CN111202445B - Flexibly connected food processor - Google Patents

Abstract

The invention relates to a small kitchen appliance, in particular to a flexibly connected food processor, which comprises a shell and a cup body assembly arranged in the shell, and is characterized in that: an annular installation gap is formed between the shell and the cup body assembly, and flexible connecting pieces which are used for connecting the shell and the cup body assembly respectively are arranged in the installation gap, wherein one end of each connecting piece is fixed on the shell, and the other end of each connecting piece is fixed on the cup body assembly. The cup body component is fixed in the shell through the flexible connecting piece, and in the process of making food, the connecting piece is not always in a compressed state, so that the food processor has larger deformation, can fully absorb vibration energy generated in the vibration process, and greatly reduces noise.

Description

Flexibly connected food processor

Technical Field

The invention relates to small kitchen appliances, in particular to a flexibly connected food processor.

Background

The current soybean milk machine cup in market includes shell and installs the metal inner cup in the shell, and wherein, metal inner cup top can be provided with outside horizontal turn-ups, and horizontal turn-ups are taken in the top of shell. For the soymilk machine, because the horizontal flanging is directly contacted with the shell, vibration generated by the machine head can be transmitted to the shell of the cup body through the coupler in the soymilk making process of the soymilk machine, because the metal inner cup is in rigid contact with the shell, continuous high-frequency vibration impact can be generated between the shell and the metal inner cup while the shell vibrates, and the vibration impact can generate harsh noise, so that normal life and rest of a user are influenced.

Based on this, in order to reduce the shock impact of the metal inner cup with the outer shell, researchers will plug the silicone between the metal inner cup and the outer shell, and clamp the silicone in the gap between the metal inner cup and the outer shell by means of a squeeze mounting. Although this mounting means, the silica gel piece can absorb partial vibrations, reduces pulping noise, but the silica gel piece is in the compressed state by the extrusion all the time, and in metal inner cup and shell vibrations extrusion's in-process, the volume of taking place deformation is limited, therefore absorbs vibration energy also very limited to after long-term use, the silica gel piece is hardened easily, and loses the effect of deformation energy-absorbing easily. In addition, in the installation, the silica gel piece is clamped between the metal inner cup and the shell, so that interference fit is formed between the silica gel piece and the metal inner cup and between the silica gel piece and the shell, and therefore, when the metal inner cup is installed, the problem that the silica gel piece is difficult to install only by overcoming the elasticity of the silica gel piece is solved.

Disclosure of Invention

The invention aims to provide a food processor, which is characterized in that a cup body component is fixed in a shell through a flexible connecting piece, and the connecting piece is in a loose state in the process of making food, so that the food processor has larger deformation quantity, can fully absorb vibration energy generated in the vibration process, and greatly reduces noise.

In order to achieve the above purpose, the invention adopts the following technical scheme: a flexibly connected food processor comprising a housing and a cup assembly mounted in the housing, characterized in that: an annular installation gap is formed between the shell and the cup body assembly, and flexible connecting pieces which are used for connecting the shell and the cup body assembly into a whole are arranged at the installation gap, wherein one end of each connecting piece is fixed on the shell, and the other end of each connecting piece is fixed on the cup body assembly.

Further, the connecting piece is a connecting ring which is arranged around the cup opening of the cup body assembly, the inner ring of the connecting ring is fixed on the cup opening, and the outer ring of the connecting ring is fixed on the shell, so that the connecting ring seals the installation gap between the shell and the cup opening.

Further, the shell comprises an upper shell and a fixed bracket fixed on the upper shell, and the upper shell and the fixed bracket clamp and fix the outer ring of the connecting ring;

or, the outer ring of the connecting ring is provided with a buckling plug, the shell is provided with a shell through hole, and the buckling plug is plugged into the shell through hole and is clamped at the outer side edge of the shell through hole;

or the outer ring of the connecting ring and the shell are integrally formed;

or the inner ring of the connecting ring and the cup rim are integrally formed;

or the cup rim is provided with an outward flanging, a flanging through hole penetrating through the flanging is formed in the flanging, a buckling plug is arranged on the inner ring of the connecting ring, and the buckling plug is plugged into the flanging through hole and is clamped at the outer side edge of the flanging through hole;

or the cup rim is provided with an outward flanging, the flanging is provided with a downward sunken annular groove, and the inner ring of the connecting ring is provided with an annular positioning edge inserted into the annular groove.

Further, the connecting ring is provided with a enclasping part enclasping the outer wall of the cup body assembly, and the enclasping part forms an inner ring of the connecting ring.

Further, the cup opening is provided with an outward flanging, and the enclasping part is provided with a step for supporting the flanging;

or a fixing piece for hooping the enclasping part on the cup body component is arranged on the outer side of the enclasping part.

Further, the cup body component is a crushing cup component, the crushing cup component comprises a cup body, a motor bracket arranged below the cup body and a motor fixed on the motor bracket, and a first damping piece for isolating the motor bracket from the cup body is arranged between the motor bracket and the cup body;

or the cup body component is a metal cup body, a glass cup body or a ceramic cup body;

or the shell comprises a base positioned below the cup body assembly, and a second damping piece for isolating the base from the cup body assembly is arranged between the base and the cup body assembly.

Further, the cup body component is a crushing cup component, the crushing cup component comprises a cup body, a motor support arranged below the cup body and a motor fixed on the motor support, the shell comprises a base positioned below the motor support, and a second damping part for isolating the base from the motor support is arranged between the base and the motor support.

Further, a penetrating mounting hole is formed in the motor support, a screw column penetrating the mounting hole is formed in the base, the second damping piece is a silica gel damping sleeve sleeved on the outer side of the screw column and isolating the motor support from the base, and the screw is fastened to the screw column so that the motor support is fixed to the base;

or, the motor support is provided with a penetrating mounting hole, the base is provided with a limiting column penetrating into the mounting hole, the second damping piece is a compression spring sleeved outside the limiting column and isolating the motor support from the base, and the limiting column is matched with the mounting hole to limit radial swing of the cup body assembly;

or, be provided with the mounting hole that runs through on the motor support, and the below of mounting hole is provided with the spacing support that has the screw post, the screw post penetrates the mounting hole, and the screw fastening is on the screw post to make spacing support be fixed in on the motor support, and the lower part of spacing support is provided with spacing post, be provided with on the frame and supply spacing post male spacing chamber, wherein, the second damping member includes silica gel damping sleeve and compression spring, silica gel damping sleeve suit is in the screw post outside and keeps apart motor support and spacing support, compression spring suit is in the outside of spacing post, and its one end supports tightly in the spacing intracavity of frame, and the other end supports tightly on spacing support, in order to keep apart spacing support and frame.

Further, the connecting piece is a spring, one end of the spring is tensioned on the shell, the other end of the spring is tensioned on the cup opening of the cup body assembly, and the cup body assembly is hoisted in the shell through the spring.

Further, a sealing component for sealing the installation gap is arranged between the cup opening of the cup body assembly and the shell, and the spring pulls the cup body assembly and the shell so that the cup body assembly and the shell clamp the sealing component.

According to the food processing machine, the annular installation gap is formed between the shell and the cup body assembly, and the flexible connecting piece with one end fixed with the shell and the other end fixed with the cup body assembly is arranged at the installation gap, so that the cup body assembly is fixedly connected with the shell through the flexible connecting piece. Meanwhile, compared with the installation mode of clamping and extruding the silica gel piece in the prior art, the connecting piece is in a loose state, and the connecting piece can be stretched and compressed, so that the connecting piece has larger deformation, and according to the principle that the larger the deformation of the flexible material is, the larger the vibration energy is absorbed, the connecting piece has better vibration absorption effect, and the vibration noise generated in the process of manufacturing the material by the food processor can be greatly reduced.

Drawings

The invention is further described below with reference to the accompanying drawings:

fig. 1 is a schematic view of a food processor according to a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a left side view of an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 2A;

FIG. 4 is a schematic view of an exploded view of the cup assembly and the connecting ring;

FIG. 5 is a schematic cross-sectional view of a front view of an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of the structure shown at B in FIG. 5;

FIG. 7 is an enlarged schematic view of FIG. 5C;

FIG. 8 is a schematic diagram of an exploded view of a whole machine according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a second embodiment of the present invention;

FIG. 10 is a schematic diagram of a third embodiment of the present invention;

FIG. 11 is a partially exploded view of a third embodiment of the present invention;

FIG. 12 is a schematic diagram of a fourth embodiment of the present invention;

FIG. 13 is an enlarged schematic view of the structure of FIG. 12 at D;

fig. 14 is a schematic diagram of the whole structure of a fourth embodiment of the present invention.

Detailed Description

Embodiment one:

fig. 1 to 8 are schematic structural views of a first embodiment of the present invention. The utility model provides a food processor, includes casing 1 and installs the cup subassembly 2 in casing 1, have cyclic annular installation clearance (not marked in the drawing) between casing 1 and the cup subassembly 2, and the installation clearance department is provided with the flexible connecting piece 3 that connects casing 1 and cup subassembly 2 as an organic whole respectively, wherein, the one end of connecting piece 3 is fixed in on casing 1, and the other end is fixed in on the cup subassembly 2.

In this embodiment, the connecting piece 3 is a connecting ring of silica gel surrounding the cup opening 21 of the cup assembly, an inner ring of the connecting ring is fixed on the cup opening 21, and an outer ring of the connecting ring is fixed on the housing 1, so that the connecting ring seals an installation gap between the housing 1 and the cup opening 21. The shell 1 comprises a fixing support 11 and an upper shell 12 covered on the outer sides of the cup body assembly 2 and the fixing support 11, the upper shell 12 and the fixing support 11 are fixed through screws (not marked in the figure), and the upper shell 12 and the fixing support 11 clamp the outer ring of a fixed connection ring to realize connection and sealing of the connection ring and the shell 1, in order to prevent the outer ring of the connection ring from falling out from between the upper shell 12 and the fixing support 11, a falling-off-preventing surrounding edge 33 is further arranged on the outer ring of the connection ring, meanwhile, in order to enhance the sealing effect between the connection ring and the shell 1, sealing ribs (not marked in the figure) are further arranged on the outer ring of the connection ring, and the upper shell 12 compresses the sealing ribs on the fixing support 11.

As shown in fig. 4, the cup opening 21 is provided with an outward flange 211, the flange 211 is provided with a downward recessed annular groove 210, and the bottom surface of the annular groove 210 is provided with a through flange through hole 212, wherein the inner ring of the connecting ring is provided with an annular positioning edge 31 inserted into the annular groove 210, and the bottom surface of the annular positioning edge 31 is provided with a buckle plug 32, when the annular positioning edge 31 is inserted into the annular groove 210, the buckle plug 32 is plugged into the flange through hole 212 and is clamped at the outer edge of the flange through hole 212, so as to realize connection and sealing between the connecting ring and the cup opening 21.

For this embodiment, because there is annular installation clearance between casing and the cup subassembly, and be provided with the flexible go-between that one end is fixed with the casing in this installation clearance, the other end is fixed with the cup subassembly, the cup subassembly is connected with the casing through flexible go-between, compare in the fixed mounting means of prior art cup rigidity, the fixed cup subassembly of this embodiment mode of flexible connection is adopted, the cup subassembly can self-adaptation adjustment self position and state to be unlikely to have local hard bump, the uneven problem of extrusion with the casing. Meanwhile, compared with the installation mode of clamping and extruding the silica gel piece in the prior art, the connecting ring of the embodiment is in a loose state, and the connecting piece can be stretched and compressed, so that the connecting ring has larger deformation, and according to the principle that the larger the deformation of the flexible material is, the larger the vibration energy is absorbed, the connecting ring has better vibration absorption effect, and the vibration noise generated in the process of manufacturing the material by the food processor can be greatly reduced. In addition, the connecting ring in the embodiment has the functions of connecting, damping and reducing noise and simultaneously has the function of sealing the installation gap between the cup body component and the shell, so that the problems of mold and odor caused by accumulated slag when slurry enters the installation gap in the pulping process can be prevented.

As shown in fig. 3, the upper casing 12 is further provided with a latch 13, a cover opening button 14 for pushing the latch 13 to move, and a spring 15, the cup opening 21 is covered with a cover body 4, the cover body 4 is provided with a slot 43 into which the latch 13 is clamped, wherein the cover body 4 and the cup opening 21 are sealed by a sealing ring (not shown in the drawing), and the risk of pulp overflow in the pulping process can be prevented.

In the actual use process, the clamping tongue is fixed on the shell, the clamping groove is formed in the cover body, and due to the influence of assembly tolerance and size chain design, normal pressing of the cover body often occurs, and the clamping tongue cannot be clamped into the clamping groove, namely, the situation that the cover cannot be closed occurs. However, in this embodiment, even if the normal cover-closing latch cannot be snapped into the latch, since the cup assembly is flexibly connected to the housing, after the pressure applied to the cover is increased, the cover presses down the cup assembly, so that the cup assembly has a small downward displacement, thereby ensuring that the latch on the cover can be aligned with the latch on the housing, and completing the snap-closing of the cover. Therefore, the scheme of the embodiment is superior to the mounting structure that the cup body and the shell are rigidly fixed and the small displacement of the cup body cannot occur in the prior art.

As shown in fig. 5, 6 and 7, in this embodiment, the cup assembly 2 is a pulverizing cup assembly, and the pulverizing cup assembly includes a cup body 22, a motor support 23 disposed below the cup body 22, and a motor 24 fixed on the motor support 23, and a first shock absorbing member 25 isolating the motor support 23 and the cup body 22 is disposed between the motor support and the cup body 22. Meanwhile, in this embodiment, the housing 1 further includes a stand 16 located below the motor support 23, and the stand 16 is located in the upper housing 12, where a second shock absorbing member 5 that isolates the stand 16 and the motor support 23 is disposed between them.

In this embodiment, the motor support 23 is provided with a through mounting hole 230, the base 16 is provided with a screw post 161 penetrating through the mounting hole 230, the second damping member 5 is a silica gel damping sleeve sleeved outside the screw post 161 and isolating the motor support 23 from the base 16, and the screw a is fastened to the screw post 161, so that the motor support 23 is fixed on the base 16. In this embodiment, the motor support 23 is fixed with the frame 16 by four screws, wherein, every two silica gel damping sleeves are integrally formed on the silica gel matrix, so that the molding and the installation of the silica gel damping sleeves are more convenient, and the opening of each silica gel damping sleeve is provided with a connecting seam, so that when the silica gel damping sleeves are extruded during the screw fixation, the silica gel damping sleeves can deform through the connecting seam, and the extrusion stress of the silica gel damping sleeves is reduced.

In this embodiment, since the upper end of the cup assembly is isolated from the housing by the connection ring and the lower end is isolated by the silicone damping sleeve, the cup assembly is not in hard contact with the rigid housing, and the path of vibration energy generated by the cup assembly to the housing is completely isolated. Meanwhile, as the connecting ring and the silica gel damping sleeve are flexible silica gel pieces, the connecting ring and the silica gel damping sleeve have isolation function and function of absorbing vibration energy through deformation, even if vibration energy generated by the cup body assembly is transmitted to the shell, the vibration energy is greatly weakened. In addition, in this embodiment, since the motor vibration is a source of vibration noise, when the vibration energy generated by the motor is transmitted to the motor support, a first damping member is further disposed between the motor support and the cup body, and the first damping member can also isolate and absorb the vibration energy, so that the vibration energy is weakened when being transmitted to the cup body. Therefore, the embodiment has double vibration and noise reduction effects, and can greatly reduce vibration noise.

It should be noted that, in this embodiment, the outer ring of the connecting ring is clamped and fixed by the upper housing and the fixing bracket, and of course, in this embodiment, the upper housing and the fixing bracket may also be a housing with an integrally formed structure, where the connecting manner of the connecting ring and the housing may have various structures, for example, the outer ring of the connecting ring and the housing are integrally formed by two-shot molding, or are adhered to form an integral body, or are integrally connected by other fixing structures. It is also contemplated that the inner ring of the coupling ring may be coupled to the cup assembly in a variety of configurations, such as in the same manner as described for the housing.

For the embodiment, the motor support is isolated and fixed with the base through the screw, so that the lower end of the cup body assembly is fixed, and the upper end of the cup body assembly can be radially and adaptively adjusted to be connected with the upper shell and the fixing support. Of course, in this embodiment, the motor support and the stand may not be directly fixed, for example, a through mounting hole is provided on the motor support, a limiting post penetrating into the mounting hole is provided on the stand, the second damping member is a compression spring sleeved outside the limiting post and isolating the motor support from the stand, and the limiting post is matched with the mounting hole to limit the radial swing of the cup assembly.

The food processor of the embodiment is of a frame structure with a lower motor, and can be a soymilk machine with an upper motor, and the cup body component can be a metal cup body, a glass cup body, a ceramic cup body, a plastic cup body or the like. In addition, for the soymilk machine with the motor arranged on the upper part, the shell can also comprise a machine seat or a base positioned below the cup body component, a second damping piece for isolating the machine seat or the base from the cup body component can be arranged between the machine seat or the base and the cup body component, and the soymilk machine with the motor arranged on the upper part can also realize the aim of isolating and damping the cup body component of the soymilk machine with the rigid shell.

Of course, the connecting piece of this embodiment also can be the spring, and with the one end of spring taut on the casing, the other end is taut on the rim of a cup of cup subassembly, realizes that cup subassembly is fixed in the casing through the mode of spring hoist and mount. At this time, a sealing member for sealing the installation gap may be provided between the cup opening of the cup assembly and the housing, and the spring pulls the cup assembly and the housing so that the cup assembly and the housing clamp the sealing member. In this case, the spring has only a connecting function, and the sealing function is a sealing member, and the connecting and sealing functions are mutually independent members.

It should be noted that, the arrangement of the connecting piece at the installation gap in the embodiment includes the arrangement of the connecting piece in the installation gap space, and also includes the arrangement of the connecting piece between the cup opening and the upper surface of the housing adjacent to the installation gap.

The above structural changes of the present embodiment may be applied to other embodiments of the present invention.

Embodiment two:

fig. 9 is a schematic structural view of a second embodiment of the present invention. The first difference between this embodiment and the second embodiment is that: in this embodiment, the connection ring has a clasping portion 36 clasping the outer wall of the cup assembly 2, and the clasping portion 36 forms the inner ring of the connection ring. Meanwhile, an outward flanging 211 is arranged at the cup opening, and a step 361 for supporting the flanging 211 is arranged on the enclasping part 36, so that the inner ring of the connecting ring is fixed on the cup body assembly 2. Meanwhile, the outer ring of the connecting ring is provided with an inverted buckle 37, when the upper shell 12 is fixed with the fixed support 11 through the screw b and the upper shell 12 is fixed with the fixed support 11, the outer ring of the connecting ring is clamped, so that the inverted buckle 37 is tightly attached to the fixed support 11, and the outer ring of the connecting ring is fixed on the shell.

In this embodiment, the outer wall of the cup body assembly is tightly hooped through the enclasping part by the connecting ring, and the step holds the flanging, realizes that the inner circle of the connecting ring is firmly connected with the cup body assembly and is not loosened, and is provided with the back-off on the outer lane of the connecting ring, and when the outer lane of the connecting ring is tightly clamped by the upper casing and the fixed bolster, the back-off can prevent the connecting ring from loosening with the casing. The above structural changes of the present embodiment may be applied to other embodiments of the present invention.

Embodiment III:

fig. 10 and 11 are schematic structural views of a third embodiment of the present invention. The second difference between this embodiment and the second embodiment is that: in this embodiment, there is no fixing support, a through hole 100 is provided on the side wall of the housing 1, a buckling plug 38 is provided on the outer ring of the connection ring, the buckling plug 38 is plugged into the through hole 100 and is clamped at the outer edge of the through hole 100, so as to fix the outer ring of the connection ring on the housing 1. At the same time, a clip 6 is provided on the outer side of the clasping portion 36 to clasp the clasping portion 36.

The clamp 6 in this embodiment includes a left clamp 61 and a right clamp 62, and the left clamp 61 and the right clamp 62 are fixed by a screw c to fasten the clasping portion 36 to the outer wall of the cup assembly 2.

The fixing member for tightening the clasping portion in this embodiment is not limited to the clip in this embodiment, and may be a binding buckle or other fastening rope. The above structural variations of the present embodiment can also be applied to other embodiments of the present invention.

Embodiment four:

fig. 12, 13 and 14 are schematic structural views of a fourth embodiment of the present invention. The present embodiment is different from the above embodiment in that the mounting structure of the motor bracket and the housing is different. In this embodiment, the motor support 23 is provided with a through mounting hole 230, a limit support 7 with a screw post 71 is disposed below the mounting hole 230, the screw post 71 penetrates into the mounting hole 230, a screw d is fastened on the screw post 71, so that the limit support 7 is fixed on the motor support 23, the lower portion of the limit support 7 is provided with a limit post 72, the stand 16 is provided with a limit cavity 162 for the limit post 72 to be inserted, the limit cavity 162 is surrounded by a rib 163 on the stand 16, wherein the second damping member comprises a silica gel damping sleeve 51 and a compression spring 52, the silica gel damping sleeve 51 is sleeved outside the screw post 71 and isolates the motor support 23 from the limit support 7, the compression spring 52 is sleeved outside the limit post 72, one end of the compression spring is abutted against the limit cavity 162 of the stand, and the other end of the compression spring is abutted against the limit support 7, so as to isolate the limit support 7 from the stand 16.

In this embodiment, the cup assembly is not in direct rigid contact with the housing, which has the same advantages as those of the above embodiment, and will not be described here again. It should be noted that, the lower part of the motor bracket of the embodiment also needs not to be provided with a limit bracket, and the motor bracket is directly isolated from the stand by the compression spring. The above structural changes of the present embodiment may be applied to other embodiments of the present invention.

It will be appreciated by persons skilled in the art that the present invention includes, but is not limited to, the accompanying drawings and what has been described in the foregoing detailed description. Any modifications which do not depart from the functional and structural principles of the present invention are intended to be included within the scope of the appended claims.

Claims (12)

1. A flexibly connected food processor comprising a housing and a cup assembly mounted in the housing, characterized in that: an annular installation gap is formed between the shell and the cup body assembly, and flexible connecting pieces which are used for connecting the shell and the cup body assembly into a whole are arranged at the installation gap, wherein one end of each connecting piece is fixed on the shell, and the other end of each connecting piece is fixed on the cup body assembly; the connecting piece is a connecting ring which is arranged around the cup opening of the cup body assembly, the inner ring of the connecting ring is fixed on the cup opening, and the outer ring of the connecting ring is fixed on the shell, so that the connecting ring seals the installation gap between the shell and the cup opening.

2. The flexibly-linked food processor of claim 1, wherein: the shell comprises an upper shell and a fixed bracket fixed on the upper shell, and the upper shell and the fixed bracket clamp and fix the outer ring of the connecting ring;

or, the outer ring of the connecting ring is provided with a buckling plug, the shell is provided with a shell through hole, and the buckling plug is plugged into the shell through hole and is clamped at the outer side edge of the shell through hole;

or the outer ring of the connecting ring and the shell are integrally formed;

or the inner ring of the connecting ring and the cup rim are integrally formed;

or, the rim of a cup has outward turn-ups, be provided with the turn-ups through-hole that runs through the turn-ups on the turn-ups, the inner circle of go-between is provided with detains the stopper, detain the stopper and insert the turn-ups through-hole and block in the outside border of turn-ups through-hole.

3. The flexibly-linked food processor of claim 1, wherein: the connecting ring is provided with a clasping part clasping the outer wall of the cup body assembly, and the clasping part forms an inner ring of the connecting ring.

4. A flexibly-linked food processor as recited in claim 3, wherein: the cup rim is provided with an outward flanging, and the clasping part is provided with a step for supporting the flanging;

or a fixing piece for hooping the enclasping part on the cup body component is arranged on the outer side of the enclasping part.

5. The flexibly-linked food processor of claim 1, wherein: the cup body assembly is a crushing cup assembly, the crushing cup assembly comprises a cup body, a motor bracket arranged below the cup body and a motor fixed on the motor bracket, and a first damping piece for isolating the motor bracket from the cup body is arranged between the motor bracket and the cup body;

or the cup body component is a metal cup body, a glass cup body or a ceramic cup body;

or the shell comprises a base positioned below the cup body assembly, and a second damping piece for isolating the base from the cup body assembly is arranged between the base and the cup body assembly.

6. The flexibly-linked food processor of claim 1, wherein: the cup body assembly is a crushing cup assembly, the crushing cup assembly comprises a cup body, a motor support arranged below the cup body and a motor fixed on the motor support, the shell comprises a base positioned below the motor support, and a second damping part for isolating the base from the motor support is arranged between the base and the motor support.

7. The flexibly connected food processor of claim 6 wherein: the motor support is provided with a penetrating mounting hole, the base is provided with a screw column penetrating the mounting hole, the second damping piece is a silica gel damping sleeve sleeved on the outer side of the screw column and isolating the motor support from the base, and the screw is fastened on the screw column so that the motor support is fixed on the base;

or, the motor support is provided with a penetrating mounting hole, the base is provided with a limiting column penetrating into the mounting hole, the second damping piece is a compression spring sleeved outside the limiting column and isolating the motor support from the base, and the limiting column is matched with the mounting hole to limit radial swing of the cup body assembly;

or, be provided with the mounting hole that runs through on the motor support, and the below of mounting hole is provided with the spacing support that has the screw post, the screw post penetrates the mounting hole, and the screw fastening is on the screw post to make spacing support be fixed in on the motor support, and the lower part of spacing support is provided with spacing post, be provided with on the frame and supply spacing post male spacing chamber, wherein, the second damping member includes silica gel damping sleeve and compression spring, silica gel damping sleeve suit is in the screw post outside and keeps apart motor support and spacing support, compression spring suit is in the outside of spacing post, and its one end supports tightly in the spacing intracavity of frame, and the other end supports tightly on spacing support, in order to keep apart spacing support and frame.

8. The flexibly-linked food processor of claim 1, wherein: the cup rim is provided with an outward flanging, the flanging is provided with a downward sunken annular groove, and the inner ring of the connecting ring is provided with an annular positioning edge inserted into the annular groove.

9. A flexibly connected food processor comprising a housing and a cup assembly mounted in the housing, characterized in that: an annular installation gap is formed between the shell and the cup body assembly, and flexible connecting pieces which are used for connecting the shell and the cup body assembly into a whole are arranged at the installation gap, wherein one end of each connecting piece is fixed on the shell, and the other end of each connecting piece is fixed on the cup body assembly; the connecting piece is a spring, one end of the spring is tensioned on the shell, the other end of the spring is tensioned on the cup body assembly, and the cup body assembly is arranged in the shell through the spring; a sealing part for sealing the installation gap is arranged between the cup opening of the cup body assembly and the shell, and the spring pulls the cup body assembly and the shell so that the cup body assembly and the shell clamp the sealing part.

10. The flexibly-linked food processor of claim 9, wherein: the cup body assembly is a crushing cup assembly, the crushing cup assembly comprises a cup body, a motor bracket arranged below the cup body and a motor fixed on the motor bracket, and a first damping piece for isolating the motor bracket from the cup body is arranged between the motor bracket and the cup body;

or the cup body component is a metal cup body, a glass cup body or a ceramic cup body;

or the shell comprises a base positioned below the cup body assembly, and a second damping piece for isolating the base from the cup body assembly is arranged between the base and the cup body assembly.

11. The flexibly-linked food processor of claim 9, wherein: the cup body assembly is a crushing cup assembly, the crushing cup assembly comprises a cup body, a motor support arranged below the cup body and a motor fixed on the motor support, the shell comprises a base positioned below the motor support, and a second damping part for isolating the base from the motor support is arranged between the base and the motor support.

12. The flexibly-linked food processor of claim 11, wherein: the motor support is provided with a penetrating mounting hole, the base is provided with a screw column penetrating the mounting hole, the second damping piece is a silica gel damping sleeve sleeved on the outer side of the screw column and isolating the motor support from the base, and the screw is fastened on the screw column so that the motor support is fixed on the base;

or, the motor support is provided with a penetrating mounting hole, the base is provided with a limiting column penetrating into the mounting hole, the second damping piece is a compression spring sleeved outside the limiting column and isolating the motor support from the base, and the limiting column is matched with the mounting hole to limit radial swing of the cup body assembly;

or, be provided with the mounting hole that runs through on the motor support, and the below of mounting hole is provided with the spacing support that has the screw post, the screw post penetrates the mounting hole, and the screw fastening is on the screw post to make spacing support be fixed in on the motor support, and the lower part of spacing support is provided with spacing post, be provided with on the frame and supply spacing post male spacing chamber, wherein, the second damping member includes silica gel damping sleeve and compression spring, silica gel damping sleeve suit is in the screw post outside and keeps apart motor support and spacing support, compression spring suit is in the outside of spacing post, and its one end supports tightly in the spacing intracavity of frame, and the other end supports tightly on spacing support, in order to keep apart spacing support and frame.

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