cup shell 240 from top to bottom, the heat insulating sleeve 260 is loaded into the cup shell 240 from bottom to top and connected to the cup holder 250, the top end of the cup body 210 is matched with the cup shell 240 to realize top side positioning, and the heat insulating sleeve 260 is matched with the cup shell 240 to realize bottom side positioning.

The cup body and the cup shell are matched to realize top side positioning, the heat insulation sleeve and the cup shell are matched to realize bottom side positioning, and the cup body, the cup holder and the heat insulation sleeve are stably arranged in the cup shell by vertical bidirectional positioning. The installation structure between the cup body and the cup shell is simple, and the reasonable improvement of the assembly efficiency of the grinding cup is facilitated.

A positioning structure is arranged between the cup holder 250 and the cup body 210, and the cup holder 250 is connected to the bottom of the cup body 210 through a fastener. Specifically, the positioning structure includes a positioning cavity 216 formed on the bottom wall of the cup body 210 and a positioning ring 251 formed on the cup holder 250. Referring to fig. 4 and 5, the cup body 210 includes a cup wall 211 and a cup bottom 212 integrally formed, and the cup bottom 212 is provided with a boss 217 protruding to form a positioning cavity 216. The positioning ring 251 is inserted into the positioning cavity 216, so that the cup holder 250 and the cup body 210 are radially and axially positioned with each other during assembly, which is beneficial to improving the assembly efficiency between the cup holder 250 and the cup body 210. The cup body 210 can be positioned radially and axially through the matching of the positioning ring 251 and the positioning cavity 216, which is beneficial to improving the structural stability of the cup body 210 during working.

The cup holder 250 is connected to the cup body 210 through a screw, referring to fig. 7, the cup holder 250 is provided with a connecting platform 253 capable of floating up and down, the connecting platform 253 is provided with a connecting hole 254 matched with the screw, the bottom of the cup body 210 is fixed with a connecting support (not shown) corresponding to the connecting platform 253, the connecting support is provided with a threaded hole matched with the screw, and the screw for connecting the cup holder 250 and the cup body 210 is screwed into the threaded hole on the connecting support after passing through the connecting hole 254 on the connecting platform 253. Cup holder 250 is equipped with the notch 255 that is used for holding to connect the platform 253, connects the platform 253 to locate at notch 255, connects the one end of platform 253 to be connected with cup holder 250, the unsettled setting of the other end, make through cantilever structure and connect the platform 253 can be for cup holder 250 fluctuation, the better equipment requirement between satisfying cup holder 250 and the cup 210 when guaranteeing to connect platform 253 structural strength, it sets up with cup holder 250 integrated into one piece to connect that platform 253 is preferred.

In this embodiment, the top end of the cup 210 is provided with a flange 218, and the flange 218 abuts against the top side of the cup shell 240 to realize top side positioning. Referring to fig. 8, a plurality of protrusions 241 are circumferentially spaced on the inner wall of the lower end of the cup shell 240, and the heat insulation sleeve 260 is located at the bottom of the protrusions 241 and abuts against the protrusions 241 to realize bottom-side positioning. The bump 241 is embedded with a shock absorption block 242, the heat insulation sleeve 260 is abutted against the shock absorption block 242, and the shock absorption block 242 enables the heat insulation sleeve 260 and the cup shell 240 to be in soft contact, so that the shock transmission strength between the cup body 210 and the cup shell 240 is reduced.

The heat insulating sleeve 260 is connected to the cup holder 250 by a screw, and referring to fig. 6, the cup holder 250 is provided with a hollow convex column 256 protruding downward, a stepped hole 261 with a large upper part and a small lower part is formed in the heat insulating sleeve 260, the convex column 256 is inserted into the upper part of the stepped hole 261, and a screw for connecting the heat insulating sleeve 260 and the cup holder 250 penetrates through the lower part of the stepped hole 261 and is screwed into the convex column 256. The convex column 256 on the cup holder 250 is inserted into the upper part of the stepped hole 261, so that the positioning effect can be achieved during assembly, and the assembly efficiency can be improved.

The heat insulation cover 260 has a protruding cover 263 protruding upwards to form a cavity 262 at the center, an electric coupling structure is provided between the main unit 100 and the pulverizing cup 200, the electric coupling structure includes a lower coupling connector 430 disposed at the top of the main unit 100 and an upper coupling connector (not shown) disposed at the bottom of the pulverizing cup 200, the heat insulation cover 260 and the cup holder 250 are provided with through holes for installing the upper coupling connector, and the electronic components on the pulverizing cup 200 are electrically connected to the upper coupling connector through electric wires. In order to facilitate the wire arrangement, the cup holder 250 is provided with a wire arrangement rib 257 protruding downward and located at the periphery of the protruding sleeve 263, and the wire arrangement rib 257 is located at the periphery of the avoiding opening 252. The electric wires in the crushing cup 200 can be combed by utilizing the wire arranging ribs 257, and the problem that the wires are difficult to arrange inside the crushing cup 200 is solved.

The bottom of glass stand 250 still is equipped with a plurality of winding displacement presss from both sides 258 that are located the outside and set up in pairs of winding muscle 257 of arranging, and winding displacement presss from both sides 258 can press from both sides the electric wire that connects in smashing cup 200, is favorable to further reasonable distribution to smash the electric wire that connects in the cup 200, avoids the electric wire to take place the winding condition.

The heating pipe 280 is arranged outside the cup body 210, and the heating pipe 280 is electrified to generate heat and transfer the heat to the cup body 210, so that the cup body 210 can heat the material. Since the heating pipe 280 is energized to generate heat, the temperature inside the pulverizing cup 200 rises, and if the heat cannot be dissipated in time, the plastic component of the pulverizing cup 200 is easily heated and deformed after long-term use. In order to timely dissipate the heat inside the pulverizing cup 200, the heat insulating sleeve 260 is disposed higher than the bottom surface of the cup shell 240, and the heat insulating sleeve 260 is provided with a plurality of heat dissipating holes 264 located on the periphery of the convex sleeve 263 and a protruding piece 265 located above the heat dissipating holes 264. The heat dissipation holes 264 help the interior of the grinding cup 200 to dissipate heat, thereby avoiding the thermal deformation of the plastic member caused by the high temperature state inside the grinding cup 200 for a long time. The heat insulation sleeve 260 is higher than the bottom surface of the cup shell 240, so that the liquid on the table surface can be prevented from entering the interior of the grinding cup 200 through the heat radiation holes 264. The protruding pieces 265 may play a blocking role, effectively preventing external objects from being inserted into the pulverizing cup 200 through the heat dissipation holes 264.

With reference to fig. 3, a plurality of turbulence ribs 213 are uniformly circumferentially spaced on the inner wall of the cup body 210, the width of the turbulence ribs 213 increases from bottom to top, and the width ratio of the bottom end to the top end of the turbulence ribs 213 is 0.7-0.9. The position that the material that makes to be located not co-altitude when flowing through the change of vortex muscle width and vortex muscle contact is different on the flow direction, and the material on upper portion contacts earlier with the vortex muscle, and the material of lower part contacts behind material and the vortex muscle, and the upper portion material can carry out certain vortex to the material of lower part after being disturbed the flow with the contact of vortex muscle, is favorable to the reasonable vortex effect that improves the material. In the embodiment, the width of the bottom end of the turbulence rib 213 is W1, the width of the top end of the turbulence rib 213 is W2, W1/W2 is more than or equal to 0.7 and less than or equal to 0.9, and the width W1 of the bottom end of the turbulence rib 213 is 14 mm-40 mm. In this embodiment, the width W1 of the bottom end of the spoiler 213 is preferably set to 24mm, W1/W2 is preferably set to 0.85, and correspondingly, the width of the top end of the spoiler 213 is preferably set to about 28 mm. The bottom end and the top end of the spoiler rib 213 are both arc-shaped, the distance between the two arc-shaped ends of the bottom end of the spoiler rib 213 is preferably selected as W1, and the distance between the two arc-shaped ends of the top end of the spoiler rib 213 is preferably selected as W2.

Combine figure 4, vortex muscle 213 is preferably set to the arc towards one side at cup 210 center, and the vertical cross-section that vortex muscle 213 was towards cup 210 center one side is the arc promptly, and the material in the cup 210 can receive the arc of vortex muscle 213 and push down the effect and make the mobile noise of material obtain the decay when upwards flowing under the drive of smashing sword 220, is favorable to rationally reducing the operating noise of organism. The distance between the bottom end of the turbulence rib 213 and the center of the cup body 210 is L1, the distance between the top end of the turbulence rib 213 and the center of the cup body 210 is L2, and L1/L2 is more than or equal to 0.85 and less than or equal to 0.95. In this embodiment, L1/L2 is preferably set to 0.93. The vertical cross section of the turbulence rib 213 facing the center of the cup 210 is provided with three arcs, including a first arc 213a, a second arc 213b and a third arc 213c, which are distributed from bottom to top, the top end of the first arc 213a is smoothly connected with the bottom end of the second arc 213b, and the bottom end of the third arc 213c is smoothly connected with the top end of the second arc 213 b. A distance L1 between the bottom end of the spoiler rib 213 and the center of the cup 210 means a distance from the intersection point between the first arc-shaped section 213a and the second arc-shaped section 213b to the center of the cup 210, and a distance between the top end of the spoiler rib 213 and the center of the cup 210 means a distance from the intersection point between the third arc-shaped section 213c and the second arc-shaped section 213b to the center of the cup 210.

Because the material also can be along the inner wall upflow of cup 210 when smashing sword 220 and rotating, in order to improve the vortex effect of vortex to the material, the preferred setting that is higher than smashing sword 220 of vortex muscle 213. In this embodiment, the crushing cutter 220 includes a cutter shaft 221 and a blade 222 fixed to the top end of the cutter shaft 221, and the bottom end of the spoiler rib 213 is higher than the highest point of the blade 222.

In this embodiment, the cup 210 is preferably a metal cup, the spoiler 213 is formed by stamping the metal cup 210, and the inner diameter of the cup 210 increases from bottom to top.

The spoiler rib 213 is arranged on the cup wall 211, a convex shell 215 with a mounting cavity 214 is formed by protruding part of the top wall of the boss 217, the cutter shaft 221 is arranged at the convex shell 215 through a bearing assembly 270, and the bearing assembly 270 is positioned in the mounting cavity 214. In this embodiment, the bearing assembly 270 includes a bearing sleeve 271, a sealing ring 272, a bearing 273 and a gasket, the sealing ring 272, the bearing 273 and the gasket are sleeved outside the cutter shaft 221 and axially positioned in the bearing sleeve 271, and the bearing 273 is of a double-bearing structure distributed side by side up and down. The top end of the cutter shaft 221 extends into the cup body 210, the bottom end of the cutter shaft 221 extends downwards out of the bearing assembly 270 and extends into the cavity 262, the lower end of the cutter shaft 221 is sleeved with an upper transmission joint 410, the upper transmission joint 410 is located in the cavity 262, and the top end of a rotating shaft in the motor 300 is sleeved with a lower transmission joint 420 detachably matched with the upper transmission joint 410. When the pulverizing cup 200 is placed on the main body 100, the upper transmission joint 410 is in transmission fit with the lower transmission joint 420, and the rotating shaft of the motor 300 drives the pulverizing blade 220 to rotate through the lower transmission joint 420 and the upper transmission joint 410.

The inner periphery of the locating ring 251 is closed to form an avoiding opening 252 which is communicated up and down, the lower end of the bearing assembly 270 is positioned in the avoiding opening 252, namely, the lower end of the bearing assembly 270 is exposed out of the mounting cavity 214 of the cup bottom 212, the height of the mounting cavity 214 can be reasonably reduced, and the improvement of the radial stability of the crushing cutter 220 in working is facilitated. In addition, the height difference between the cup holder 250 and the cup body 210 can be reasonably reduced, the matching height between the positioning ring 251 and the positioning cavity 216 is ensured, and the structural stability of the cup body 210 is improved.

In this embodiment, the main body 100 includes a housing 110, a panel 120 fixed on the top side of the housing, and a base 130 fixed on the bottom side of the housing, the motor 300 is disposed in the main body 100, the main body 100 further includes a control board 500, and the electronic components of the food processor are controlled by the control board 500.

When the crushing cup 200 is assembled, the cup body 210 and the cup holder 250 are fixed together, then the cup body 210 and the cup holder 250 are loaded into the cup shell 240 from top to bottom, the turned-over edge 218 at the top end of the cup body 210 is coated outside the top side of the cup shell 240, meanwhile, the turned-over edge 218 is abutted against the top side of the cup shell 240 to realize top side positioning, then the heat insulation sleeve 260 is loaded into the cup shell 240 from bottom to top, the heat insulation sleeve 260 and the cup holder 250 are connected through screws, the heat insulation sleeve 260 is tightly abutted against the shock absorption blocks 242 at the positions of the convex blocks 241, bottom side positioning is realized, and therefore vertical bidirectional positioning is realized.

Organism during operation, the material of smashing cup 200 flows under the effect of smashing sword 220, and vortex muscle 213 can carry out effectual vortex to the material that flows following, is favorable to improving the cutting of smashing sword 220 to the material, smashes the effect.

It is understood that W1/W2 may be set to other reasonable ratios such as 0.7, 0.73, 0.76, 0.79, 0.82, 0.85, 0.88, 0.9, etc.

It is understood that L1/L2 can be set to other reasonable ratios such as 0.85, 0.87, 0.89, 0.9, 0.92, 0.94, 0.95, etc.

It is understood that the width W1 of the bottom end of the spoiler rib 213 may be set to other reasonable width values such as 14mm, 16mm, 18mm, 20mm, 22mm, 25mm, 28mm, 30mm, 32mm, 35mm, 37mm, 40mm, etc.

It can be understood that the vertical cross section of the spoiler rib 213 facing the center of the cup 210 is not limited to the three arc segments described above and shown in the drawings, and may be configured as two, four, or other reasonable structures.

It can be understood that the cup 211 can be a stainless steel cup, an aluminum alloy cup, or other suitable metal cup.

It can be understood that the positioning structure between the cup holder 250 and the cup body 210 may also adopt a structure in which the positioning column is matched with the positioning hole, or may adopt other reasonable positioning structures to realize positioning during assembly.

It will be appreciated that other suitable fasteners can be used to secure the cup holder 250 to the cup 210.

It is understood that the motor 300 may also be disposed within the bottom of the grinding cup 200.

In addition to the above preferred embodiments, the present invention has other embodiments, and those skilled in the art can make various changes and modifications according to the present invention without departing from the spirit of the present invention, which shall fall within the scope of the present invention defined in the appended claims.

Claims (10)

1. The utility model provides a convenient food preparation machine of equipment, includes host computer, crushing cup and motor, smashes the cup and includes cup, crushing sword and bowl cover, smashes the sword and locates in the cup and by motor drive, a serial communication port, smash the cup and include casing, glass stand and radiation shield, during the casing of packing into from the top down after the bottom of cup is connected to the glass stand, the radiation shield was packed into in the casing of packing into from the bottom up and is connected in glass stand, and the top side location is realized with the casing cooperation to the cup, and the bottom side location is realized with the casing cooperation to the radiation shield.

2. The food processor of claim 1, wherein a retaining structure is provided between the cup holder and the cup body, the cup holder being attached to the bottom of the cup body by a fastener.

3. The food processor of claim 2, wherein the positioning structure includes a positioning cavity formed in the bottom wall of the cup body and a positioning ring formed on the cup holder, the positioning ring being inserted into the positioning cavity.

4. The food processor of claim 2, wherein the cup holder is attached to the cup body by a screw, the cup holder having a vertically floatable attachment platform, the attachment platform having an attachment aperture for engaging the screw, the screw extending through the attachment aperture and being attached to the cup body.

5. The food processor of claim 4, wherein the cup holder has a slot for receiving a connection station, the connection station being disposed at the slot, the connection station having one end connected to the cup holder and another end suspended therefrom.

6. The food processor as defined in claim 1, wherein the cup body has a flange at a top end thereof, the flange abutting against the top side of the housing for topside positioning, the housing has a protrusion on an inner wall thereof, and the heat insulating sleeve is located at a bottom of the protrusion and abuts against the protrusion for bottom side positioning.

7. The food processor as defined in claim 6, wherein the protrusion has a shock absorbing block abutting against the heat insulating sleeve; and/or, the heat insulating sleeve is connected to the cup holder through a screw, the cup holder is provided with a hollow convex column protruding downwards, a step hole with a thick upper part and a thin lower part is formed in the heat insulating sleeve, and the convex column is inserted into the upper part of the step hole and used for enabling the screw for connecting the heat insulating sleeve and the cup holder to penetrate through the lower part of the step hole and be screwed in the convex column.

8. The food processor as defined in claim 1, wherein the heat insulating sleeve has a central portion provided with a projecting sleeve projecting upward to form a cavity, the lower end of the crushing blade extends into the cavity and is fitted with a lower driving joint, and the cup holder is provided with a wire arranging rib projecting downward and located on an outer periphery of the projecting sleeve.

9. The food processor of claim 8, wherein the cup holder has a plurality of aligned clips on a bottom of the cup holder that are positioned outside the aligned ribs and are arranged in pairs.

10. The food processor of claim 8, wherein the heat shield is disposed higher than the bottom surface of the cup shell, and the heat shield has a plurality of heat dissipation holes disposed around the periphery of the boss and a plurality of fins disposed over the heat dissipation holes.

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