CN115553646A - Food processor - Google Patents

Abstract

The invention discloses a food processor which is stable in work, energy-saving, capable of reducing work noise and improving use experience of a user. The technical scheme adopted by the invention is as follows: a food processor comprises a host machine, a cup body, an upper cover and a knife assembly, wherein the cup body is provided with a cavity and a cup opening for containing food, the knife assembly comprises a connecting shaft, a connecting sleeve and a knife group, the connecting shaft and the connecting sleeve are suitable for being connected with the host machine, the knife group can stretch into the cavity from the cup opening, the connecting sleeve and the knife group are respectively arranged on the connecting shaft, the connecting shaft can be opposite to the knife group together, the connecting sleeve rotates, the upper cover covers the cup opening, and the connecting sleeve and the upper cover are connected through a detachable structure so as to prevent the connecting sleeve and the upper cover from rotating or continuously rotating; the upper cover is provided with a through hole, after the connecting sleeve is connected with the upper cover, one part of the connecting shaft and/or one part of the main machine penetrate through the through hole and then are connected, and a preset gap is reserved between the bottom of the cutter assembly and the bottom of the cavity.

Description

Food processor

Technical Field

The invention relates to the technical field of household appliances, in particular to a food processor for food processing.

Background

Traditional food processor includes juice extractor, food mixer and meat chopper, and it all includes host computer, cup and knife tackle spare, and the host computer is used for driving knife tackle spare rotates, and the bottom of cup is equipped with the location axle. One end of the cutter component is detachably connected with the host machine, and the other end of the cutter component is abutted to the positioning shaft. According to the food processor with the structure, when the knife assembly rotates rapidly, friction force can be generated between the knife assembly and the positioning shaft, so that the working power of the main machine is increased, and energy conservation is not facilitated; on the other hand, when knife tackle spare is not connected when not suitable with the location axle or food processor is after working a period, the junction of knife tackle spare and location axle can produce vibrations and noise, reduces user's use and experiences and feel.

Since the prior art has the technical problems described above, it is necessary to provide a solution thereto, and the present invention has been made in view of such a background.

Disclosure of Invention

According to the defects in the prior art, the technical problem to be solved by the invention is to provide the food processor which is stable in work, energy-saving, capable of reducing working noise and improving the use experience of a user.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a food processor comprises a host machine, a cup body and a knife assembly, wherein the cup body is provided with a cavity and a cup opening for containing food, the knife assembly comprises a connecting shaft, a connecting sleeve and a knife group, the connecting shaft and the connecting sleeve are suitable for being connected with the host machine, the knife group can stretch into the cavity from the cup opening, the connecting sleeve and the knife group are respectively arranged on the connecting shaft, the connecting shaft can be opposite to the knife group together, the connecting sleeve rotates, the food processor also comprises an upper cover, the upper cover can cover the cup opening, the connecting sleeve and the upper cover are connected through a detachable structure so as to prevent the rotation or continuous rotation between the connecting sleeve and the upper cover, and the host machine is arranged above the upper cover; the upper cover is provided with a through hole, after the connecting sleeve is connected with the upper cover, one part of the connecting shaft and/or one part of the main machine penetrate through the through hole and then are connected, at the moment, the connecting sleeve is limited in axial movement, and a preset gap is reserved between the bottom of the cutter assembly and the bottom of the cavity.

Furthermore, in the technical scheme, the upper cover is provided with a stepped hole, the small hole end of the stepped hole is provided with a bottom plate, the through hole is formed in the bottom plate, a lug extends from the side face of the connecting sleeve, the bottom plate is provided with a notch communicated with the through hole, the lug penetrates through the notch and then rotates for an angle to be erected on the bottom plate, and at the moment, the connecting sleeve and the upper cover cannot rotate relatively.

Furthermore, in this technical solution, the through hole can at least allow a part of the connecting sleeve to pass through, a groove suitable for accommodating the lug is provided at one end of the bottom plate facing the stepped hole, the lug rotates by an angle after passing through the notch and is placed in the groove, the host is connected with the connecting shaft and then abuts against the connecting shaft, and at this time, the connecting sleeve and the upper cover are kept fixed.

Furthermore, in the technical scheme, a guide wing is arranged on the end face of the bottom plate facing the cavity, the inner side face of the guide wing is matched with the outer surface of the connecting sleeve in shape and size, and after the connecting sleeve is connected with the upper cover, the inner side face of the guide wing is attached to the outer surface of the connecting sleeve.

Furthermore, in the technical scheme, the number of the lugs, the number of the notches and the number of the grooves are at least two, the lugs, the notches and the grooves are respectively arranged on the circumference in an equal division mode, and the guide wings are arranged along the edge of the through hole in a mode of avoiding the notches.

Furthermore, in the technical scheme, the joint length of the guide wings and the side surface of the connecting sleeve is 20-40% of the depth of the cavity; and a bearing is arranged between the connecting sleeve and the connecting shaft, or the connecting sleeve and the connecting shaft adopt a connection scheme of an oil-retaining bearing.

Furthermore, in the technical scheme, a blocking arm extends along the side surface of the groove on the bottom plate, and the blocking arm is used for deepening the depth of the groove.

Furthermore, in the technical scheme, the large hole of the stepped hole is suitable for accommodating a part of the host, the host is provided with a detection switch, the upper cover is provided with a trigger structure, and the trigger structure can protrude out of the large hole to trigger the detection switch.

Furthermore, in the technical scheme, the trigger structure is an elastic abutting part, and the detection switch is a mechanical switch; the trigger structure has a part protruding the outer wall of the upper cover under defaulting, the upper cover is in the process of covering the cup opening, and the trigger structure is abutted to the cup opening to enable the other part of the trigger structure to move towards the large hole so as to trigger the detection switch.

Furthermore, in the technical scheme, a protrusion is arranged on the transitional connecting surface of the large hole and the small hole, and a positioning hole matched with the protrusion is arranged on the host machine.

The technical scheme provided by the invention has the following beneficial effects: because the adapter sleeve is connected in order to inject through detachable construction with the upper cover the adapter sleeve is not relative the upper cover rotates or continuously rotates, the host computer is located the top of upper cover, the adapter sleeve is connected with the upper cover just after the connecting axle is connected with the host computer, the adapter sleeve is injectd in the ascending removal of axial, the bottom of knife tackle has the clearance of predetermineeing with the bottom of cavity, so knife tackle's bottom does not contact with the bottom of cavity, reduces the friction between knife tackle and the cavity, and such noise that sets up energy-conservation and can reduce food processor during operation and produce has improved user experience.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a front view of a food processor according to an embodiment of the present invention;

FIG. 2 is a sectional view of the food processor in the embodiment of the present invention;

FIG. 3 is an exploded assembly view of the food processor in cross-section;

FIG. 4 is an exploded view of the food processor of the present invention in a perspective view;

FIG. 5 is a perspective view of the upper cover in the embodiment of the present invention;

FIG. 6 is a perspective view of the upper cap and knife assembly in the attached state in an embodiment of the present invention;

fig. 7 is a perspective view showing the main components of the upper cover and the knife assembly in an exploded state according to the embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the embodiments and the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be construed broadly, e.g., as meaning a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. Spatially relative relational terms may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures for ease of description.

As shown in fig. 1, 2 and 3, a food processor 100 according to a preferred embodiment of the present invention includes a main body 110, a cup body 120, an upper cover 130 and a knife assembly 140. The cup body 120 has a cavity 121 for holding food and a cup opening 122, the knife assembly 140 includes a connecting shaft 141 adapted to connect with the main body 110, a connecting sleeve 142 and a knife set 143, and the knife set 143 can extend into the cavity 121 from the cup opening 122. The connecting sleeve 142 and the knife set 143 are respectively arranged on the connecting shaft 141, and the connecting shaft 141 and the knife set 143 can rotate relative to the connecting sleeve 142. The upper cover 130 can cover the cup opening 122, the connecting sleeve 142 is connected with the upper cover 130 through a detachable structure, and the host 110 is arranged above the upper cover 130. The upper lid 130 includes a lower portion that covers the rim 122 and an upper portion that exposes the cup body 120, the upper and lower portions being separated by a protruding ring 137. The upper cover 130 is provided with a through hole 131, and the connecting sleeve 142 is connected with the upper cover 130, and then a part of the connecting shaft 141 passes through the through hole 131 and is connected with the main frame 110. After the main body 110 is connected to the connecting shaft 141, the movement of the knife assembly 140 in the axial direction (the axis of the connecting shaft 141) is limited, and a predetermined gap is formed between the bottom of the knife assembly 140 and the bottom of the cavity 121. The main body 110 has a motor therein for rotating with the connecting shaft 141. In other embodiments, a portion of the main body 110 may be connected to the connecting shaft 141 after passing through the through hole 131, and the movement of the connected knife assembly 140 in the axial direction (referring to the axis of the connecting shaft 141) may be limited.

As shown in fig. 3, 4 and 5, the upper cover 130 is provided with a stepped hole 132, a small hole end 1321 of the stepped hole 132 is provided with a bottom plate 1322, and the through hole 131 is opened on the bottom plate 1322. The side of the connecting sleeve 142 is integrally formed with a lug 1421, the bottom plate 1322 is provided with a notch 1311 communicating with the through hole 131, and the lug 1421 passes through the notch 1311 and then is rotatably mounted on the bottom plate 1322.

As shown in fig. 2, 5 and 6, the through hole 131 is sized to allow a portion of the connection sleeve 142 to pass through, and the end of the bottom plate 1322 facing the stepped hole 132 is provided with a recess 13221 adapted to receive the lug 1421, and the lug 1421 is angularly disposed in the recess 13221 after passing through the notch 1311 and the through hole 131. In the present embodiment, the main body 110 abuts the connecting shaft 141 after connecting the connecting shaft 141, so that the ledge 1421 is limited in the groove 13221, and the connecting shaft 141 is not axially movable. The connecting sleeve 142 is configured in a circular structure, and after the ledge 1421 is located in the groove 13221, a predetermined gap exists between the bottom of the knife assembly 140 and the bottom of the cavity 121. In this embodiment, the disassembly feature includes a mating feature of the lug 1421 and the recess 13221. The connection sleeve 142 is fixed on the upper cover 130 by the rotation limitation of the lug 1421 and the groove 13221 and the axial limitation of the main machine 110 abutting against the connection shaft 141. In other embodiments, the detaching structure may also be a screw coupling scheme or a rotational snap coupling scheme between the coupling sleeve 142 and the upper cover 130.

As shown in fig. 2 and 7, a guiding wing 13222 is disposed on an end surface of the bottom plate 1322 facing the cavity 121, a shape and a size of an inner side surface of the guiding wing 13222 are matched with a shape and a size of an outer surface of the connecting sleeve 142, and after the connecting sleeve 142 is connected with the upper cover 130, the inner side surface of the guiding wing 13222 is attached to the outer surface of the connecting sleeve 142.

In this embodiment, the two lugs 1421, the two notches 1311, and the two slots 13221 are symmetrically disposed, the guiding fins 13222 are disposed along the edge of the through hole 131 while avoiding the notches 1311, and the bearing 144 is disposed between the connecting sleeve 142 and the connecting shaft 141 (or the connecting sleeve 142 and the connecting shaft 141 adopt a copper-based oil-retaining bearing connection scheme). To prevent the blade set 143 from swinging when the connecting shaft 141 rotates, the length of the guide fin 13222 may be extended. The fitting length of the guiding wings 13222 to the side surfaces of the connecting sleeve 142 is preferably 20% to 40% of the depth of the cavity 121, and the length of the side surfaces of the connecting sleeve 142 is preferably greater than the extending length of the guiding wings 13222.

As shown in FIGS. 3 and 5, the base 1322 is flanked by a stop 13223 facing the host 110, the stop 13223 being configured to deepen the recess 13221 so that the recess 13221 is adapted to receive the ledge 1421 therein. The catch arm 13223 is configured to further prevent the lug 1421 from rotating with the connecting shaft 141 out of the recess 13221.

As shown in fig. 2, 3 and 4, the large hole 1323 of the stepped hole 132 is adapted to receive a portion of the host 110, the host 110 is provided with the detection switch 111, and the upper cover 130 is provided with the trigger structure 135. The trigger structure 135 can protrude out of the large aperture 1323 to trigger the detection switch 111, and the cooperation of the trigger structure 135 and the detection switch 111 is used to determine whether the host 110 is placed in the large aperture 1323. When the main body 110 is disposed in the large hole 1323, it will engage with the connecting teeth on the connecting shaft 141 to drive the connecting shaft 141 to rotate.

As shown in fig. 2 and 3, a part of the trigger structure 135 protrudes from a side surface of the large hole 1323, the trigger structure 135 is an elastic abutting member, and the detection switch 111 is a mechanical switch. The trigger structure 135 comprises a spring 1351 and an abutment 1352, under the action of the spring 1351 the trigger structure 135 by default protrudes beyond the outer wall of the (lower part of the) upper cover 130 by the abutment 1352. During the process of closing the upper lid 130 on the cup opening 122, the abutting piece 1352 moves into the large hole 1323 under the abutting interference of the inner wall of the cavity 121 to trigger the detection switch 111.

As shown in fig. 5, a protrusion 136 is disposed on the transition connection surface of the large hole 1323 and the small hole 1321, and a positioning hole (not shown) matching with the protrusion 136 is disposed on the host 110. The matching of the protrusion 136 and the positioning hole is used for limiting the connection mode between the host 110 and the large hole 1323, so that after the host 110 is arranged in the large hole 1323, the arrangement position of the detection switch 111 corresponds to that of the trigger structure 135.

Because the connecting sleeve 142 and the upper cover 130 are connected through the detachable structure in the above embodiment to prevent the connecting sleeve 142 and the upper cover 130 from rotating or continuously rotating, after the connecting sleeve 142 is connected with the upper cover 130 and the connecting shaft 141 is connected with the host 110, the movement of the knife assembly 140 in the axial direction is limited, and a preset gap is reserved between the bottom of the knife assembly 140 and the bottom of the cavity 121, the bottom of the knife assembly 140 is not in contact with the bottom of the cavity 121, so that the friction between the knife assembly 143 and the cavity 121 is reduced, the arrangement is energy-saving, the noise generated during the operation of the food processor can be reduced, and the user experience is improved.

While the principles and embodiments of this invention have been described above using specific examples, it is to be understood that the above embodiments are merely provided to assist in understanding the invention and are not to be construed as limiting the invention. Any minor modifications or equivalent alterations to the structural form or configuration of the present invention according to the idea of the present invention shall be included in the protection scope thereof for a person skilled in the art.

Claims (10)

1. The utility model provides a food processor, includes host computer, cup and knife tackle, the cup has cavity and the rim of a cup that is used for adorning food, knife tackle is including being suitable for the connection connecting axle, adapter sleeve of host computer and can following the rim of a cup stretches into the knife tackle of cavity, adapter sleeve and knife tackle are located respectively on the connecting axle, the connecting axle can with the knife tackle is relative together the adapter sleeve rotates its characterized in that: the cup mouth can be covered by the upper cover, the connecting sleeve and the upper cover are connected through a detachable structure so as to prevent the connecting sleeve and the upper cover from rotating or continuously rotating, and the host is arranged above the upper cover; the upper cover is provided with a through hole, after the connecting sleeve is connected with the upper cover, one part of the connecting shaft and/or one part of the main machine penetrate through the through hole and then are connected, at the moment, the connecting sleeve is limited in axial movement, and a preset gap is reserved between the bottom of the cutter assembly and the bottom of the cavity.

2. The food processor of claim 1, wherein: the upper cover is provided with a stepped hole, the small hole end of the stepped hole is provided with a bottom plate, the through hole is formed in the bottom plate, a lug extends from the side face of the connecting sleeve, the bottom plate is provided with a notch communicated with the through hole, the lug penetrates through the notch and then rotates by an angle to be erected on the bottom plate, and at the moment, the connecting sleeve and the upper cover cannot rotate relatively.

3. The food processor of claim 2, wherein: the through hole can be at least used for a part of the connecting sleeve to pass through, one end of the bottom plate facing the stepped hole is provided with a groove suitable for containing the lug, and the lug is placed in the groove in a rotating mode after passing through the notch; the host is connected with the connecting shaft and then abutted against the connecting shaft, and the connecting sleeve and the upper cover are kept fixed at the moment.

4. The food processor of claim 3, wherein: the end face of the bottom plate facing the cavity is provided with a guide wing, the inner side face of the guide wing is matched with the shape and size of the outer surface of the connecting sleeve, and after the connecting sleeve is connected with the upper cover, the inner side face of the guide wing is attached to the outer surface of the connecting sleeve.

5. The food processor of claim 4, wherein: the guide wing is arranged along the edge of the through hole and avoids the notch.

6. The food processor of claim 4, wherein: the joint length of the guide wings and the side surfaces of the connecting sleeves is 20% -40% of the depth of the cavity; and a bearing is arranged between the connecting sleeve and the connecting shaft, or the connecting sleeve and the connecting shaft adopt a connection scheme of an oil-retaining bearing.

7. The food processor of any one of claims 3 to 6, wherein: and the side surface of the groove on the bottom plate is provided with a baffle arm along the direction, and the baffle arm is used for deepening the depth of the groove.

8. The food processor of any one of claims 1 to 6, wherein: the big hole of the stepped hole is suitable for containing one part of the host, the host is provided with a detection switch, the upper cover is provided with a trigger structure, and the trigger structure can protrude out of the big hole to trigger the detection switch.

9. The food processor of claim 8, wherein: the trigger structure is an elastic abutting part, and the detection switch is a mechanical switch; the trigger structure has a part protruding the outer wall of the upper cover under defaulting, the upper cover is in the process of covering the cup opening, and the trigger structure is abutted to the cup opening to enable the other part of the trigger structure to move towards the large hole so as to trigger the detection switch.

10. The food processor of claim 9, wherein: the transition connecting surface of the big hole and the small hole is provided with a bulge, and the host is provided with a positioning hole matched with the bulge.

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