CN215226974U - Cooking assembly and cooking equipment - Google Patents

Abstract

The utility model relates to a cooking subassembly and cooking equipment relates to life electrical apparatus technical field. The cooking assembly comprises a pot body, a knife locking block and a knife; the knife locking block is arranged at the outer side of the bottom of the pot body, and one side of the knife locking block is provided with a poking arm which can extend out of the side wall of the pot body; the cutter is locked on the pot body by the cutter locking block. This cooking equipment includes foretell cooking subassembly, still includes the base, and cooking subassembly installs in the base. The utility model provides a arrange subassembly and cooking equipment extends the pot body through the lateral wall of the stirring arm follow pot body that is connected in the lock sword piece, so the dismouting sword need not the user and inverts the pot body, under the condition that the pot body was just put, only need a hand hold the pot body, another hand rotate the lock sword piece through stirring the arm can, it is more convenient to operate, improve user's use and experience and feel, need not to face the problem that the inversion pot body leads to the relative pot body of cutter to drop moreover, reduce the potential safety hazard.

Description

Cooking assembly and cooking equipment

Technical Field

The utility model relates to a life electrical apparatus technical field especially relates to cooking subassembly and cooking equipment.

Background

On the existing market, multi-functional culinary art cooking machine is more and more extensive, installs the cutter in the cooking machine, carries out the operation such as the comminution of eating the material or stir-fry through the rotation of cutter, and the cooking machine still has the heating function simultaneously to better satisfying user's requirement. In practical use, need wash it after using the cooking machine, for the washing operation, need demolish the relative pot body of cutter in the cooking machine. However, when the knife is detached, the whole pot needs to be turned upside down, one hand of the user holds the knife, the other hand rotates the knife locking block, and the knife installing operation also needs to be carried out in this way. However, such operation is inconvenient, the user experience is reduced, and potential safety hazards may exist.

SUMMERY OF THE UTILITY MODEL

On the basis, it is necessary to provide a material management assembly aiming at the technical problems of inconvenient operation and even potential safety hazard in the prior art when the cutter is disassembled and assembled.

A material management component, which comprises a pot body, a cutter locking block and a cutter;

the knife locking block is arranged on the outer side of the bottom of the pot body, and a poking arm is arranged on one side of the knife locking block and extends out of the side wall of the pot body; the cutter is locked on the pot body by the cutter locking block.

In one embodiment, the side wall of the pot body is provided with an opening extending along the circumferential direction of the pot body, and the poking arm can extend out of the opening; the poking arm is poked along the circumferential direction of the pot body from the outside of the side wall of the pot body, so that the knife locking block rotates relative to the pot body.

Wherein, the setting of trompil is convenient for dial the arm and can stretch out to the lateral wall of the pot body from the trompil to user's hand is dialled, realizes the rotation of the relative pot body of lock sword piece, thereby realizes the dismouting sword operation.

In one embodiment, the side wall of the pot body is provided with a containing groove which is concave inwards in the radial direction, and the opening is positioned in the range of the containing groove; one end of the poking arm extending out of the side wall of the pot body is provided with a bent flanging, and the bent flanging is accommodated in the accommodating part.

Such setting not only provides accommodation space for the turn-ups of buckling of the lateral wall that the stir-moving arm stretches out the pot body through setting up the holding tank, changes in the stirring to the stir-moving arm through the turn-ups's of buckling setting moreover, and the turn-ups of buckling simultaneously and the position constraint between holding tank, the trompil can ensure that the relative pot body of lock sword piece can not break away from easily.

In one of them embodiment, the pot body is including cooking the pot and installing the pot seat of cooking pot below, the installation cavity has in the pot seat, the trompil with the installation cavity intercommunication, the lock sword piece is in the installation cavity.

Such setting can provide installation space through the installation of the relative pot body of the setting up of installation cavity for the lock sword piece, ensures that the lock sword piece can be separated relatively to arrange the chamber.

In one embodiment, the knife locking block is configured with an accommodating cavity which penetrates through the knife locking block along the axial direction of the knife locking block, a first locking inclined surface is arranged on the side wall of the accommodating cavity,

the cutter also comprises a cutter holder and a cutter body, wherein the cutter body is arranged at one end of the cutter holder, and the cutter holder is provided with a locking bulge extending outwards along the radial direction;

the tool apron can penetrate through the accommodating cavity and the bottom of the pot body; rotating the cutter locking block along a first direction, pressing the locking protrusion and the first locking inclined plane tightly, and locking the cutter relative to the pot body; and the cutter locking block is rotated along the second direction, the locking protrusion is loosened from the first locking inclined plane, and the cutter is unlocked relative to the pot body.

The arrangement can realize the locking cooperation between the cutter and the cutter locking block through the cooperation of the first locking inclined plane and the locking protrusion, thereby realizing the operation of dismounting the cutter relative to the pot body.

In one embodiment, the cutter locking block is provided with an accommodating cavity which penetrates through the cutter locking block along the axial direction of the cutter locking block, and a locking ring is arranged in the accommodating cavity and can synchronously rotate with the cutter locking block and move along the axis of the cutter locking block relative to the cutter locking block; a second locking inclined plane is arranged on the inner side surface of the locking ring;

the cutter also comprises a cutter holder and a cutter body, wherein the cutter body is arranged at one end of the cutter holder, and the cutter holder is provided with a locking bulge extending outwards along the radial direction;

the tool apron can penetrate through the locking ring and the bottom of the pot body; the locking knife block is rotated along a first direction, the locking protrusion is tightly pressed with the second locking inclined plane, and the knife is locked relative to the pot body; and the cutter locking block is rotated along a second direction, the locking protrusion and the second locking inclined plane are loosened, and the cutter is unlocked relative to the pot body.

That is to say, through the locking cooperation of second locking inclined plane on the check lock circle and the locking arch on the blade holder, realize the locking between cutter and the lock sword piece to realize the dismouting sword operation of the relative pot body of cutter.

In one embodiment, one of the locking ring and the cutter locking block is provided with a clamping groove, and the other is provided with a clamping protrusion, and the clamping protrusion is in clamping fit with the clamping groove, so that the locking ring can rotate synchronously with the cutter locking block.

That is to say, the joint cooperation of lock ring and sword piece can be realized through the joint cooperation of card protruding and draw-in groove to realize the lock ring along with the synchronous pivoted purpose of sword piece.

In one embodiment, the number of the clamping protrusions is multiple, the clamping protrusions are arranged at intervals around the axis direction of the locking ring and/or the locking knife block, and each clamping protrusion is correspondingly provided with the clamping groove.

Due to the arrangement, the connection reliability between the locking ring and the cutter locking block can be further improved through the arrangement of the clamping protrusions and the clamping grooves.

In one embodiment, a flange is arranged on one side of the knife locking block facing the pot opening, one end of the locking ring can be pressed against the flange, and an elastic piece is arranged between the flange and the locking ring;

when the cutter is installed in place relative to the pot body, the elastic piece is tightly pressed between the flange and the locking ring; when the cutter is not installed in place relative to the pot body, the elastic piece is in a loose state.

The flange is provided with a mounting position for mounting the second elastic piece relative to the knife locking block and the locking ring, and the locking ring can drive the knife locking block to move towards the pot bottom, so that the knife locking block is tightly pressed against the pot bottom.

In one of them embodiment, be provided with the baffle in the installation cavity, the baffle will the installation cavity falls into epicoele and cavity of resorption, the bottom of a boiler of cooking pot is in go up the intracavity, the lock sword piece is in the cavity of resorption, just the trompil with the cavity of resorption intercommunication.

That is to say through the setting of baffle can separate into epicoele and cavity of resorption with the installation cavity, realize the assembly of pot seat and cooking pot and the relative pot seat's of lock sword piece assembly.

In one embodiment, a cutter loading hole is formed in the center of the partition plate, a track groove is formed in one side, facing the upper cavity, of the partition plate around the edge of the cutter loading hole, the cutter locking block is provided with a clamping portion, the clamping portion is clamped in the track groove, and the clamping portion can move along the extending direction of the track groove along with the rotation of the cutter locking block.

The installation of the relative baffle of lock sword piece can be realized through the joint cooperation in joint portion and orbit groove to such setting to ensure that the relative pot body of lock sword piece is difficult for breaking away from.

In one embodiment, the track groove has an installation opening, and the clamping portion includes a clamping hook, which can pass through the installation opening and be clamped in the track groove.

That is to say, the joint of the relative pot body of lock sword piece is realized through the joint cooperation in the relative orbit groove of pothook, and when the relative pot body installation of lock sword piece was convenient for to the setting of installing port, pothook on the lock sword piece can pass through the installing port to with the cooperation in orbit groove.

In one embodiment, the number of the mounting openings is multiple, the mounting openings are arranged at intervals around the axial direction of the track groove, and each mounting opening corresponds to one clamping hook.

The arrangement can improve the matching reliability of the knife locking block relative to the pot body through the plurality of clamping hooks, and the number of the mounting openings is matched with that of the clamping hooks to ensure that each clamping hook can penetrate through the mounting openings to be matched with the track groove.

The utility model also provides a material management equipment can solve above-mentioned at least one technological effect.

The utility model provides a pair of cooking equipment, including foretell cooking subassembly, still include the base, cooking unit mount in the base.

The utility model has the advantages that:

the utility model provides a pair of material reason subassembly, including the pot body, lock sword piece and cutter. Wherein, the lock sword piece is installed in the pot bottom outside of the pot body, and the cutter can be through locking relative pot body with the help of lock sword piece, realizes the installation of cutter relative pot body. Wherein, one side of the lock knife block is provided with a poking arm which can extend out of the side wall of the pot body. When the knife is assembled and disassembled, a user can hold the part extending out of the poking arm from the outside of the side wall of the pot body, and apply acting force to the poking arm to realize rotation of the knife locking block, so that locking and unlocking between the knife locking block and the knife are realized. Just because the stirring arm can extend to outside the lateral wall of the pot body, so the dismouting sword need not the user and inverts the pot body, under the pot body just put the circumstances, only need one hand hold the pot body, another hand through stir the arm rotate the lock sword piece can, it is more convenient to operate, improve user's use and experience and feel, appear because of the problem that the relative pot body of inversion pot body dismantlement cutter dropped, reduce the potential safety hazard in addition.

The utility model provides a pair of cooking equipment, including foretell cooking subassembly, still include the base, cooking unit mount in the base can realize above-mentioned at least one technical problem.

Drawings

Fig. 1 is an assembly schematic view of a food processing device provided by an embodiment of the present invention;

fig. 2 is an unassembled schematic view of a food processing device according to an embodiment of the present invention;

fig. 3 is a schematic view of a base in a food processing device according to an embodiment of the present invention;

fig. 4 is a schematic view of a cooking assembly in a cooking apparatus according to an embodiment of the present invention;

fig. 5 is a partial bottom view of a cooking assembly in the cooking apparatus according to the embodiment of the present invention;

fig. 6 is a first partial view of a cooking assembly in the cooking apparatus according to the embodiment of the present invention;

fig. 7 is a second partial view of a food processing assembly in the food processing apparatus according to the embodiment of the present invention;

fig. 8 is a partial sectional view of a cooking assembly in the cooking device according to the embodiment of the present invention;

fig. 9 is a first partial exploded view of a cooking assembly in the cooking apparatus according to the embodiment of the present invention;

fig. 10 is a second partial exploded view of a food processing assembly in the food processing apparatus according to the embodiment of the present invention;

fig. 11 is a third partial view of a cooking assembly in the cooking apparatus according to the embodiment of the present invention;

fig. 12 is a fourth partial view of the food processing assembly in the food processing device provided by the embodiment of the present invention.

Reference numerals: 10-a pot body; 11-pot bottom partition board; 12-accommodating grooves; 13-opening the hole; 14-a track groove; 15-mounting port; 16-a pusher; 17-a separator; 20-locking the cutter block; 21-poking arm; 22-a hand-held arm; 23-hook; 24-a flange; 25-a containment chamber; 30-a cutter; 31-a cutter body; 32-a tool apron; 33-a rotating shaft; 40-a locking ring; 41-pressing protrusions; 50-sealing ring; 61-first snap; 62-a first card slot; 63-a second snap; 64-a second card slot; 70-a second elastic member; 100-a cooking component; 101-cooking pot; 102-a pot base; 1011-a cooking cavity; 1021-a mounting cavity; 111-mounting holes; 1111-notch; 161-a pushing block; 162-a first resilient member; 200-a base; 321-locking protrusions; 322-boss; 411-a second locking ramp; 412-compacting plane; 1000-food processor; 10211-upper chamber; 10212-lower chamber; 2001-the barrier; 2002-tray section.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

As shown in fig. 1 and fig. 2, a cooking apparatus 1000 provided in an embodiment of the present invention is mainly used for cooking in a kitchen. This cooking equipment 1000 includes cooking subassembly 100 and base 200, and cooking subassembly 100 installs on base 200, and cooking subassembly 100 can dismantle the connection for base 200, can take off cooking subassembly 100 for base 200 again, can assemble base 200 relatively. Specifically, the food processing assembly 100 has a food processing cavity 1011, and the food material is put into the food processing cavity 1011. The base 200 is used to connect to a power source to facilitate the application of current to cook the food material in the cooking cavity 1011. Generally, the pot body 10 of the food processing assembly 100 is further provided with a cutter 30, the cutter body 31 of the cutter 30 extends into the food processing cavity 1011, and the base 200 is connected with a power supply to drive the cutter 30, so that the cutter body 31 of the cutter 30 can rotate in the food processing cavity 1011 to cut or stir-fry food. Wherein, cooking subassembly 100 lateral wall is provided with the handle to in the user is handheld, for example when eating the material and accomplish the culinary art back in cooking chamber 1011, the user can handheld handle and take up cooking subassembly 100 relative base 200 and with cooking subassembly 100 slope, with pour out the food in cooking chamber 1011 to the splendid attire department. Wherein, still have the lid of detaining and locating cooking chamber 1011 opening part at cooking subassembly 100, the lid is used for shutoff cooking chamber 1011's opening to eat the material and can not follow the opening part spill under the effect of cutter 30, also play the guard action to the user simultaneously. Alternatively, a spout may be provided on the side wall of the food cooking assembly 100, and the cooked food can be poured out from the spout. Meanwhile, a foot pad is arranged on one side of the base 200 departing from the food processing assembly 100, and the foot pad is convexly arranged on the bottom surface of the base 200. Such setting can ensure that base 200 and the thing platform of putting that is used for placing cooking equipment 1000 have the heat dissipation space between, is favorable to base 200 to dispel the heat to reduce the risk that base 200 work generates heat, burns out inside electron device etc. even. In addition, most of the heat dissipation mechanisms of the general base 200 are disposed on the side of the base 200 facing the object placing table, so that the heat dissipation space is more favorable for the heat dissipation mechanism to contact with the outside air for heat dissipation. In addition, the callus on the sole deviates from one side of base 200 and is provided with the abrasionproof pad to increase base 200 and put the frictional force that the thing platform was placed relatively, thereby improve the stability of cooking equipment 1000 during operation.

Hereinafter, a specific structure of the cuisine assembly 100 will be described. As shown in fig. 1, fig. 2, fig. 4, fig. 5, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11 and fig. 12, the food cooking assembly 100 specifically includes a pan body 10, a knife locking block 20 and a knife 30. In the description of the embodiment, the pot body 10 has an approximately cylindrical structure, and when the cutter 30 is mounted on the pot body 10 by using the cutter locking block 20, the axis of the cutter 30, the axis of the cutter locking block 20, and the axis of the pot body 10 are overlapped. Knife locking block 20 is mounted to pot 10 and knife locking block 20 can be rotated relative to pot 10 to lock knife 30 to pot 10 or unlock knife 30 from pot 10.

Specifically, the pot body 10 includes a cooking pot 101 and a pot base 102 installed below the cooking pot 101, wherein the pot base 102 is generally made of plastic. The cooking cavity 1011 is formed inside the cooking pot 101 for holding food materials. A mounting cavity 10211 is formed in the pan base 102, and the pan bottom 11 of the cooking pan 101 is accommodated in the mounting cavity 10211. In one embodiment, a partition 17 is installed in the installation cavity 10211 to divide the installation cavity 10211 into an upper cavity 10211 and a lower cavity 10212, the bottom 11 of the cooking pan 101 is located in the upper cavity 10211, and the locking blade block 20 is located in the lower cavity 10212. Wherein, the bottom 11 of the cooking pan 101 is provided with a mounting hole 111 for the cutter 30 to pass through, and the center of the partition 17 is provided with a cutter mounting hole for mounting the cutter locking block 20, so that the side of the cutter 30 departing from the cutter body 31 can extend out of the bottom of the pan body 10, and can be matched with the transmission structure on the base 200 to realize the driving of the cutter 30.

As shown in fig. 8, the tool 30 includes a tool body 31, a tool rest 32, and a rotating shaft 33. One end of the rotating shaft 33 is rotatably connected to the tool holder 32, and is connected to the driving motor on the base 200 through the tool holder 32 in a transmission manner, and the other end of the rotating shaft 33 is connected to the cutter body 31. In actual use, the base 200 is powered on, the driving motor is started to drive the rotating shaft 33 to rotate around the axial direction of the rotating shaft 33, and the cutter body 31 rotates synchronously with the rotating shaft 33 to cut and stir the food materials. Therefore, the part of the rotating shaft 33 connected with the knife body 31 and the knife body 31 are both located in the food processing cavity 1011, and the knife holder 32 needs to pass through the bottom 11 of the food processing pot 101 to be in locking fit with the knife locking block 20 located in the installation cavity 1021, so that the installation of the knife 30 relative to the food processing pot 101 is realized.

In one embodiment, the lock block 20 is formed with a receiving cavity 25 extending axially therethrough, and a flange 24 extending radially inwardly of the lock block 20 is formed at an opening at an upper portion of the receiving cavity 25. The cavity wall of the accommodating cavity 25 along the circumferential direction of the cutter locking block 20 is provided with a first locking inclined surface, and the corresponding tool holder 32 is provided with a locking protrusion 321 extending outwards along the radial direction of the tool holder 32. When the cutter 30 is installed relative to the pot body 10, the cutter holder 32 penetrates through the pot bottom 11 of the cooking pot 101 and the cutter locking block 20, so that the locking protrusion 321 on the cutter holder 32 is located below the first locking inclined plane, then the cutter locking block 20 is rotated clockwise around the axis of the cutter locking block 20, so that the locking protrusion 321 can be gradually in press fit with the first locking inclined plane, the first locking inclined plane applies downward acting force to the locking protrusion 321, the pot bottom 11 of the cooking pot 101 applies upward supporting force to the cutter holder 32, so that the locking protrusion 321 applies upward locking force to the first locking inclined plane, so that the cutter locking block 20 is enabled to upwards extrude the pot bottom 11 of the cooking pot 101, thereby through the mutual matching relationship of the first locking inclined plane, the locking protrusion 321 and the pot bottom 11 of the cooking pot 101, the cutter locking block 20 is enabled to be pressed against the pot bottom 11 of the cooking pot 101, so as to realize the locking of the cutter 30 relative to the cutter locking block 20, i.e. locking relative to the pan 10. When the knife locking block 20 is rotated counterclockwise around the axis of the knife locking block 20, the locking protrusion 321 can be gradually loosened from the first locking inclined surface, and the locking force is gradually reduced along with the rotation of the knife locking block 20, so that the knife 30 can be detached from the pot body 10.

The counterclockwise rotation unlocking and the clockwise rotation locking of the knife locking block 20 are both related to the inclined direction of the first locking inclined plane, so that the rotation direction needs to be selected according to actual conditions to realize the locking and unlocking of the knife 30 relative to the pot body 10. Of course, the rotation is not limited to the unlocking by the counterclockwise rotation and the locking by the clockwise rotation, and the rotation may be the unlocking by the clockwise rotation and the locking by the counterclockwise rotation.

As shown in fig. 7-10, in one embodiment, the accommodating cavity 25 of the knife locking block 20 is a cylindrical structure with two open ends, and a locking ring 40 is further disposed in the accommodating cavity 25, and the locking ring 40 can be carried on the flange 24 and rotate synchronously with the knife locking block 20. That is to say, a locking ring 40 is further disposed between the tool holder 32 and the tool locking block 20, and the tool holder 32, the locking ring 40 and the tool locking block 20 are sequentially wrapped from inside to outside. The locking ring 40 is mounted to the blade lock block 20 and is adapted to snap fit with the blade holder 32. Specifically, the inner wall of the locking ring 40 facing the tool holder 32 is provided with a second locking inclined surface 411, and the second locking inclined surface 411 is arranged on one side of the locking ring 40 departing from the tool body 31. The tool holder 32 is provided with a locking protrusion 321 extending radially outward from the tool holder 32, that is, the inner wall of the tool holder 32 facing the locking ring 40 is provided with the locking protrusion 321. Along with the rotation of the knife locking block 20 relative to the pot body 10, the knife locking block 20 rotates to drive the locking ring 40 to rotate, and the locking protrusion 321 can gradually and tightly press and engage with the second locking inclined surface 411, so that the knife holder 32 is locked and matched relative to the locking ring 40.

In another embodiment, as shown in fig. 7-10, a pressing protrusion 41 is provided on the inner wall of the locking ring 40 facing the tool holder 32, and the pressing protrusion 41 is protruded from the locking ring 40 along the side facing the axis of the knife locking block 20. The second locking slant 411 is disposed on a side of the pressing protrusion 41 facing the base 200, and the second locking slant 411 extends obliquely along a direction from the cup opening to the bottom of the cup so as to be press-fitted with the locking protrusion 321. Wherein, the side of the pressing protrusion 41 facing the base 200 is further provided with a pressing plane 412, the pressing plane 412 is in smooth transition with the second locking inclined plane 411, and the pressing plane 412 is located at the highest position of the pressing protrusion 41 along the locking ring 40. In a specific embodiment, the pressing protrusion 41 is integrally formed with the second locking ramp 411. In practical use, when the locking protrusion 321 contacts with the lowest portion of the pressing protrusion 41, the locking protrusion 321 gradually moves along the second locking slant 411 and finally moves onto the pressing plane 412 as the blade locking block 20 rotates. Therefore, the cutter locking block 20 and the cutter 30 are in press fit with the cup body 10, and cutter mounting operation is realized. Conversely, the locking knife block 20 is rotated reversely, so that the locking projection 321 is separated from the pressing plane 412 and the pressing projection 41, and the knife removing operation is realized.

As shown in fig. 9, in particular, the tool holder 32 further has a boss 322 on a side facing the bottom 11 of the cooking pan 101. When the knife holder 32 passes through the bottom 11 of the food processing pot 101 and the opening at the upper part of the knife locking block 20 to match with the locking ring 40 in the accommodating cavity 25 of the knife locking block 20, the boss 322 can be pressed on the bottom 11 of the food processing pot 101. At this time, the locking protrusion 321 extends into the locking ring 40 along with the tool holder 32, and the locking protrusion 321 is located below the second locking slant 411. The locking ring 40 and the locking knife block 20 rotate synchronously by rotating the locking knife block 20 relative to the pot body 10, and the locking protrusion 321 and the second locking inclined surface 411 are gradually pressed and engaged. As the knife locking block 20 rotates, the second locking inclined surface 411 and the locking protrusion 321 are engaged more and more tightly, which causes the knife 30 to be pulled toward and pressed against one side of the bottom 11 of the cooking pan 101, and the boss 322 on the knife 30 is pressed against the side of the bottom 11 of the cooking pan 101. Meanwhile, the tool apron 32 can apply pressing force towards the pot opening to the second locking inclined surface 411, so that the locking ring 40 pushes the tool locking block 20 towards and presses the other side of the pot bottom 11 of the cooking pot 101, and locking installation among the tool locking block 20, the tool 30 and the pot body 10 is realized, and tool mounting operation is realized. When the knife needs to be removed, the knife locking block 20 is rotated relative to the pot body 10 along the opposite direction.

As shown in fig. 11, in order to facilitate the arrangement of the locking protrusion 321, the locking protrusion can pass through the bottom 11 of the food processing pot 101 along with the knife holder 32 to cooperate with the second locking inclined surface 411, a notch 1111 is arranged at the edge of the mounting hole 111 of the bottom 11 of the food processing pot 101, the size of the notch 1111 is adapted to the size of the locking protrusion 321, and the number of the notches 1111 is also adapted to the number of the locking protrusions 321, so that the locking protrusion 321 can pass through the notch 1111 along with the knife holder 32 to cooperate with the locking ring 40.

In one embodiment, the tool seat 32 has a polygonal prism structure, and correspondingly, the mounting hole 111 formed in the bottom 11 of the food processing cup 101 has a corresponding polygonal shape. For example, when the tool holder 32 has a hexagonal prism structure, the mounting hole 111 of the cup bottom 11 has a hexagonal shape. Such an arrangement can avoid the problem that the holder 32 rotates with the rotation of the rotary shaft 33 and the cutter body 31, and improve the safety in use. In addition, it is only necessary to align locking projection 321 with notch 1111 during installation and removal of tool 30, which greatly simplifies the removal of tool 30.

As shown in fig. 9, a sealing ring 50 is further disposed between the boss 322 of the tool holder 32 and the pan bottom 11, and the sealing ring 50 is sleeved on the tool holder 32 and is close to the boss 322. When the cutter 30 is locked to the bottom 11 of the food processing pot 101 by the locking ring 40, the sealing ring 50 can be tightly pressed between the boss 322 and the bottom 11 of the food processing pot 101, and plays a role in sealing the mounting hole 111 and the notch 111 on the bottom 11 of the food processing pot 101, so that the cutter 30 is ensured to be connected with the pot body 10 in a sealing manner, and food materials put into the food processing cavity 1011 cannot leak into the mounting cavity 102. Moreover, the sealing ring 50 further enhances the locking of the tool holder 32 with respect to the tool locking block 20. If the seal ring 50 is not installed between the boss 322 and the pan bottom 11 of the cooking pan 101, the boss 322 is not easily pressed against the pan bottom 11, the food material in the cooking cavity 1011 is easily leaked from the mounting hole 111, and the knife 30 is not easily locked with respect to the pan body 10.

It should be added that the locking ring 40 can also be locked with the tool holder 32 by a threaded connection, or alternatively, the tool holder 32 can be directly locked with the tool locking block 20 by a threaded connection. For example, an internal thread is provided on the wall of the accommodating cavity 25 of the knife locking block 20, and an external thread is provided on the outer side wall of the knife holder 32, so that the matching of the internal thread and the external thread realizes the locking of the knife holder 32 relative to the knife locking block 20, and thus the knife mounting operation of the knife 30 relative to the pot body 10 is realized. No matter which kind of arrangement mode of adoption, it as long as can ensure that blade holder 32 locks the installation relative to sword locking piece 20, blade holder 32 can be relative sword locking piece 20 unblock again simultaneously, the operation of realization dismouting sword can.

It should be noted that the number of the locking projections 321 on the holder 32 may be plural, and the plural locking projections 321 are arranged at intervals around the axial direction of the tool 30. Correspondingly, the number of the pressing protrusions 41 on the locking ring 40 is also multiple, the pressing protrusions 41 are arranged at intervals around the axial direction of the locking ring 40, and each pressing protrusion 41 is correspondingly provided with a second locking inclined surface 411, so as to correspond to one locking protrusion 321. For example, in one embodiment, the number of the locking protrusions 321 is three, the number of the corresponding pressing protrusions 41 is three, the three locking protrusions 321 are uniformly spaced around the axis of the tool 30, and the three pressing protrusions 41 are uniformly spaced around the axis of the locking ring 40. Of course, the number of the locking protrusions 321 may be four, five, etc., and any arrangement may be adopted as long as the locking protrusions 321 and the pressing protrusions 41 can be matched to realize the tool 30 mounting and dismounting operation.

As shown in fig. 9 and 10, in actual use, the side wall of the locking ring 40 facing the blade locking block 20 is provided with a first clamping protrusion 61 and a first clamping groove 62, and the first clamping protrusion 61 and the first clamping groove 62 are arranged at intervals around the axial direction of the locking ring 40. A second locking protrusion 63 and a second locking groove 64 are provided on the side wall of the knife locking block 20 facing the locking ring 40, and the second locking protrusion 63 and the second locking groove 64 are arranged at intervals around the axial direction of the knife locking block 20. The first clamping protrusion 61 can be matched with the second clamping groove 64 in a clamping mode, and the second clamping protrusion 63 can be matched with the first clamping groove 62 in a clamping mode. In addition, there is an axial movement margin between the first engaging projection 61 and the second engaging groove 64, and there is also an axial movement margin between the second engaging projection 63 and the first engaging groove 62, that is, there is a certain axial movement margin between the locking ring 40 and the cutter block 20 relative to each other. Therefore, when the knife locking block 20 drives the locking ring 40 to rotate circumferentially during knife loading, the locking ring 40 can move towards the pot bottom 11 relative to the knife locking block 20; and vice versa.

The number of the first clamping protrusions 61, the first clamping grooves 62, the second clamping protrusions 63 and the second clamping grooves 64 can be multiple, the multiple first clamping protrusions 61 and the multiple second clamping grooves 64 are arranged around the locking ring 40 in an axially crossed mode at intervals, and the multiple second clamping protrusions 63 and the multiple second clamping grooves 64 are arranged around the locking cutter block 20 in an axially crossed mode at intervals.

In an alternative embodiment, as shown in fig. 7, 9 and 10, a second resilient member 70 is provided between the locking ring 40 and the flange 24 of the block 20, the second resilient member 70 being capable of being compressed between the locking ring 40 and the block 20. When the locking ring 40 moves towards one side of the pot bottom 11 under the second acting force applied by the locking protrusion 321, the locking ring 40 can press the second elastic member 70 to cause the second elastic member 70 to deform, and the second elastic member 70 can apply an acting force to the cutter locking block 20 towards the inner edge end face of the pot bottom 11 in the deformation process. With the arrangement, when the knife locking block 20 is rotated, a certain resistance action exists between the knife locking block 20 and the locking ring 40, so that a user can really feel feedback applied to the knife locking block 20 by the resistance action, and the use experience of the user is improved. Also, by providing the second elastic member 70, the axial movement margin between the lock ring 40 and the cutter block 20 is increased, which contributes to an increase in the smoothness of the locking operation of the cutter 30, rather than the presence of a large resistance.

In one embodiment, the second elastic member 70 is a spring sheet, and may be a wave-shaped spring ring or a coil spring, as long as it can at least achieve the above-mentioned effects.

In an alternative embodiment, shown in fig. 4-10, one side of lock block 20 has a toggle arm 21, toggle arm 21 extending out of the side wall of pan body 10. Just because knife locking block 20 is rotatably connected to pot body 10, knife locking block 20 is rotated counterclockwise with respect to pot body 10 when knife 30 is locked, and knife locking block 20 is rotated clockwise with respect to pot body 10 when knife 30 needs to be removed with respect to knife locking block 20. In addition, during locking, the cutter locking block 20 can be rotated clockwise; when disassembling, the blade locking block 20 is rotated counterclockwise. In any way, the locking and releasing of the knife 30 relative to the knife locking block 20 and the knife locking block 20 relative to the pot body 10 can be realized.

In one embodiment, toggle arms 21 extend radially of lock block 20 and extend through the sidewall of pan body 10 to the outside of pan body 10. At this time, when the cutter 30 is attached and detached, the opening of the pot 10 is directed upward, and the dial arm 21 is pulled from the radial outer side of the sidewall of the pot 10 to rotate the cutter locking block 20. The arrangement of the toggle arm 21 is equivalent to increase the force arm for rotating the lock knife block 20, which is convenient for the user to operate. More importantly, compared with the prior art that the pot body needs to be inverted (that is, the opening of the pot body faces downward), and the knife locking block needs to be screwed at the bottom of the pot, in the scheme of the present disclosure, just because the toggle arm 21 extends out from the side wall of the pot body 10, when the knife is dismounted, the pot body 10 is placed in the forward direction (that is, the opening of the pot body 10 faces upward), a user can hold the toggle arm 21 with one hand and hold the pot body 10 with the other hand, so as to apply a rotational force to the toggle arm 21, so that the toggle arm 21 drives the knife locking block 20 to rotate relative to the pot body 10, and then the knife mounting operation and the knife dismounting operation can be realized, the operation is more convenient, the pot body 10 does not need to be inverted, and the problem of safety caused by dismounting the knife 30 relative to the pot body 10 due to inverting the pot body 1 does not occur any more, and even the safety problem is caused, thereby the assembly 100 of the present disclosure is improved in use safety.

As shown in fig. 4 and 6, an opening 13 is further formed on the sidewall of pan body 10, and opening 13 can communicate the external environment of pan body 10 with mounting cavity 1021, so that the extending end of toggle arm 21 can protrude from opening 13. When the knife 30 is detached from the knife locking block 20, the poking arm 21 moves along the opening 13 under the action of the user, and the poking arm 21 drives the knife locking block 20 to rotate relative to the pot body 10. Wherein, the opening hole 13 is a long hole, the length of which is arc-shaped and extends along the axial direction of the pan body 10. Wherein the length of the opening 13 is well within the rotation range of the cutter locking block 20 when the cutter 30 is locked relative to the cutter locking block 20.

In another embodiment, instead of providing the opening 13 on the sidewall of the pan body 10, the toggle arm 21 may be configured with a turn to extend over the lower edge of the pan base and outside the sidewall of the pan body 10. This also enables the knife 30 to be removed by moving the toggle arm 21 from the outside of the side wall of the pot 10 and further rotating the knife locking block 20.

As shown in fig. 4, 6 and 8, in some embodiments, receiving groove 12 is formed in the sidewall of pan body 10, receiving groove 12 is recessed toward the direction close to the axis of pan body 10 and communicates with mounting cavity 1021, and the portion of toggle arm 21 protruding from mounting cavity 1021 can be received in receiving groove 12. That is, the accommodating groove 12 is provided to provide a storage space for a portion of the toggle arm 21 protruding from the mounting chamber 1021. Since the pan body 10 is engaged with the base 200, in order to ensure that the dial arm 21 does not interfere with the engagement of the pan body 10 with the base 200, the accommodating groove 12 is provided to accommodate the portion of the dial arm 21 protruding from the side wall of the pan body 10, thereby ensuring the normal assembly of the pan body 10 with respect to the base 200.

As shown in fig. 4, 6, 8, 9 and 10, further, the receiving part is provided as a receiving groove 12, the receiving groove 12 is recessed toward a direction close to the axis of the pot body 10, and the length of the receiving groove 12 extends along the circumferential direction of the pot body 10 to form a semi-arc shaped groove. The portion of the extension protruding from the opening 13 is accommodated in the accommodation groove 12. Wherein, the opening 13 is arranged on one side of the holding tank 12 facing the pot opening. At this time, the extending end of the poking arm 21 is provided with a bent flange, and the bent flange is bent along one side facing the bottom of the cup and is accommodated in the accommodating groove 12. Or, the opening 13 is disposed on one side of the accommodating groove 12 facing the bottom of the cup, and the bent flange is bent along one side facing the pot opening and accommodated in the accommodating groove 12. Or, a handheld arm 22 arranged in an L shape is mounted at the extending end of the toggle arm 21, the handheld arm 22 is square or inverted according to the position of the opening 13 relative to the accommodating groove 12, and the handheld arm 22 can also be used as a bending flange. It is only required to facilitate the user operation.

When the hand-held arm 22 is adopted, the hand-held arm 22 may be made of a metal material and fastened to the dial arm 21 by a fastening member such as a screw. The hand arm 22 can rotate in the receiving groove 12, so that the knife locking block 20 can rotate in a certain angle, and the knife 30 can be detached.

Of course, a receiving hole penetrating through the side wall of the pot body 10 may be formed in the side wall of the pot body 10, and the length of the receiving hole extends along the circumferential direction of the pot body 10; when knife locking block 20 rotates relative to pot 10, toggle arm 21 can move in the receiving hole. That is, the sidewall of pot 10 is provided with an elongated arc-shaped hole extending along the circumferential direction of pot 10, i.e., the receiving hole described above, and the extending end of driver arm 21 extends directly from mounting cavity 1021 of pot 10 through the receiving hole. When lock knife block 20 is rotated relative to pot 10, toggle arm 21 moves synchronously with lock knife block 20 within the receiving hole along the arcuate extension of the receiving hole.

When the driver arm 21 is connected to the L-shaped handle arm 22, the blade lock block 20 needs to be first installed in the installation cavity 1021, and the driver arm 21 needs to be directed toward the opening 13. One end of the hand arm 22 extends into the mounting cavity 1021 from the opening 13, and the dial arm 21 and the hand arm 22 are fixed by a fastener such as a screw.

As shown in fig. 12, in an alternative embodiment, a clamping portion is provided on an outer side wall of the knife locking block 20 away from the locking ring 40, correspondingly, a track groove 14 is provided on a side of the partition 17 facing the upper cavity 10211, and when the knife locking block 20 is installed in the installation cavity 1021, the clamping portion is clamped in the track groove 14 and can move in the track groove 14 along with the rotation of the knife locking block 20 relative to the pot 10. Specifically, the clamping portion may be a clamping hook 23, the track groove 14 is provided with an installation opening 15, and the clamping hook 23 passes through the installation opening 15 and is clamped in the track groove 14. In practical use, the cutter locking block 20 is of a bowl-shaped structure and has a large-diameter end and a small-diameter end, the cutter locking block 20 extends into the mounting cavity 1021 from the opening on the pot body 10 through the small-diameter end, in the process of extending, the cutter locking block 20 is rotated to enable the hook 23 to just pass through the mounting opening 15, and then the cutter locking block 20 is rotated again to enable the hook 23 to deviate relative to the mounting opening 15 and move into the track groove 14.

The number of the mounting openings 15 is at least three, the at least three mounting openings 15 are arranged around the track groove 14 at intervals in the axial direction, and the track groove 14 is arranged in a surrounding mode along the circumferential direction of a tool mounting hole in the partition plate 17. Correspondingly, the number of the hooks 23 is at least three, and each hook 23 corresponds to one mounting opening 15.

It should be noted that when there are three or more hooks 23, and only one hook 23 is located in the range of the opening 13 on the pot body 10, so as to prevent the hooks 23 from being disengaged from the pot base 102 through the mounting openings 15 when the knife locking block 20 is rotated, thereby causing the knife locking block 20 to be disengaged from the pot base 102. That is to say, when the knife is dismounted, because the opening 13 on the pot body 10 is matched with the hand-held arm 22 and the mounting hole 15 on the pot seat 102 is matched with the hook 23 on the knife locking block 20, the knife locking block 20 can only rotate within a certain angle, and the dismounting of the knife 30 relative to the pot body 10 can be realized, but the knife locking block 20 cannot be easily dismounted relative to the pot body 10, so that the purpose that the knife locking block 20 does not need to be dismounted simultaneously when the knife is dismounted is realized, and the knife locking block 20 is ensured not to be lost easily when the knife is dismounted.

The utility model also provides a cooking machine 1000, including base 200 and the above-mentioned cooking subassembly 100 that discloses, after cutter 30 locks relative sword piece 20, this cooking subassembly 100 also can be placed in base 200, gets into user state. However, if the cutter 30 is not mounted in place relative to the cutter locking block 20, the cutter 30 is inevitably loosened and even a safety problem occurs when the cutter is directly put into use. Moreover, even if the cutter 30 is installed in place relative to the cutter locking block 20 and the cutter locking block 20 is installed in place relative to the pot body 10, the cutter locking block 20 still loosens during long-term use, so that the cutter 30 loosens. In view of the technical problem, as shown in fig. 2 and 3, the present embodiment further provides a material handling apparatus 1000, a blocking portion 2001 is convexly disposed on a side of the base 200 facing the pan body 10, when the pan body 10 is assembled with respect to the base 200, if the knife locking block 20 is not installed in place with respect to the pan body 10 (for example, the knife locking block 20 is located at a position shown by a dotted line in fig. 4), the blocking portion 2001 interferes with the knife locking block 20, so that the pan body 10 cannot be completely fitted with respect to the base 200. Only when knife locking piece 20 is mounted in place with respect to pot 10 (e.g., knife locking piece 20 is in the position shown by solid lines in fig. 4), blocking portion 2001 does not interfere with the downward movement of knife locking piece 20 with respect to base 200, thereby ensuring the proper assembly of pot 10 with respect to base 200. Moreover, since the blocking portion 2001 is protruded on the base 200, when the pot body 10 is assembled with respect to the base 200, the knife locking block 20 will interfere with the blocking portion 2001 in the circumferential direction, and at this time, the blocking portion 2001 can block the rotation of the knife locking block 20 with respect to the pot body 10, so as to prevent the knife locking block 20 from accidentally rotating during the use of the cooking device 1000, which would cause the knife 30 to loosen.

It should be noted that the installation of the cutter 30 in place relative to the pot body 10 means that the cutter 30 is locked relative to the pot body 10 to complete the operation of installing the cutter. The non-installation of cutter 30 with respect to pot 10 means that cutter 30 is not locked with respect to pot 10, including a state where cutter 30 is not installed with respect to pot 10, a state where seal ring 50 is not installed between cutter 30 with respect to pot 10, a state where cutter 30 is installed in cutter locking block 20 but cutter locking block 20 is not locked with respect to pot 10, and a state where cutter locking block 20 is loosened with respect to pot 10 with an increase of usage time after cutter locking block 20 is locked with respect to pot 10 at the initial stage.

Therefore, the cooking device 1000 can effectively judge whether the knife locking block 20 and the knife 30 are installed in place relative to the pot body 10 or not by arranging the blocking portion 2001 on the base 200 and utilizing the mutual position interference effect of the blocking portion 2001 and the knife locking block 20, and can ensure that the knife locking block 20 is in a stable installation state relative to the pot body 10, thereby improving the use safety and reducing the potential safety hazard.

As shown in fig. 2 and 3, the blocking portion 2001 includes a protrusion protruding from the base 200. When the knife locking block 20 is not installed in place, when the pot body 10 is vertically placed on the base 200, the knife locking block 20 overlaps the projection, thereby causing assembly interference. Only when knife locking block 20 is installed in place relative to pot body 10, knife locking block 20 is not located at the position of the projection relative to base 200, and pot body 10 can be normally assembled relative to base 200, so that a user can find out whether knife locking block 20 is installed in place relative to pot body 10 and whether knife 30 is installed in place relative to knife locking block 20 in time. Moreover, even if the lug blocks the knife locking block 20 from rotating and loosening during the use of the food processor 1000, the knife 30 can be kept locked correspondingly, which further improves the use safety of the food processor 1000.

1-3, in some embodiments, the side of base 200 facing pot 10 is provided with a socket configured to seat the bottom of pot 10. The receiving portion may be a tray 2002 that is protruded from the base 200, a receiving groove that is recessed in the thickness direction of the base 200, or even a single plane area provided on the base 200. In any case, the bottom of the pot body 10 can be seated on the receiving portion, and the pot body 10 can be assembled with respect to the base 200.

Taking the tray 2002 with the receiving portion protruding from the base 200 as an example, the tray 2002 is in a bowl-shaped structure, when the pot body 10 is assembled with respect to the base 200, the bottom of the pot body 10 can be just accommodated in the tray 2002, the inner side wall of the tray 2002 is just in clearance fit or close to the outer side wall of the pot base 102, and the protrusion is disposed inside the tray 2002. When pan body 10 is placed into tray 2002, receiving channel 12 on the lower sidewall of pan body 10 can be placed into tray 2002, thereby shielding the arms 22 within receiving channel 12.

In an alternative embodiment, as shown in fig. 5 and 12, a pushing member 16 is further mounted on a partition 17 of pot body 10, and pushing member 16 can push knife locking block 20 to rotate circumferentially relative to pot body 10. For example, when the knife 30 is mounted on the pot body 10 in place by using the knife locking block 20, the locking force between the knife locking block 20 and the bottom 11 is equal to or greater than the pushing force of the pushing member 16 on the knife locking block 20, and the knife locking block 20 is in the place position and does not rotate. When the cutter 30 is not mounted in place on the pot body 10, the locking force between the cutter locking block 20 and the pot bottom 11 is smaller than the pushing force of the pushing piece 16 acting on the cutter locking block 20, so that the pushing piece 16 can push the cutter locking block 20 to rotate relative to the pot body 10 to deviate from the in-place position. If pot 10 is assembled with respect to base 200 at this time, knife locking block 20 interferes with the position of the projection on base 200, and the assembly operation of pot 10 and base 200 is hindered. Therefore, under the condition that the cutter 30 is not installed or not installed in place, a user can be reminded to install the cutter 30 or install the cutter 30 in place, and therefore the use safety of the food processing assembly is further improved. In addition, even if the user drives the blade lock block 20 to rotate to the position by pulling the handle arm 22, when the pan body 10 is mounted relative to the base 200, there is no extra space between the pan body 10 and the tray 2002 due to the blocking effect of the tray 2002 so as to facilitate the continued pulling of the handle arm 22. Thus, at the instant when the user releases his hand from the arm 22, the pusher 16 pushes the blade lock 20 away from the proper position and interferes with the protrusion. Wherein the projections extend in a fan-like ring shape along the circumferential direction of the tray 2002 to ensure that the projections are positionally interfered with at every point after the cutter-locking block 20 is pushed out of the position by the pusher 16. Of course, the protrusion may be a square block structure as long as it can interfere with the position of the blade locking block 20.

As shown in fig. 5 and 12, in practical use, pushing member 16 includes a pushing block 161 and a first elastic member 162 connected to pushing block 161, and one end of first elastic member 162 facing away from pushing block 161 is connected to pot 10. Wherein, the first elastic member 162 is a spring. A positioning groove is formed in the partition 17 of the pot body 10, one end of the first elastic member 162 abuts against the positioning groove along the axial sidewall of the pot body 10, and the other end of the first elastic member 162 abuts against the pushing block 161. In one embodiment, a guide post is disposed on a side of the pushing block 161 facing the first elastic member 162, and the first elastic member 162 is sleeved on the guide post. The urging block 161 is urged to always have an urging force toward a direction away from the positioning groove, that is, to always have an urging force urging the lock blade block 20, by the provision of the first elastic member 162.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (14)

1. A material management component, which is characterized by comprising a pot body (10), a cutter locking block (20) and a cutter (30);

the locking knife block (20) is arranged on the outer side of the bottom of the pot body (10), a poking arm (21) is arranged on one side of the locking knife block (20), and the poking arm (21) extends out of the side wall of the pot body (10); the cutter (30) is locked on the pot body (10) by the cutter locking block (20).

2. The food processing assembly according to claim 1, wherein the side wall of the pot body (10) is provided with an opening (13) extending along the circumferential direction of the pot body (10), the poke arm (21) can protrude from the opening (13); the poking arm (21) is poked from the outside of the side wall of the pot body (10) along the circumferential direction of the pot body, so that the knife locking block (20) rotates relative to the pot body (10).

3. The food processing assembly according to claim 2, wherein the side wall of the pan (10) is provided with a receiving groove (12) recessed radially inwards, the aperture (13) being within the range of the receiving groove (12); one end, extending out of the side wall of the pot body (10), of the poking arm (21) is provided with a bent flanging, and the bent flanging is contained in the containing groove (12).

4. The food processing assembly according to claim 2 or 3, wherein the pot body (10) comprises a food processing pot (101) and a pot holder (102) installed below the food processing pot (101), an installation cavity (1021) is provided in the pot holder (102), the opening (13) is communicated with the installation cavity (1021), and the knife locking block (20) is arranged in the installation cavity (1021).

5. The food processing assembly according to claim 1, wherein the knife locking block (20) is configured with a receiving cavity (25) penetrating along the axial direction of the knife locking block, and a first locking inclined surface is arranged on the side wall of the receiving cavity (25);

the cutter (30) further comprises a cutter holder (32) and a cutter body (31), the cutter body (31) is installed at one end of the cutter holder (32), and the cutter holder (32) is provided with a locking protrusion (321) extending outwards in the radial direction;

the knife holder (32) can penetrate through the accommodating cavity (25) and the bottom (11) of the pot body (10); the cutter locking block (20) is rotated along a first direction, the locking protrusion (321) is tightly pressed with the first locking inclined surface, and the cutter (30) is locked relative to the pot body (10); the cutter locking block (20) is rotated along the second direction, the locking protrusion (321) and the first locking inclined surface are loosened, and the cutter (30) is unlocked relative to the pot body (10).

6. The food processing assembly according to claim 1, wherein the knife locking block (20) has a receiving cavity (25) penetrating along its axial direction, a locking ring (40) is disposed in the receiving cavity (25), and the locking ring (40) can rotate synchronously with the knife locking block (20) and can move along the axis of the knife locking block (20) relative to the knife locking block (20); a second locking inclined surface (411) is arranged on the inner side surface of the locking ring (40);

the cutter (30) further comprises a cutter holder (32) and a cutter body (31), the cutter body (31) is installed at one end of the cutter holder (32), and the cutter holder (32) is provided with a locking protrusion (321) extending outwards in the radial direction;

the tool apron (32) can penetrate through the locking ring (40) and the pot bottom (11) of the pot body (10); the locking knife block (20) is rotated along a first direction, the locking protrusion (321) is pressed against the second locking inclined surface (411), and the knife (30) is locked relative to the pot body (10); the cutter locking block (20) is rotated along the second direction, the locking protrusion (321) and the second locking inclined surface (411) are loosened, and the cutter (30) is unlocked relative to the pot body (10).

7. The food processing assembly according to claim 6, wherein one of the locking ring (40) and the knife locking block (20) is provided with a clamping groove, and the other is provided with a clamping protrusion, and the clamping protrusion is in clamping fit with the clamping groove, so that the locking ring (40) can rotate synchronously with the knife locking block (20).

8. The food processing assembly according to claim 7, wherein the number of the locking protrusions is plural, the locking protrusions are arranged around the axis direction of the locking ring (40) and/or the knife locking block (20) at intervals, and each locking protrusion is correspondingly provided with the locking groove.

9. The food processing assembly according to claim 6 or 7, wherein a flange (24) is arranged on one side of the knife locking block (20) facing the pot opening, one end of the locking ring (40) can be pressed against the flange (24), and an elastic piece is arranged between the flange (24) and the locking ring (40);

when the cutter (30) is installed in place relative to the pot body (10), the elastic piece is pressed between the flange (24) and the locking ring (40); when the cutter (30) is not installed in place relative to the pot body (10), the elastic piece is in a loose state.

10. The food processing assembly according to claim 4, wherein a partition plate (17) is arranged in the installation cavity (1021), the partition plate (17) divides the installation cavity (1021) into an upper cavity (10211) and a lower cavity (10212), the pan bottom (11) of the food processing pan (101) is arranged in the upper cavity (10211), the knife locking block (20) is arranged in the lower cavity (10212), and the opening hole (13) is communicated with the lower cavity (10212).

11. The food processing assembly according to claim 10, wherein the center of the partition plate (17) is provided with a knife loading hole, a track groove (14) is arranged around the edge of the knife loading hole and on one side of the partition plate (17) facing the upper cavity (10211), the knife locking block (20) is provided with a clamping portion, the clamping portion is clamped in the track groove (14), and the clamping portion can move along the extending direction of the track groove (14) along with the rotation of the knife locking block (20).

12. The food processing assembly according to claim 11, wherein the track groove (14) has a mounting opening (15), and the clamping portion comprises a hook (23), and the hook (23) can pass through the mounting opening (15) and be clamped in the track groove (14).

13. The food processing assembly according to claim 12, wherein the number of the mounting openings (15) is plural, the plural mounting openings (15) are arranged at intervals around the axial direction of the track groove (14), and each mounting opening (15) corresponds to one of the hooks (23).

14. A cooking apparatus, comprising the cooking assembly of any one of claims 1-13, further comprising a base (200), the cooking assembly (100) being mounted to the base (200).

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