CN217039821U - Stirring cup subassembly and cooking machine - Google Patents

Abstract

The application discloses stirring cup subassembly and cooking machine. The stirring cup assembly comprises a cup body assembly, a cutter holder assembly, a fixing piece, a locking piece and a moving piece. The fixing piece is arranged on the cup seat, and the tool apron component cannot be detached relative to the cup seat under the condition that the fixing piece is locked with the lock catch component; the locking piece is assembled on the cup seat and has a locking state and an unlocking state; in a locking state, the locking piece locks the moving piece so that the fixing piece and the lock catch assembly are locked; in the unlocking state, the moving piece moves relative to the cup seat to push the locking component, so that the locking component and the fixing piece are unlocked, and the cutter seat component is detachable. As set up above, even the maloperation, also difficult accomplish the retaining member simultaneously with the motion unblock and the motion is for the motion of cup, and then, even ensure under the maloperation condition, the blade holder subassembly is still locked, avoids the maloperation to lead to the blade holder subassembly removable and the potential safety hazard appears.

Description

Stirring cup subassembly and cooking machine

Technical Field

The application relates to the technical field of small household appliances, in particular to a stirring cup assembly and a food processor.

Background

The cooking machine comprises a stirring cup assembly and a host machine. The stirring cup assembly comprises a cup body assembly and a cutter holder assembly. The cup body component comprises a cup body and a cup seat. The cup holder can be assembled on the cup body. The tool apron component is assembled on the cup seat. The main machine comprises a motor, and the motor drives a knife assembly of the knife holder assembly to rotate in the cup body.

The blade holder subassembly detachable assembles in the cup, like this, under the circumstances that the blade holder subassembly was dismantled, can wash the inside and/or blade holder subassembly of cup, under the circumstances of blade holder subassembly equipment in the cup, the knife tackle spare of blade holder subassembly can be by motor drive to realize cooking machine's function.

However, there are situations where a malfunction results in a safety risk, for example, the locking assembly between the holder assembly and the cup assembly is inadvertently touched to unlock the holder assembly and the cup assembly.

SUMMERY OF THE UTILITY MODEL

The application aims to provide a stirring cup subassembly and cooking machine. The stirring cup assembly can not cause safety risk due to misoperation.

The present application provides a stirring cup subassembly. The stirring cup subassembly includes cup body component, blade holder subassembly, mounting, retaining member and motion piece. The fixing piece is arranged on the cup seat, and the tool apron component is not detachable relative to the cup seat under the condition that the fixing piece is locked with the lock catch component; the locking piece is assembled on the cup seat and has a locking state and an unlocking state; in the locking state, the locking piece locks the moving piece so that the fixing piece is locked with the locking buckle assembly; in the unlocking state, the moving piece moves relative to the cup seat to push the lock catch assembly, so that the lock catch assembly and the fixing piece are unlocked, and the cutter holder assembly is detachable. According to the arrangement, even if misoperation occurs, the locking member and the moving member are difficult to unlock and the moving member moves relative to the cup (for example, the locking member and the moving member are unlocked, but the misoperation causes the moving member to move relative to the cup hardly or impossible, so that the locking assembly and the fixing member are still in a locking state, and the tool apron assembly is not detachable).

Optionally, the fixing member is rotatably connected to the cup holder, the fixing member is of an annular structure and includes a penetrating portion, the fixing member is turned over relative to the cup holder in a first direction to be locked to the lock catch assembly and to press the tool apron assembly, and an upper clutch of the tool apron assembly is visible through the penetrating portion; under the condition that the matching buckle is unlocked by the lock buckle assembly, the fixing piece overturns relative to the cup seat towards a second direction opposite to the first direction, so that the tool apron assembly can be detached. According to the arrangement, as the fixing piece is rotationally connected with the cup base, the fixing piece is turned over relative to the cup base towards the first direction so that the fixing piece is locked with the lock catch assembly; the fixing piece is turned relative to the cup base towards a second direction opposite to the first direction under the condition that the lock catch assembly is unlocked, so that the tool apron assembly can be detached, and the tool apron assembly is convenient to detach and assemble.

Optionally, the moving part includes a limiting portion, the fixing part includes a fixing part body and a protruding portion protruding out of the fixing part body, in the locking state, the fixing part body compresses the tool apron assembly, the protruding portion is limited between the limiting portion and the cup holder, and the tool apron assembly is not detachable. As the arrangement, the limiting part is used for limiting the protruding part of the fixing part in the locking state, the reliability of the fixing part between the fixing part and the fixing part in the locking state of the locking part is increased, and the tool apron assembly is not easy to detach due to misoperation and the like.

Optionally, under the condition that the fixing part is locked with the latch assembly, the moving part limits the latch assembly to prevent the latch assembly from being unlocked with the fixing part. As set up above, through spacing to the hasp subassembly, increased the hasp subassembly under the locking state of retaining member with reliability between the mounting, the blade holder subassembly is difficult to appear removable condition because maloperation etc. more.

Optionally, the locking assembly comprises a rotating member and a rotating reset member; the rotating part is provided with a lock catch, the fixing part is provided with a matching buckle, after the matching buckle of the fixing part pushes the rotating part to rotate towards a third direction to push the lock catch, the rotating part bears the acting force of the rotating reset part to rotate towards a fourth direction opposite to the third direction, so that the lock catch is locked with the matching buckle, the rotating part is locked with the fixing part, and the locking of the lock catch component and the fixing part is realized; the moving piece limits the rotating piece to prevent the rotating piece from rotating towards a third direction, so that the lock catch and the matching buckle are unlocked, and the lock catch assembly and the fixing piece are unlocked. According to the arrangement, the fixing piece and the tool apron assembly are locked, the moving piece is limited to prevent the fixing piece and the tool apron assembly from being unlocked, misoperation is further prevented, safety is improved, in addition, the locking assembly adopting the structure is convenient to unlock or lock the locking assembly and the fixing piece, and the moving piece pushes the rotating piece to unlock the locking assembly and the fixing piece.

Optionally, the stirring cup assembly comprises a movement reset piece arranged on the cup seat; the moving piece moves towards a fifth direction relative to the cup seat and is pressed down to enable the moving piece to push the locking and buckling assembly to be unlocked with the fixing piece, and the moving reset piece deforms; and the moving part moves towards a sixth direction opposite to the fifth direction after the moving resetting part restores the natural state so as to reset to a position which can be locked by the locking part. According to the arrangement, the moving piece is further required to be pressed down to unlock the locking component and the fixing piece after moving towards the fifth direction, so that the locking piece is difficult to unlock, the moving piece moves towards the fifth direction and the moving piece is pressed down, and the reliability of avoiding misoperation is further enhanced.

Optionally, the locking assembly comprises a rotating member and a rotating reset member; the rotating part is provided with a lock catch, the fixed part is provided with a matching buckle, after the matching buckle of the fixed part pushes the rotating part to rotate towards a third direction to push away the lock catch, the rotating part bears the acting force of the rotating reset part and rotates towards a fourth direction opposite to the third direction, so that the lock catch is locked with the matching buckle, and the rotating part is locked with the fixed part; under the condition that the moving piece is pressed down, the moving piece pushes the rotating piece, so that the rotating piece rotates towards the third direction, the lock catch and the matching buckle are unlocked, and the lock catch assembly and the fixing piece are unlocked. So set up, owing to through the mounting, rotate the cooperation that piece and rotation reset and realize the mounting with the locking of hasp subassembly, and, through the motion piece rotate the cooperation that piece and rotation reset and realize the mounting with the unblock of hasp subassembly, from this, the unblock and the locking of blade holder subassembly are all very simple, and the operation is also convenient, especially as before the mode of mounting upset makes the locking and the unblock of blade holder subassembly simpler, and the operation is also simpler.

Optionally, the catch assembly further comprises a transmission; the transmission part is arranged on the cup seat and can reset under the action of the movement resetting part; under the condition that the moving part is pressed down, the moving part pushes the transmission part, and the transmission part pushes the rotating part to unlock the lock catch and the matching buckle and deform the moving resetting part. Above-mentioned setting, through the cup setting the driving medium, and the driving medium can reset under the effect that the piece resets in the motion, like this, can improve the motion with the motion resets the reliability of complex between the piece etc. for example, driving medium and the integrative setting of motion piece, the driving medium must can be along with the motion piece moves together, in the motion process can possibly and motion reset between the piece friction etc. wear and tear the motion and reset the piece or change the motion and reset the position of piece and lead to it can not realize and reset after the motion piece is pressed, lead to the reliability to hang down. After the transmission part is arranged on the cup base, the transmission part cannot move, and the movement reset part cannot be abraded, so that the reliability is low.

Optionally, the cup holder includes a support wall, the moving member is in contact with the support wall and is pressed down along the support wall to push the latch assembly, or is reset along the support wall under the action of the moving reset member, or one end of the moving member is rotatably connected with the cup holder, and the other end of the moving member is pressed down along the support wall to push the latch assembly, or the other end of the moving member is reset along the support wall under the action of the moving reset member. According to the arrangement, the moving part is pressed down or reset along the abutting wall, so that the matching precision of the moving part and the lock catch assembly is improved.

Optionally, the moving member includes a first receiving hole; the locking piece is a gravity lock and comprises a first insertion part; under the condition that the stirring cup assembly is placed right, the first inserting part is inserted into the first accommodating hole so as to realize locking of the locking piece and the moving piece; under the condition that the stirring cup assembly is placed upside down, the first inserting portion is separated from the first accommodating hole, so that the locking piece and the moving piece are unlocked. According to the above arrangement, the retaining member adopts the gravity lock, only need just put the stirring cup subassembly and can realize that the moving part can not remove, and the blade holder subassembly can not be dismantled, and under the condition that the stirring cup subassembly was put upside down, because the action of gravity, the automatic unblock of moving part and retaining member (gravity lock), accord with operator's operation custom, and the unblock and the locking of moving part and retaining member are convenient, in addition, the gravity lock with the moving part combines together, realizes the removable purpose of a key more easily.

Optionally, the moving part includes a second receiving hole communicating with the first receiving hole, the second receiving hole extending along a circumferential direction of the cup base and being smaller than the first receiving hole; the locker includes a second insertion portion smaller than the first insertion portion, and the second insertion portion moves along the second receiving hole during the movement of the moving member. With the above arrangement, the second insertion portion moves along the second receiving hole, so that the movement of the moving member relative to the locking member (gravity lock) can be guided, and finally the first receiving hole and the first insertion portion are aligned in the vertical direction, and the locking or unlocking of the first insertion portion of the locking member (gravity lock) to or from the first receiving hole under the action of gravity is more accurate.

On the other hand, the embodiment of the application discloses a food processor. The cooking machine includes host computer and aforementioned any one stirring cup subassembly, the host computer includes the motor, motor drive the knife tackle spare of blade holder subassembly rotates. So set up, the cooking machine has at least the beneficial effect of stirring cup subassembly is no longer repeated.

Optionally, the moving part is provided with a detected part, the fixing part, the tool apron assembly or the cup holder is provided with a detection part, the food processor includes a controller, the moving part moves in a fifth direction to push the latch assembly, the detection part generates a detection signal when the moving part moves to a preset position in a sixth direction opposite to the fifth direction, and the controller receives the detection signal to control the food processor to operate; in the preset position, the moving part can be locked by the locking part; otherwise, the food processor is controlled not to work or to send out a prompt signal. As the arrangement is adopted, the locking of the fixing piece and the lock catch assembly can be known exactly through the matching of the detecting piece and the detected piece, whether the moving member is returned to a position where it can be locked by the locking member is further ensured to prevent erroneous operation, because the moving member moves relative to the cup holder, it may be possible for the consumer to lose the position of the moving member due to carelessness, after the fixing piece is locked with the locking assembly, the moving piece is enabled to return to the position which can be locked by the locking piece without operating the moving piece, so that the matching of the moving piece and the locking piece and the like cannot play a role of preventing misoperation, and the detecting piece and the detected piece are arranged, when the moving piece does not return to the position where the moving piece can be locked by the locking piece, the food processor is controlled not to work or a warning signal is sent out, and under the state, and then operating the moving part to ensure that the matching of the moving part and the locking part and the like plays a role of preventing misoperation.

Drawings

FIG. 1 is an exploded view of a blender cup assembly, shown in an inverted position with portions broken away, according to embodiments of the present application;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a partial cross-sectional view of the blender cup assembly shown in FIG. 1 in an inverted position;

FIG. 4 is a partial cross-sectional view of the blender cup assembly shown in FIG. 1 in a right side elevational configuration;

fig. 5 is a schematic view illustrating a first type of moving member, a locking member, and a first type of restraining plate according to an embodiment of the present application;

fig. 6 is a schematic view illustrating a second moving member, a locking member, and a second restricting plate according to an embodiment of the present application;

fig. 7 is a bottom view of the cup holder assembly when the tool holder assembly and the cup holder assembly are in an inverted state according to the embodiment of the present application, illustrating that the fixing member is locked by the moving member;

fig. 8 is an enlarged view of portion B of fig. 7;

FIG. 9 is a cross-sectional view taken along line A-A of FIG. 7;

FIG. 10 is an enlarged view of portion C of FIG. 9;

fig. 11 is a schematic view showing an assembly of the tool holder assembly and the cup holder, etc., in an upside-down state according to the embodiment of the present application, showing that the fixing member is not locked by the moving member;

FIG. 12 is an enlarged view of portion D of FIG. 11;

FIG. 13 is a cross-sectional view taken along line B-B of FIG. 11;

fig. 14 is an enlarged view of portion E of fig. 13;

fig. 15 is a cross-sectional view of an assembly of the holder assembly and a cup holder, etc., in an inverted state, showing the fixing member in an unlocked state and the holder assembly being detachable, according to an embodiment of the present application;

fig. 16 is an enlarged view of portion F in fig. 15.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of devices consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The terms "first," "second," and the like, as used in the description and in the claims, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. Unless otherwise indicated, "front," "back," "lower," and/or "upper," and the like are for convenience of description, and are not limited to one position or one spatial orientation. The word "comprising" or "comprises", and the like, means that the element or item listed after "comprises" or "comprising" is inclusive of the element or item listed after "comprising" or "comprises", and the equivalent thereof, and does not exclude additional elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, an embodiment of the present application discloses a blending cup assembly. The stirring cup component comprises a cup body component 1, a tool apron component 2, a fixing component 3, a locking component 4 and a moving component 5. The cup assembly 1 includes a cup holder 11 and a catch assembly 12. The fixing member 3 is disposed on the cup holder 11. In various embodiments of the present application, the cup holder 11 is a generic term for a component located at the bottom of the cup 13 of the cup assembly 1, and includes at least a first component for mounting the tool holder assembly 2 and a second component for mounting the fixing member 3; or may be a single component that includes a mounting for the blade holder assembly 2 and the fixing member 3. For example, in the embodiment of the present application, the cup holder 11 includes a cup holder body for mounting the fixing member 3 and the moving member 5, a limiting plate 110 assembled to the cup holder body, and the like, and in some cases, the cup holder 11 also includes a cup holder liner. The cup holder 11 can be assembled with the cup body 13 by a screw connection or the like. The fixing member 3 is disposed on the cup holder 11, which includes the following conditions: the cup holder 11 comprises a connection member which is connected to the cup body 13 such that the fixing member 3 is connected to the bottom of the cup body 13. With the fixing member 3 locked with the lock catch assembly 12, the tool holder assembly 2 is not detachable with respect to the cup holder 11. The present application is intended to prevent the tool holder assembly 2 from being disassembled while being assembled to the cup holder 11 due to a malfunction or the like. Therefore, the structures of the locking assembly 12 and the fixing element 3 are not limited, and the following objectives can be achieved, and in the following description, the locking assembly 12 includes the locking device 1212 and the fixing element 3 includes the mating device 32 as an example: the holder unit 2 is detachable from the cup holder 11 when cleaning is necessary, and can be assembled to the cup holder 11 after cleaning (referred to as non-detachable in the art, but may be detached even in the case of an erroneous operation or the like).

The retaining member 4 is assembled to the cup holder 11. The structure by which the retaining member 4 is assembled to the cup holder 11 is not limited. The locking member 4 has a locked state and an unlocked state. In the locked state, the moving member 5 locks the fixing member. In the unlocked state, the moving member 5 moves relative to the cup holder 11 to push the lock catch assembly 12, so that the lock catch assembly 12 is unlocked from the fixing member 3, and the tool holder assembly 2 is detachable. How the moving element 5 moves can be in various forms, for example, a linear motion or a circumferential motion along the cup holder 11, and in the embodiment of the present application, referring to fig. 5, 10, 9, 14, 13, 16, 15, the cup holder 11 is provided with a guide rail 112, and more specifically, the limiting plate 110 provided on the cup holder 11 is provided with a guide rail 112. The mover 5 is provided with a guide groove 55. Of course, the skilled person will understand that it is also possible to provide the guide rail 112 for the moving element 5 and the guide slot 55 for the cup holder 11. The guide rail 112 is located in the guide groove 55 so that the mover 5 can move along the circumferential direction of the cup holder 11. In the embodiment shown in fig. 6, the limiting plate 110 is provided with a chute 1101 extending along the length direction of the limiting plate 110, and the mover 5 is provided with a pivot 511. The movement of the pivot 511 in the sliding slot 1101 achieves the circumferential movement of the mover 5 along the cup holder 11. The structure for guiding the mover 5 is limited to the aforementioned structure.

Hereinafter, the assembling and disassembling process of the tool apron assembly 2 of the stirring cup assembly 10 will be described in detail with reference to the accompanying drawings, and particularly, how to prevent the tool apron assembly 2 from being disassembled in case of misoperation.

Referring to fig. 4, in the locking state of the locking member 4, the locking member 4 is locked with the moving member 5. It should be noted that, in the present application, the locking member 4 is a gravity lock, so that, in the case that the stirring cup assembly is placed right, the locking member 4 has a locking state, and in the case that the stirring cup assembly is placed upside down, the locking member 4 has an unlocking state. The skilled person will appreciate that in the case of other configurations of the retaining member 4, it is possible that the retaining member 4 has a retaining state, whether it is being placed or inverted, and that the retaining member 4, when operated, is transferred from the retaining state to the release state.

Referring to fig. 3, 7, 8, 11, 12, 15 and 16 in combination with fig. 9, 10, 13 and 14, the moving member 5 can move when the locking member 4 is in the unlocked state, referring to fig. 7 and 8, in the state corresponding to fig. 7 and 8, the moving member 5 moves along an arrow R1 to the position shown in fig. 11 and 12, and then, as shown in fig. 15 and 16, the moving member 5 is pressed downward, and the moving member 5 pushes the locking member 12, so that the locking 1212 is unlocked from the mating locking 32. With the latch 1212 unlocked from the mating latch 32, the blade holder assembly 2 is removable, allowing the blade holder assembly 2 to be removed for cleaning, cleaning the inside of the cup 13, and so on.

It should be noted that, although the process of removing the tool holder assembly 2 is described with reference to the aforementioned drawings, the removal of the tool holder assembly 2 is not limited to the above-described structure or manner.

The process of locking the cartridge assembly 2 is described continuously below, with reference to the states illustrated in the drawings.

After the inside of the tool apron component 2 and/or the cup body 13 is cleaned, the tool apron component 2 is assembled on the cup seat 11, then the fixing piece 3 is locked with the locking component 12, and at the moment, the tool apron component 2 cannot be disassembled (the non-disassembly means that the tool apron component 2 can still be disassembled under the condition of misoperation in the industry, or only one protection can be carried out to ensure that the tool apron component 2 can be disassembled); then, the moving member 5 is moved in the direction of R2 in fig. 11 and 12 to the state shown in fig. 7 and 8, in which the moving member 5 is locked by the locking member 4, of course, corresponding to the case where the locking member 4 is a gravity lock, in which case the locking member (i.e., gravity lock) can lock the moving member 5 by gravity, in the state where the stirring cup assembly is placed upright, and an embodiment in which the locking member 4 locks the moving member 5 by gravity is described later.

With the above arrangement, even if the misoperation is performed, it is difficult to unlock the locking member and the moving member and move the moving member relative to the cup holder (for example, the locking member and the moving member are unlocked, but the misoperation is difficult or impossible to move the moving member relative to the cup holder, so that the locking assembly and the fixing member are still in the locking state, and the tool holder assembly 2 is not detachable), and further, even if the misoperation is performed, the tool holder assembly 2 is still locked, and the situation that the tool holder assembly 2 is detached due to the misoperation and potential safety hazards are caused is avoided.

Referring to fig. 15 and 16 in combination with fig. 7 and 11 and fig. 9 and 13, the fixing member 3 is rotatably connected to the cup holder 11, and how to rotatably connect the fixing member 3 is not limited, for example, in fig. 15, 9 and 16, the fixing member 3 is rotatably connected through a rotating shaft 33. Of course, in order to facilitate the opening of the fixing member 3, a combination of the rotating shaft 33 and the torsion spring 34 may be used, and the fixing member 3 is automatically turned over under the condition of being unlocked from the latch assembly 12 by the elastic force of the torsion spring 34. In the case of the embodiment shown in the figures, which does not use a torsion spring 34, it is necessary to turn the fixing member 3 manually. The fixing member 3 has a ring-shaped structure and includes a penetrating portion 301. The fixing member 3 is turned in a first direction relative to the cup holder 11 to lock with the locking assembly 12 and press the tool holder assembly 2, and the upper clutch 21 of the tool holder assembly 2 is visible through the through part 301; the fixing member is turned over relative to the cup holder 11 in a second direction opposite to the first direction under the condition of unlocking with the lock catch assembly 12, so that the tool holder assembly 2 can be detached. The upper clutch 21 can be connected with the lower clutch on the main machine through the penetrating part 301, so that the stirring blade of the blade holder assembly 2 rotates. The shape of the penetrating portion 301 is not limited to the circular shape as shown in the drawing, and may be other shapes including irregular shapes as long as the upper clutch 21 can be connected to the lower clutch on the main unit through the penetrating portion 301. For example, the penetrating portion 301 may be such that the fixing member 3 is a press ring. Any structure can be used for how the fixing member 3 is locked with the locking assembly 12. As follows, one structure of the fixing member 3 is described.

The fixing piece 3 comprises a fixing piece body 30 and a matching buckle 32; the penetrating portion 301 penetrates the fixing body 30 so that the fixing 3 is in a ring shape. The fixture 3, such as a press ring, is provided with a mating buckle 32. The fixture 3 (e.g., a press ring) is flipped in a first direction relative to the cup holder 11 to lock the mating buckle 32 to the latch assembly 12. in fig. 15 and 16, the fixture 3 is locked to the latch assembly 12 by the locking buckle 1212 and the mating buckle 32. When the mating buckle 32 of the fixing member 3 is unlocked from the locking buckle assembly 12, the fixing member 3 can be turned relative to the cup holder 11 in a second direction opposite to the first direction, so as to enable the tool holder assembly 2 to be detached.

The skilled person will appreciate that the turning is performed in a vertical plane, in some embodiments, the fixing member 3 may be rotated in a first direction in a horizontal plane to lock with the locking assembly 12 instead of using a press ring, and in case the fixing member 3 is unlocked from the locking assembly 12, the fixing member 3 may be rotated in a second direction opposite to the first direction to enable the tool holder assembly 2 to be detached. Even, other locking and unlocking modes can be adopted between the fixing piece 3 and the cup seat 11.

As set forth above, since the fixing member 3 is rotatably connected to the cup holder 11, the fixing member 3 is turned over relative to the cup holder 11 in a first direction to lock the fixing member 3 to the locking assembly 12; the fixing member 3 is turned over relative to the cup holder 11 in a second direction opposite to the first direction under the condition that the locking assembly 12 is unlocked, so that the tool apron assembly 2 can be disassembled, and the tool apron assembly 2 is convenient to disassemble and assemble.

Referring to fig. 2, 3, 5 and 6, the moving element 5 includes a limiting portion 51. Referring to fig. 15, the fixing member 3 includes a protrusion 31 protruding from the fixing member body 30. Referring to fig. 7 and 8 in combination with fig. 9 and 10 and comparing fig. 11, 12, 13 and 14, in fig. 7 to 10, in the locked state, the fixing member body 30 presses the tool holder assembly 2, and the protruding portion 31 is limited between the limiting portion 51 and the cup holder 11. After the moving member 5 moves along the arrow R1, as shown in fig. 11 to 14, the protruding portion 31 is not limited by the limiting portion 51.

As set forth above, since the limiting portion 51 limits the protruding portion 31 of the fixing member 3 in the locked state, the reliability between the fixing member 3 and the fixing member 3 in the locked state of the locking member 4 is increased, and the tool apron assembly 2 is less prone to be detached due to misoperation and the like.

The locking assembly 12 and the fixing member 3 can be locked or unlocked, the above-mentioned manner of setting the limiting portion 51 and the protruding portion 31 to cooperate is to limit the fixing member 3 so that the fixing member 3 and the locking assembly 12 cannot be unlocked, and a skilled person can understand that, in another embodiment, the locking assembly 12 can also be limited to realize that the locking assembly 12 and the fixing member 3 cannot be unlocked, and more specifically, in the case that the fixing member 3 and the locking assembly 12 are locked, the moving member 5 limits the locking assembly 12 to prevent the locking assembly 12 and the fixing member 3 from being unlocked. As set forth above, through spacing hasp subassembly 12, increased hasp subassembly 12 under the locking state of retaining member 4 with reliability between the mounting 3, the blade holder subassembly 2 is difficult to appear removable condition because maloperation etc. more.

Referring to fig. 2, 10, 9, 14, 13, 16 and 15, the latch assembly 12 includes a rotating member 121 and a rotating reset member 122. The rotating member 121 is provided with a lock 1212. The fixing member 3 is provided with a mating buckle 32. After the matching buckle 32 of the fixed part 3 pushes the rotating part 121 to rotate in a third direction (the third direction is clockwise in fig. 10 and 14) to push away the lock 1212, the rotating part 121 bears the acting force of the rotating reset part 122 and rotates in a fourth direction (the fourth direction is counterclockwise in fig. 10 and 14) opposite to the third direction, so that the lock 1212 is locked with the matching buckle 32, the rotating part 121 is locked with the fixed part 3, and the locking of the lock buckle assembly 12 and the fixed part 3 is realized. The moving element 5 limits the rotating element 121 to prevent the rotating element 121 from rotating in the third direction, so that the locking button 1212 and the mating button 32 are unlocked, and the locking button assembly 12 and the fixing element 3 are unlocked. How to limit the position has various implementations, in one implementation, referring to fig. 9 and 10 in combination with fig. 5 and 6, the moving element 5 includes a limiting portion 51, and the limiting portion 51 limits the rotating element 121. According to the arrangement, under the condition that the fixing piece 3 is locked with the tool apron assembly 2, the moving piece 5 limits the rotating piece 121 of the locking component 12 to prevent the fixing piece 3 from being unlocked with the tool apron assembly 2, misoperation is further prevented, safety is improved, in addition, the locking component 12 adopting the structure is also convenient for unlocking or locking the locking component 12 and the fixing piece 3, and the moving piece 5 pushes the rotating piece 121 to unlock the locking component 12 and the fixing piece 3.

Referring to fig. 2 in combination with fig. 1 and 10 in combination with fig. 9 and 14 in combination with fig. 13 and 16 in combination with fig. 15, the stirring cup assembly includes a movement returning member 6 disposed on the cup base 11. The moving member 5 moves in a fifth direction (i.e., in the direction of the arrow R1 in the drawing) relative to the cup holder 11, and comparing fig. 7 to 10 with fig. 11 to 14, fig. 7 to 10 illustrate a state before the moving member 5 is not moved, and fig. 11 to 14 illustrate a state after the moving member 5 moves in the fifth direction. In the state shown in fig. 11 to 14, the moving element 5 is pressed down, so that the moving element 5 pushes the locking assembly 12 to unlock from the fixed element 3, and the moving resetting element 6 is deformed. Fig. 15 and 16 show that, when the movable element 5 is pressed down, the movement restoring element 6 is deformed, which in the present embodiment is a compression of the movement restoring element 6. After the pressing is finished, the moving resetting piece 6 restores to the natural state, the moving piece 5 resets, and then the moving piece 5 moves towards the sixth direction opposite to the fifth direction after the moving resetting piece 6 restores to the natural state to be reset to a position where the locking piece 4 can lock, for example, a position where the first receiving hole 53 is aligned with the first inserting portion 41. In the case where the limiting portion 51 is provided and the fixing member 3 is locked to the cup holder 11, the moving member 5 can limit the protruding portion 31 after being reset.

With the above arrangement, since the moving member 5 needs to be pressed down after moving in the fifth direction to unlock the locking assembly 12 and the fixing member 3, it is difficult to simultaneously unlock the locking member 4, move the moving member 5 in the fifth direction, and press the moving member 5, thereby further enhancing the reliability of avoiding malfunction.

Although the above describes an embodiment of the blender cup assembly by taking the example of the moving member 5 being pressed down, it can be understood by the skilled person that in case of less reliability requirements than the above embodiment, the moving member 5 may not be pressed down, that is, the moving member 5 is unlocked in the fifth direction and can be locked by the locking member 4 after being returned to the sixth direction. Further, based on the function of the moving return member 6 in the above embodiment, the moving return member 6 may be a spring or the like.

Referring to fig. 2, 10, 14, 13, 16 and 15, the latch assembly 12 includes a rotating member 121, a rotating reset member 122 and a transmission member 123. The rotating member 121 is provided with a lock 1212. The fixing member 3 is provided with a mating buckle 32. After the engaging button 32 of the fixed part 3 pushes the rotating part 121 to rotate in a third direction (the third direction is clockwise in fig. 10 and 14) and push away the locking button 1212, the rotating part 121 bears the acting force of the rotating reset part 122 and moves in a fourth direction (the fourth direction is counterclockwise in fig. 10 and 14) opposite to the third direction, the locking button 1212 and the engaging button 32 are locked by rotation, and the rotating part 121 is locked with the fixed part 3. The rotary return member 122 is a torsion spring in the illustrated embodiment, and based on the function of the rotary return member 122, a skilled person will understand that an elastic member such as an elastic rubber or other spring may be used. The driving medium 123 set up in the cup 11 can reset under the effect of the piece 6 that resets of motion the motion 5 is under the circumstances of being pressed, motion 5 promotes the driving medium 123, the driving medium 123 makes and moves the rotation piece 121 court the third direction is rotated, the hasp 1212 with the unblock of cooperation knot 32, rotate the piece 121 with the mounting 3 unblock realizes the hasp subassembly 12 with the mounting 3 unblock. As set forth above, by providing the transmission member 123 on the cup holder 11, and the transmission member 123 can be reset under the action of the moving resetting member 6, the reliability of the cooperation between the moving member 5 and the moving resetting member 6 can be improved, for example, the transmission member 123 and the moving member 5 are integrally provided, and the moving member 5 can move along the direction R1 or R2, and the transmission member 123 will necessarily move along with the moving member 5, and may rub against the moving resetting member 6 during the movement process, etc., and wear the moving resetting member 6 or change the position of the moving resetting member 6, so that it cannot be reset after the moving member 5 is pressed, resulting in low reliability. After the transmission member 123 is disposed on the cup holder 11, the transmission member 123 does not move the moving element 5, and the moving reset element 6 is not worn to cause low reliability.

Although the above description has been given by way of example of the locking assembly 12 including the rotating member 121, the rotating return member 122 and the transmission member 123, it will be understood by those skilled in the art that in some embodiments, the locking assembly 12 does not include the transmission member 123, but includes at least the rotating member 121 and the rotating return member 122. So set up, because through the fixed part, rotate the piece 121 and rotate the cooperation that resets 122 and realize the fixed part 3 with the locking of hasp subassembly 12, and, through the motion piece 5, the cooperation that rotates the piece 121 and rotate the piece 122 that resets realizes the fixed part 3 with the unblock of hasp subassembly 12, from this, the unblock of blade holder subassembly 2 is all very simple with the locking, and the operation is also convenient, especially as before the mode of fixed part 3 upset makes the locking and the unblock of blade holder subassembly 2 simpler, and the operation is also simpler.

As for how the moving member 5 is pressed, there are various implementations, and as follows, the pressing manner adopted in the embodiment of the present application is described with reference to the drawings.

Referring to fig. 5 and 3, the cup holder 11 includes an abutment wall 111. In the embodiment of the present application, the cup holder 11 includes the stopper plate 110. The abutting wall 111 is disposed on the limiting plate 110. The skilled person will appreciate that in some cases, the retainer plate 110 may be integrally formed with the cup holder 11. Referring to fig. 14 and 16 in combination with fig. 13, 15 and 13, the moving element 5 contacts the abutting wall 111, and comparing fig. 14 and 16, the moving element 5 is pressed down along the abutting wall 111 to push the locking assembly 12 (the embodiment in the figure pushes the rotating element 121), or is reset along the abutting wall 111 under the action of the moving resetting element 6. Pushing the rotating member 121 includes indirect pushing and direct pushing, and pushing the transmission member 123 to push the rotating member 121 belongs to indirect pushing.

Referring to fig. 6, in another embodiment, one end of the moving element 5 is rotatably connected to the cup holder 11, and the rotatable connection may be in various forms, for example, in fig. 6, the limiting plate 110 is provided with a sliding slot 1101 extending along the length direction of the limiting plate 110, and the moving element 5 is provided with a pivot 511. The pivot 511 is located within the chute 1101 to effect the rotational connection. The other end of the moving element 5 is pushed down and moves along the abutting wall 111 to push the latch assembly 12 (in the embodiment shown, the rotating element 121) or the other end is reset under the action of the moving reset element.

As set forth above, since the mover 5 is pressed or reset along the abutting wall 111, the accuracy of the engagement of the mover 5 with the latch assembly 12 is improved, compared to the case where the mover 5 is pressed or reset entirely, the accuracy of the engagement with the latch assembly 12 is better.

Referring to fig. 2, 5, and 6 in conjunction with fig. 3 and 4, the moving member 5 includes a first receiving hole 53; the retaining member 4 is a gravity lock and includes a first insertion portion 41. Referring to fig. 4 in combination with fig. 5, 6 and 2, in the state that the stirring cup assembly 10 is placed right, the first insertion portion 41 is inserted into the first receiving hole 53 due to gravity, so that the moving member 5 cannot move to push the latch assembly 12 because of the blocking of the first insertion portion 41, the latch assembly 12 and the fixing member 3 cannot be unlocked, and the tool apron assembly 2 cannot be detached.

Referring to fig. 3, fig. 2, fig. 5 and fig. 6 in combination with fig. 2, when the blending cup assembly 10 is placed upside down, the first inserting portion 41 of the locking member 4 is separated from the first receiving hole 53 due to gravity, and comparing fig. 5 and fig. 4 or fig. 6 and fig. 4, after separation, the moving member 5 can move to push the locking member 12, so that the locking member 12 and the fixing member 3 are unlocked (how the moving member 5 moves and unlocks are not described again), so as to unlock the fixing member 3 and the locking member 12, and the tool apron assembly 2 can be detached.

As set up above, retaining member 4 adopts the gravity lock, only need just putting stirring cup subassembly 10 and can realizing that motion 5 can not remove, and blade holder subassembly 2 can not be dismantled, under the condition that stirring cup subassembly 10 was put upside down, because the action of gravity, motion 5 and retaining member 4 (gravity lock) automatic unlocking accord with operator's operation custom, and the unblock and the locking of motion 5 and retaining member 4 are convenient, in addition, the gravity lock with motion 5 combines together, realizes the removable purpose of a key more easily.

With continued reference to fig. 5, 6 and 2 in conjunction with fig. 3 and 4, in some embodiments, the moving element 5 includes a second receiving hole 54 communicating with the first receiving hole 53, and the second receiving hole 54 extends along a circumferential direction of the cup holder 11 and is smaller than the first receiving hole 53. The locking member 4 includes a second insertion portion 42 that is smaller than the first insertion portion 41, and the second insertion portion 42 moves along the second receiving hole 54 during the process of making the blade holder assembly 2 removable or non-removable, that is, during the movement of the moving member 5 in the R1 direction, or during the movement of the moving member 5 in the R2 direction. As set forth above, the movement of the second insertion portion 42 along the second receiving hole 54 can guide the movement of the moving member 5 relative to the locking member 4 (gravity lock), and finally, the first receiving hole 53 and the first insertion portion 41 are aligned in the vertical direction, and the locking or unlocking of the first insertion portion 41 of the locking member 4 (gravity lock) to or from the first receiving hole 53 by gravity is more accurate.

In another aspect, an embodiment of the present application discloses a food processor. The cooking machine includes host computer and aforementioned any one stirring cup subassembly, the host computer includes the motor, motor drive the knife tackle spare of blade holder subassembly rotates. So set up, the cooking machine has at least the beneficial effect of stirring cup subassembly is no longer repeated.

In an embodiment, motion 5 is provided with and is detected the piece, mounting 3 perhaps blade holder subassembly 2 perhaps cup 11 is provided with the detection piece, the cooking machine includes the controller, motion 5 moves in order to promote towards fifth direction the locking part 12, the detection piece is in motion 5 towards with the sixth opposite direction of fifth direction moves to the condition of presetting the position under, produces the detected signal, the controller is received the detected signal control cooking machine work, otherwise, control the cooking machine is out of work or sends alarm signal. The preset position is a position where the moving member 5 can be locked by the locking member 4, for example, a position where the first insertion portion 41 is aligned with the first receiving hole 53 in the case where the locking member 4 is locked by gravity. In the case where the stopper portion 51 and the protruding portion 31 are provided, the predetermined position may be a position where the protruding portion 31 is stopped between the stopper portion 51 and the cup holder 11. The detecting member and the detected member are not limited, and for example, a combination of a reed switch and a magnet may be used.

With the above arrangement, since the matching between the detecting member and the detected member can be known with certainty whether the fixing member 3 is locked with the locking assembly 12 and the moving member 5 returns to the position where the locking member 4 can lock, so as to further ensure the prevention of the misoperation, because the moving member 5 moves relative to the cup holder 11, it is possible that a consumer does not operate the moving member 5 to return to the position where the locking member 4 can lock after the fixing member 3 is locked with the locking assembly 12 because of carelessness, so that the matching between the moving member 5 and the locking member 4 cannot prevent the misoperation, and by providing the detecting member and the detected member, when the moving member 5 does not return to the position where the locking member 4 can lock, the food processor is controlled or a warning signal is sent out, and in this state, then, the moving member 5 is operated so that the cooperation of the moving member 5 with the locking member 4 and the like functions to prevent an erroneous operation.

The above description is only a preferred embodiment of the present application and should not be taken as limiting the present application, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (13)

1. The utility model provides a stirring cup subassembly, its characterized in that includes cup body component (1), blade holder subassembly (2), mounting (3), retaining member (4) and motion piece (5), wherein:

the cup body assembly (1) comprises a cup seat (11) and a lock catch assembly (12), the fixing piece (3) is arranged on the cup seat (11), and the tool apron assembly (2) cannot be detached relative to the cup seat (11) under the condition that the fixing piece (3) is locked with the lock catch assembly (12);

the locking piece (4) is assembled on the cup seat (11) and has a locking state and an unlocking state; in the locking state, the locking piece (4) locks the moving piece (5) so that the fixing piece (3) is locked with the locking buckle assembly (12); in the unlocking state, the moving piece (5) moves relative to the cup seat (11) to push the lock catch assembly (12), so that the lock catch assembly (12) is unlocked with the fixing piece (3), and the tool apron assembly (2) can be detached.

2. The stirring cup assembly according to claim 1, wherein the fixing member (3) is rotatably connected with the cup holder (11), the fixing member (3) is of a ring-shaped structure and comprises a through part (301), the fixing member (3) is turned towards a first direction relative to the cup holder (11) to be locked with the locking buckle assembly (12) and press the tool holder assembly (2), and the upper clutch (21) of the tool holder assembly (2) is visible through the through part (301); the fixing piece (3) is turned relative to the cup seat (11) towards a second direction opposite to the first direction under the condition that the locking buckle component (12) is unlocked, so that the tool apron component (2) can be detached.

3. The blending cup assembly according to claim 1, wherein the moving member (5) comprises a limiting portion (51), the fixing member (3) comprises a fixing member body (30) and a protruding portion (31) protruding from the fixing member body (30), in the locked state, the fixing member body (30) compresses the tool apron assembly (2), the protruding portion (31) is limited between the limiting portion (51) and the cup holder (11), and the tool apron assembly (2) is not detachable.

4. The blending cup assembly according to claim 1, wherein the moving member (5) limits the locking assembly (12) to prevent the locking assembly (12) from being unlocked from the fixing member (3) under the condition that the fixing member (3) is locked with the locking assembly (12).

5. The blending cup assembly of claim 4, wherein the latch assembly (12) comprises a rotatable member (121) and a rotatable reset member (122);

the rotating part (121) is provided with a lock catch (1212), the fixing part (3) is provided with a matching buckle (32), after the matching buckle (32) of the fixing part (3) pushes the rotating part (121) to rotate towards a third direction to push away the lock catch (1212), the rotating part (121) bears the acting force of the rotating reset part (122) and rotates towards a fourth direction opposite to the third direction, so that the lock catch (1212) is locked with the matching buckle (32), the rotating part (121) is locked with the fixing part (3), and the locking buckle assembly (12) is locked with the fixing part (3);

the moving piece (5) limits the rotating piece (121) to prevent the rotating piece (121) from rotating towards a third direction, so that a lock catch (1212) and the matching buckle (32) are unlocked.

6. A blender cup assembly as claimed in claim 1, wherein said blender cup assembly comprises a moving reset element (6) provided to said cup holder (11);

the moving part (5) moves towards a fifth direction relative to the cup seat (11) and is pressed down, so that the moving part (5) pushes the lock catch assembly (12) to be unlocked from the fixed part (3), and the moving resetting part (6) deforms;

and the moving part (5) moves towards a sixth direction opposite to the fifth direction after the moving resetting part (6) restores the natural state so as to reset to a position which can be locked by the locking part (4).

7. The blending cup assembly of claim 6, wherein said latch assembly (12) comprises a rotatable member (121) and a rotatable reset member (122);

the rotating part (121) is provided with a lock catch (1212), the fixing part (3) is provided with a matching buckle (32), after the matching buckle (32) of the fixing part (3) pushes the rotating part (121) to rotate towards a third direction to push away the lock catch (1212), the rotating part (121) bears the acting force of the rotating reset part (122) and rotates towards a fourth direction opposite to the third direction, so that the lock catch (1212) is locked with the matching buckle (32), and the rotating part (121) is locked with the fixing part (3);

when the moving piece (5) is pressed down, the moving piece (5) pushes the rotating piece (121), so that the rotating piece (121) rotates towards the third direction, the lock catch (1212) and the matching buckle (32) are unlocked, and the lock catch assembly (12) and the fixed piece (3) are unlocked.

8. The blending cup assembly of claim 7, wherein the latch assembly (12) further comprises a transmission member (123); the transmission piece (123) is arranged on the cup base (11) and can reset under the action of the movement resetting piece (6); under the condition that the moving piece (5) is pressed down, the moving piece (5) pushes the transmission piece (123), and the transmission piece (123) pushes the rotating piece (121) to unlock the lock catch (1212) and the matching buckle (32) and deform the moving resetting piece (6).

9. The assembly according to claim 6, characterized in that said cup seat (11) comprises an abutment wall (111), said mobile element (5) being in contact with said abutment wall (111), being pressed along said abutment wall (111) in its entirety to push said latch assembly (12), or being restored along said abutment wall (111) in its entirety by said mobile restoring element (6);

or one end of the moving piece (5) is rotatably connected with the cup seat (11), the other end of the moving piece (5) is pressed down to move along the abutting wall (111) to push the lock catch assembly (12), or the other end of the moving piece (5) is reset along the abutting wall (111) under the action of the moving resetting piece (6).

10. A blender cup assembly as claimed in claim 1, characterized in that said moving element (5) comprises a first receiving hole (53); the locking piece (4) is a gravity lock and comprises a first insertion part (41);

under the condition that the stirring cup assembly is placed right, the first insertion part (41) is inserted into the first accommodating hole (53) so as to realize the locking of the locking piece (4) and the moving piece (5);

under the condition that the stirring cup assembly is placed upside down, the first inserting portion (41) is separated from the first accommodating hole (53) so as to unlock the locking piece (4) and the moving piece (5).

11. The mixing cup assembly according to claim 10, characterised in that the moving element (5) comprises a second receiving hole (54) communicating with the first receiving hole (53), the second receiving hole (54) extending in the circumferential direction of the cup base (11) and being smaller than the first receiving hole (53);

the locking member (4) includes a second insertion portion (42) smaller than the first insertion portion (41), the second insertion portion (42) moving along the second receiving hole (54) during movement of the moving member (5).

12. A food processor, comprising a main machine and the stirring cup assembly of any one of claims 1 to 11, wherein the main machine comprises a motor, and the motor drives the knife assembly of the knife holder assembly to rotate.

13. The food processor according to claim 12, wherein the moving member (5) is provided with a detected member, the fixing member (3) or the knife holder assembly (2) or the cup holder (11) is provided with a detected member, the food processor comprises a controller, the moving member (5) moves in a fifth direction to push the locking assembly (12), the detected member generates a detection signal when the moving member (5) moves to a preset position in a sixth direction opposite to the fifth direction, and the controller receives the detection signal to control the food processor to work; in the preset position, the moving part (5) can be locked by the locking part (4); otherwise, controlling the food processor not to work or sending a prompt signal.

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