CN219070020U - Cooking cup and cooking machine - Google Patents

Abstract

The utility model discloses a cooking cup and a cooking machine, wherein the cooking cup comprises: cup and bowl cover subassembly. Wherein, the cup has the rim of a cup, is equipped with first water receiving passageway on the cup, and first water receiving passageway is close to the rim of a cup and is equipped with first water receiving mouth, and bowl cover subassembly lid closes on the rim of a cup, and bowl cover subassembly rotatable and have axis of rotation on the cup are equipped with second water receiving passageway on the bowl cover subassembly, and the second water receiving passageway is equipped with the second water receiving mouth in the periphery of bowl cover subassembly, and second water receiving mouth is in butt joint intercommunication with first water receiving mouth, and the contained angle between the orientation of second water receiving mouth and the tangential direction of second water receiving mouth relative axis of rotation is less than 90 degrees. The cooking cup of this application can guarantee that first water receiving mouth and second water receiving mouth are accurate to dock the intercommunication, reduces or avoids taking place the weeping in the intercommunication department of first water receiving mouth and second water receiving mouth.

Description

Cooking cup and cooking machine

Technical Field

The utility model relates to the field of household appliances, in particular to a cooking cup and a cooking machine.

Background

At present, food processing or cooking using a food processor has become a relatively common lifestyle. In the treatment of some foods, it is necessary to add water to the food.

In the existing cooking cup, the water receiving channel is arranged on the cup cover assembly, so that water is injected into the cooking cup through the water receiving channel on the cup cover assembly. The water receiving channel in the cup cover assembly is required to be in butt joint with the water receiving channel on the cup body, and the risk of liquid leakage exists between the water receiving channel of the cup cover assembly and the water receiving channel of the cup body.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the cooking cup which can ensure that the first water receiving port and the second water receiving port are accurately in butt joint and communication, and reduce or avoid liquid leakage at the communication position of the first water receiving port and the second water receiving port.

The utility model further provides a food processor with the food processing cup.

According to an embodiment of the utility model, a cooking cup comprises: the cup body is provided with a cup opening, a first water receiving channel is arranged on the cup body, and a first water receiving opening is arranged close to the cup opening in the first water receiving channel; the cup cover assembly is provided with a second water receiving channel, the cup cover assembly covers the cup opening, the cup cover assembly is rotatable on the cup body and is provided with a rotation axis, the second water receiving channel is provided with a second water receiving port at the periphery of the cup cover assembly, and the second water receiving port is in butt joint communication with the first water receiving port; the direction of the second water receiving port and the included angle between the second water receiving port and the tangential direction of the second water receiving port relative to the rotation axis are smaller than 90 degrees.

According to the cooking cup provided by the embodiment of the utility model, the second water receiving port of the cup cover assembly and the first water receiving port on the cup body can be accurately abutted on the same height of the cup body along with the rotation of the cup cover assembly on the cup body, so that the connection compactness of the first water receiving port and the second water receiving port is ensured, and the leakage of liquid at the communication position of the first water receiving port and the second water receiving port is reduced or avoided.

In some embodiments, the cuisine cup further comprises: the one-way valve is arranged in the second water receiving channel. Therefore, when the cup cover assembly is detached from the cup body, residual water in the second water receiving channel can be prevented from flowing out of the cup cover assembly from the second water receiving port.

Further, the second water receiving passage includes: the first subsection and the second subsection are connected, and the joint of the first subsection and the second subsection is a middle interface; the check valve includes: the baffle is positioned in the first subsection and is opposite to the middle interface, and the projection of the baffle on the surface of the middle interface completely covers the middle interface; one end of the elastic part is abutted against the inner wall of the second water receiving channel, the other end of the elastic part is connected with the baffle plate, and the elastic part is used for abutting the baffle plate against the middle interface; the conical head is connected to one side of the baffle plate, which faces the second subsection.

Therefore, when the second water receiving port is used for water inflow, the baffle plate presses the elastic part under the action of water pressure and enables the elastic part to be compressed, so that the baffle plate is far away from the middle joint, and water can enter the first sub-section from the second sub-section through the middle joint. When the second water receiving port does not enter water, the blocking piece is abutted against the middle joint under the action of the elastic piece, the conical head stretches into the second sub-section to limit the abutting position of the blocking piece at the middle joint, the blocking piece is guaranteed to completely cover the middle joint, and therefore the blocking piece can block water in the first sub-section from flowing into the second sub-section, and water in the first sub-section is prevented from flowing out of the cup cover assembly through the second sub Duan Congdi water receiving port.

Further, the first subsection is a horizontal section arranged in the cup cover assembly, and the second subsection is a vertical section arranged adjacent to the periphery of the cup cover assembly; the middle connector is positioned on the bottom wall of the first subsection, and the upper end of the elastic part is propped against the top wall of the first subsection. From this, under the effect of gravity, hydroenergy in the first subsection provides pressure at the separation blade, makes the separation blade inseparabler by stopping on well interface, and the elastic component can follow the upper and lower direction and apply pressure for the separation blade, makes the pressure that the separation blade received unanimous with the extending direction of second subsection to the separation blade is comparatively balanced in the ascending atress of well interface circumference, can improve the sealed effect of separation blade centering interface.

Specifically, the elastic part is a spring plate integrally formed on the baffle plate; and a positioning groove is formed in the top wall of the second subsection, and the top of the elastic piece is positioned in the positioning groove. Therefore, the reliability of connection between the elastic part and the baffle plate can be improved, the connection positions of the two ends of the elastic plate are fixed, the setting position of the elastic plate is stable, the extrusion force provided by the elastic plate for the baffle plate is also more stable, the stability of the baffle plate abutting against the middle interface can be improved, and the sealing effect of the baffle plate centering interface is further improved.

In some embodiments, the first subsection is rectangular in cross-section and the second subsection is circular in cross-section; the cross-sectional area of the first subsection is S1, and the cross-sectional area of the second subsection is S2, wherein S2 is less than or equal to S1 and less than or equal to 1.5S 2. Therefore, the arrangement of the middle interface can be facilitated, the peripheral surface of the middle interface is smooth, the baffle is convenient to stop against the middle interface, and in addition, the too high or too low flow velocity of water in the first subsection can be avoided.

In some embodiments, the cap assembly comprises: the cup cover lower cover is provided with a channel lower groove; the cup cover upper cover is covered on the cup cover lower cover; the channel upper cover is arranged on the channel lower groove, a part of the second water receiving channel is defined between the channel upper cover and the channel lower groove, and the channel upper cover is positioned between the cup cover lower cover and the cup cover upper cover. Therefore, the channel upper cover is positioned between the cup cover lower cover and the cup cover upper cover, and can protect the channel upper cover, so that the overcurrent effect between the channel upper cover and the channel lower groove is ensured. Meanwhile, the upper channel cover is arranged on the lower channel to form a part of the second water receiving channel, so that the process is simpler, and the production cost of the cup cover assembly can be reduced.

Further, the bottom of the lower cover of the cup cover is connected with a cup cover water inlet pipe, the inner cavity of the cup cover water inlet pipe forms the other part of the second water receiving channel 5, and the end part of the cup cover water inlet pipe is the second water receiving port. In such a structure

And the water inlet pipe of the cup cover can be far away from the lower cover of the cup cover to extend, so that the blocking generated by the lower cover of the cup cover to the butt joint of the second water receiving port and the first water receiving port is reduced, and the reliability of the butt joint between the second water receiving port and the first water receiving port is ensured.

Further, the lower cover of the cup cover and the water inlet pipe of the cup cover are injection molding pieces integrated, and the lower groove of the channel is integrally injected

Is molded on the lower cover of the cup cover. Therefore, the sealing performance of the channel lower groove and the cup cover water inlet pipe on the cup cover lower cover can be guaranteed, and the problem of sealing performance caused by assembly of the channel lower groove and the cup cover water inlet pipe is avoided.

Specifically, the bowl cover inlet tube is L shape and includes vertical tube section and horizontal tube section, vertical setting of vertical tube section and upper end are connected the bowl cover lower cover, horizontal tube section transversely sets up, horizontal tube section's one end is connected vertical tube section's lower extreme and the other end constitutes first water receiving mouth. The arrangement of the transverse pipe section enables the first water receiving opening to be transversely connected with the vertical pipe

The sections are staggered, so that the blocking generated by the vertical pipe section to the butt joint of the first water receiving port and the second water receiving port is reduced or avoided, and the reliability of the butt joint communication of the first water receiving port 5 and the second water receiving port is ensured.

In some embodiments, the cup body is provided with a handle, and the first water receiving opening is positioned at the top of the handle.

From this, first water receiving passageway also sets up in the handle, can reduce or avoid first water receiving passageway to occupy the space in the cup, and first water receiving mouth sets up at the top of handle, can be convenient for the butt joint of first water receiving mouth and second water receiving mouth, and can reduce the cup and to the stop that first water receiving mouth and second water receiving mouth butt joint produced.

0, further, the top of the handle is provided with a containing groove, and the first water receiving port is positioned in the containing groove. Thereby the processing time of the product is reduced,

when first water receiving mouth and second water receiving mouth dock, the second water receiving mouth stretches into the holding tank, and the holding tank is fixed a position the butt joint position of second water receiving mouth, can form the protection to the butt joint of first water receiving mouth and second water receiving mouth to guarantee the steadiness of first water receiving mouth and second water receiving mouth butt joint connection when guaranteeing that first water receiving mouth and second water receiving mouth dock accurately.

5 in some embodiments, two second water receiving channels are provided on the cap assembly, each second water receiving channel

The water receiving channels are all provided with cup cover water outlets; wherein the cup cover water outlet of one second water receiving channel is positioned at the center of the cup cover assembly, and the cup cover water outlet of the other second water receiving channel is arranged close to the periphery of the cup cover assembly; the two second water receiving channels are arranged in parallel at the part close to the second water receiving port, and the two second water receiving channels are connected with each other

The channel forms a bifurcation at a part close to the water outlet of the cup cover. Therefore, the two second water receiving channels respectively and independently guide water to the water outlets at different positions of the cup cover, so that the cooking cup can be arranged at different positions of the cup cover assembly according to different use requirements

The water is supplied into the cooking cup.

According to an embodiment of the utility model, a food processor comprises: a base; cooking cup, cooking cup be the cooking cup of above-mentioned embodiment, cooking cup detachably installs on the base.

According to the cooking machine provided by the embodiment of the utility model, the second cup cover assembly is provided with the cooking cup

The water receiving mouth can be along the same high accurate butt joint intercommunication of cup with the first water receiving mouth on the cup to reduce or avoid taking place the weeping in the intercommunication department of 5 first water receiving mouths and second water receiving mouths, reduce cooking cup and holistic risk of leaking of cooking machine.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the present utility model will become apparent from the following description of embodiments, read in conjunction with the accompanying drawings

Obvious and easily understood, wherein:

fig. 1 is an exploded view of a cuisine cup according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of the cooking cup of the embodiment of FIG. 1;

FIG. 3 is a schematic view of the lid assembly of the cooking cup of the embodiment of FIG. 1;

FIG. 4 is a schematic view of the one-way valve of the cuisine cup of the embodiment of FIG. 1;

FIG. 5 is a schematic cross-sectional view of a first sub-section of the cuisine cup of the embodiment of FIG. 1;

FIG. 6 is a schematic view of the lower lid of the serving cup of the embodiment of FIG. 1;

FIG. 7 is another angular schematic view of the lid lower cover of the serving cup of the embodiment of FIG. 1;

FIG. 8 is a schematic view of the channel cover of the serving cup of the embodiment of FIG. 1;

fig. 9 is a schematic structural view of a food processor according to an embodiment of the present utility model.

Reference numerals:

cooking machine 1000,

A cooking cup 100,

5 cup 11, cup opening 110, first water receiving opening 111, handle 112, accommodation groove 113,

A cup cover assembly 12,

The second water receiving channel 120, the first subsection 1201, the second subsection 1202, the middle interface 1203, the positioning groove 1204, the cup lid water outlet 1205,

A second water receiving port 121,

0 cup lid lower cover 122, channel lower groove 1221, cup lid inlet tube 1222,

A cup cover upper cover 123,

A channel top cover 124,

A check valve 13, a baffle 131, an elastic part 132, a conical head 133,

A base 200.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "vertical," "horizontal," "top," "bottom," "inner," "outer," "circumferential," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

A cooking cup 100 and a cooking machine 1000 according to an embodiment of the present utility model are described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, a cuisine cup 100 according to an embodiment of the present utility model includes: a cup 11 and a cap assembly 12.

The cup 11 has a cup opening 110, and the cup 11 is provided with a first water receiving channel, and the first water receiving channel is provided with a first water receiving opening 111 adjacent to the cup opening 110. The cup cover assembly 12 is covered on the cup opening 110, the cup cover assembly 12 is rotatable on the cup body 11 and has a rotation axis, a second water receiving channel 120 is arranged on the cup cover assembly 12, and a second water receiving opening 121 is arranged on the periphery of the cup cover assembly 12 through the second water receiving channel 120.

The second water receiving port 121 is oriented, and an included angle between the second water receiving port 121 and a tangential direction of a rotation axis is smaller than 90 degrees, so that the second water receiving port 121 can be in butt joint communication with the first water receiving port 111.

It will be appreciated that the first water receiving opening 111 is fixed in position in the height direction (shown as up and down) of the cup 11, while the second water receiving opening 121 is fixed in position in the height direction (shown as up and down) of the lid assembly 12.

Thus, when the cup cover assembly 12 is covered on the cup opening 110, the cup cover assembly 12 is fixed in position in the height direction of the cup 11, so that the second water receiving opening 121 is fixed in the setting position in the height direction of the cup 11. Therefore, the second water receiving port 121 and the first water receiving port 111 can be limited on the same height of the cup body 11, and the first water receiving port 111 and the second water receiving port 121 can be communicated along the butt joint of the cup mouth 110 on the same height of the cup body 11 by rotating the cup cover assembly 12 on the cup body 11, so that the first water receiving port 111 and the second water receiving port 121 can be accurately butted.

The cooking cup 100 of this application, the second water receiving mouth 121 of bowl cover subassembly 12 and the first water receiving mouth 111 on the cup 11 can be on the same height of cup 11 along with the accurate butt joint of rotation of bowl cover subassembly 12 on the cup 11 to guarantee the compactness that first water receiving mouth 111 and second water receiving mouth 121 are connected, reduce or avoid taking place the weeping in the intercommunication department of first water receiving mouth 111 and second water receiving mouth 121.

In some embodiments, as shown in fig. 3 and 4, the cuisine cup 100 further includes: the check valve 13, the check valve 13 locates in the second water receiving channel 120.

It will be appreciated that after the lid assembly 12 is placed over the cup 11 and the second water receiving channel 120 is flushed, water is easily retained in the second water receiving channel 120.

Thus, by providing the check valve 13 in the second water receiving passage 120, and providing the check valve 13 allows water to enter the second water receiving passage 120 through the check valve 13, and the check valve 13 can block water in the second water receiving passage 120 from flowing out. So that when the cap assembly 12 is detached from the cup 11, residual water in the second water receiving channel 120 is prevented from flowing out of the cap assembly 12 from the second water receiving opening 121.

Further, the second water receiving passage 120 includes: the first subsection 1201 and the second subsection 1202 are connected, and the connection of the first subsection 1201 and the second subsection 1202 is a middle interface 1203. The check valve 13 includes: a baffle 131, an elastic portion 132 and a conical head 133.

The baffle 131 is located in the first subsection 1201 and is disposed opposite to the middle interface 1203, and a projection of the baffle 131 on a surface of the middle interface 1203 completely covers the middle interface 1203. One end of the elastic portion 132 abuts against the inner wall of the second water receiving channel 120, the other end of the elastic portion 132 is connected to the baffle 131, and the elastic portion 132 is used for abutting the baffle 131 against the middle joint 1203. The conical head 133 is connected to the side of the flap 131 facing the second subsection 1202.

Thus, when the second water receiving port 121 is fed with water, the blocking piece 131 presses the elastic portion 132 under the action of the water pressure and compresses the elastic portion 132, so that the blocking piece 131 is far away from the middle joint 1203, and water can enter the first sub-section 1201 from the second sub-section 1202 through the middle joint 1203. When the second water receiving port 121 does not enter water, the blocking piece 131 is abutted against the middle joint 1203 under the action of the elastic piece, and the conical head 133 stretches into the second sub-section 1202 to define an abutting position of the blocking piece 131 at the middle joint 1203, so that the blocking piece 131 can completely cover the middle joint 1203, and therefore the blocking piece 131 can block water in the first sub-section 1201 from flowing into the second sub-section 1202, and water in the first sub-section 1201 is prevented from flowing out of the cup cover assembly 12 from the second water receiving port 121 through the second sub-section 1202.

Further, the first subsection 1201 is a horizontal section provided within the cap assembly 12, the second subsection 1202 is a vertical section provided adjacent to the outer periphery of the cap assembly 12, the middle interface 1203 is located on the bottom wall of the first subsection 1201, and the upper end of the elastic portion 132 abuts against the top wall of the first subsection 1201.

Therefore, under the action of gravity, water in the first subsection 1201 can provide pressure on the baffle plate 131, so that the baffle plate 131 is more tightly stopped on the middle interface 1203, and the elastic part 132 can apply pressure on the baffle plate 131 along the up-down direction, so that the pressure applied on the baffle plate 131 is consistent with the extending direction of the second subsection 1202, and therefore the stress of the baffle plate 131 on the periphery of the middle interface 1203 is balanced, and the sealing effect of the baffle plate 131 on the middle interface 1203 can be improved.

Specifically, the elastic portion 132 is an elastic piece integrally formed on the blocking piece 131, so that the reliability of connection between the elastic portion 132 and the blocking piece 131 can be improved. And be equipped with positioning groove 1204 on the roof of second subsection 1202, the top of shell fragment is located positioning groove 1204, and the other end and the separation blade 131 fixed connection of shell fragment, makes the setting position of shell fragment stable to the extrusion force that the shell fragment provided separation blade 131 is also more stable, can improve separation blade 131 and stop the stability at well interface 1203, further improves the sealed effect of separation blade 131 centering interface 1203.

In some embodiments, as shown in fig. 5, the cross section of the first subsection 1201 is rectangular, so that the middle joint 1203 can be conveniently arranged, the peripheral surface of the middle joint 1203 is smooth, the baffle plate 131 can be conveniently stopped on the middle joint 1203, the cross section of the second subsection 1202 is circular, the water pressure in the second subsection 1202 received by the baffle plate 131 at the middle joint 1203 is relatively even, and the water in the second subsection 1202 can conveniently push the one-way valve 13 open.

Wherein the cross-sectional area of the first subsection 1201 is S1, and the cross-sectional area of the second subsection 1202 is S2, S2 is less than or equal to S1 and less than or equal to 1.5S 2. Under the arrangement, the overflow area in the first subsection 1201 can be larger than that of the second subsection 1202, the phenomenon that water flows suddenly after entering the first subsection 1201 from the second subsection 1202 can be reduced or avoided, meanwhile, the section area of the second subsection 1202, of which the upper limit of the section area of the first subsection 1201 is smaller than 1.5 times, is arranged, the overflow speed in the first subsection 1201 can be avoided, and the overflow efficiency in the first subsection 1201 is ensured.

In some embodiments, as shown in fig. 1, 7 and 8, the lid assembly 12 includes: a cap lower cover 122, a cap upper cover 123, and a channel upper cover 124. Wherein, the lower cover 122 is formed with a lower channel 1221, the upper cover 123 is covered on the lower cover 122, the upper cover 124 is covered on the lower channel 1221, a part of the second water receiving channel 120 is defined between the upper cover 124 and the lower channel 1221, and the upper cover 124 is located between the lower cover 122 and the upper cover 123.

Thus, the upper channel cover 124 is located between the lower lid 122 and the upper lid 123, so that protection can be provided to the upper channel cover 124, thereby ensuring an overcurrent effect between the upper channel cover 124 and the lower channel 1221. Meanwhile, by providing the channel upper cover 124 over the channel lower groove 1221 to form a part of the second water receiving channel 120, the process is simpler, and the production cost of the cup cover assembly 12 can be reduced.

Further, as shown in fig. 6, a cup inlet pipe 1222 is connected to the bottom of the lower cup cover 122, the inner cavity of the cup inlet pipe 1222 forms another part of the second water receiving channel 120, and the end of the cup inlet pipe 1222 is a second water receiving port 121. With such a structure, the lid water inlet pipe 1222 can extend away from the lid lower cover 122, thereby reducing the blocking of the lid lower cover 122 to the butt joint of the second water receiving port 121 and the first water receiving port 111, and ensuring the reliability of the butt joint between the second water receiving port 121 and the first water receiving port 111.

Further, lid lower cover 122 and lid inlet tube 1222 are integrally injection molded, and channel lower groove 1221 is integrally injection molded on lid lower cover 122. Thus, the tightness of the channel lower groove 1221 and the bowl cover water inlet pipe 1222 on the bowl cover lower cover 122 can be ensured, and the tightness problem caused by assembling the channel lower groove 1221 and the bowl cover water inlet pipe 1222 is avoided.

Specifically, the cup cover water inlet pipe 1222 is L-shaped and includes a vertical pipe section and a horizontal pipe section, the vertical pipe section is vertically arranged and the upper end is connected with the cup cover lower cover, the horizontal pipe section is horizontally arranged, one end of the horizontal pipe section is connected with the lower end of the vertical pipe section and the other end of the horizontal pipe section forms the first water receiving port 111. Therefore, the arrangement of the transverse pipe section enables the first water receiving opening 111 to be staggered with the vertical pipe section in the transverse direction, so that the blocking of the vertical pipe section to the butt joint of the first water receiving opening 111 and the second water receiving opening 121 is reduced or avoided, and the reliability of the butt joint communication of the first water receiving opening 111 and the second water receiving opening 121 is ensured.

In some embodiments, as shown in fig. 1-3, the cup 11 is provided with a handle 112, and the first water receiving opening 111 is located at the top of the handle 112. Therefore, the first water receiving channel is also arranged in the handle 112, so that the space occupied by the first water receiving channel in the cup 11 can be reduced or avoided, the first water receiving port 111 is arranged at the top of the handle 112, the butt joint of the first water receiving port 111 and the second water receiving port 121 can be facilitated, and the blocking of the cup 11 to the butt joint of the first water receiving port 111 and the second water receiving port 121 can be reduced.

Further, a receiving groove 113 is formed at the top of the handle 112, and the first water receiving opening 111 is located in the receiving groove 113. Therefore, when the first water receiving port 111 and the second water receiving port 121 are in butt joint, the second water receiving port 121 stretches into the accommodating groove 113, the accommodating groove 113 positions the butt joint position of the second water receiving port 121, and the butt joint of the first water receiving port 111 and the second water receiving port 121 can be protected, so that the butt joint accuracy of the first water receiving port 111 and the second water receiving port 121 is ensured, and meanwhile, the butt joint connection stability of the first water receiving port 111 and the second water receiving port 121 is ensured.

In some embodiments, as shown in fig. 7, two second water receiving channels 120 are provided on the lid assembly 12, each second water receiving channel 120 having a lid outlet 1205. The cup lid water outlet 1205 of one second water receiving channel 120 is positioned at the center of the cup lid assembly 12, and the cup lid water outlet 1205 of the other second water receiving channel 120 is positioned near the periphery of the cup lid assembly 12. The two second water receiving passages 120 are arranged in parallel at a portion near the second water receiving opening 121, and the two second water receiving passages 120 form a bifurcation at a portion near the cup cover water outlet 1205.

Thus, the two second water receiving channels 120 respectively and independently guide water to the water outlets at different positions of the cup cover, so that the cooking cup 100 can supply water to the inside of the cooking cup 100 at different positions of the cup cover assembly 12 according to different use requirements.

For example, when stirring in cooking cup 100, the liquid in cooking cup 100 can demonstrate the vortex dress, simultaneously to the interior water injection of cooking cup 100 through two bowl cover delivery ports 1205 this moment, can be simultaneously with water injection to the center and the edge of vortex to reduce the rivers influence of water injection to the vortex, reduce the influence to the stirring effect in the cooking cup 100.

As shown in fig. 9, a food processor 1000 according to an embodiment of the present utility model includes: a base 200 and a cuisine cup 100. The cuisine cup 100 is the cuisine cup 100 of the embodiment, and the cuisine cup 100 is detachably installed on the base 200.

The cooking machine 1000 of this application through adopting cooking cup 100 of above-mentioned embodiment, the second water receiving mouth 121 of bowl cover subassembly 12 can dock the intercommunication along the same high accuracy of cup 11 with the first water receiving mouth 111 on the cup 11 to reduce or avoid taking place the weeping in the intercommunication department of first water receiving mouth 111 and second water receiving mouth 121, reduce cooking cup 100 and the holistic risk of leaking of cooking machine 1000.

Other configurations and operations of the cuisine cup 100 and the cuisine machine 1000 according to the embodiment of the present utility model are known to those of ordinary skill in the art, and will not be described in detail herein.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (14)

1. A cuisine cup, characterized by comprising:

the cup body (11), the cup body (11) is provided with a cup opening (110), a first water receiving channel is arranged on the cup body (11), and a first water receiving opening (111) is arranged close to the cup opening (110) in the first water receiving channel;

the cup cover assembly (12), the cup cover assembly (12) is covered on the cup opening (110), the cup cover assembly (12) is rotatable on the cup body (11) and is provided with a rotation axis, a second water receiving channel (120) is arranged on the cup cover assembly (12), a second water receiving opening (121) is arranged on the periphery of the cup cover assembly (12) through the second water receiving channel (120), and the second water receiving opening (121) is in butt joint communication with the first water receiving opening (111);

the second water receiving port (121) is oriented, and an included angle between the second water receiving port (121) and the tangential direction of the second water receiving port relative to the rotation axis is smaller than 90 degrees.

2. The cuisine cup of claim 1, further comprising: and the one-way valve (13) is arranged in the second water receiving channel (120).

3. The serving cup according to claim 2, wherein the second water receiving channel (120) comprises: a first subsection (1201) and a second subsection (1202) which are connected, wherein the connection part of the first subsection (1201) and the second subsection (1202) is a middle interface (1203);

the one-way valve (13) comprises:

the baffle plate (131) is positioned in the first subsection (1201) and is opposite to the middle interface (1203), and the projection of the baffle plate (131) on the surface of the middle interface (1203) completely covers the middle interface (1203);

an elastic part (132), wherein one end of the elastic part (132) is abutted against the inner wall of the second water receiving channel (120), the other end of the elastic part (132) is connected with the baffle piece (131), and the elastic part (132) is used for abutting the baffle piece (131) against the middle interface (1203);

-a conical head (133), said conical head (133) being connected to a side of said flap (131) facing said second sub-section (1202).

4. A serving cup according to claim 3, wherein the first subsection (1201) is a horizontal section provided within the lid assembly (12) and the second subsection (1202) is a vertical section provided adjacent to the periphery of the lid assembly (12);

the middle interface (1203) is positioned on the bottom wall of the first subsection (1201), and the upper end of the elastic part (132) is stopped on the top wall of the first subsection (1201).

5. The cuisine cup according to claim 4, wherein the elastic part (132) is a spring piece integrally formed on the baffle piece (131);

a positioning groove (1204) is formed in the top wall of the second subsection (1202), and the top of the elastic sheet is located in the positioning groove (1204).

6. A cuisine cup according to claim 3, characterized in that the cross section of the first subsection (1201) is rectangular and the cross section of the second subsection (1202) is circular;

the cross-sectional area of the first subsection (1201) is S1, and the cross-sectional area of the second subsection (1202) is S2, S2 is less than or equal to S1 and less than or equal to 1.5S 2.

7. The serving cup according to claim 1, wherein the lid assembly (12) comprises:

a lower cup cover (122), wherein a lower channel groove (1221) is formed on the lower cup cover (122);

a cup cover upper cover (123), wherein the cup cover upper cover (123) covers the cup cover lower cover (122);

the channel upper cover (124) is arranged on the channel lower groove (1221) in a covering mode, a part of the second water receiving channel (120) is defined between the channel upper cover (124) and the channel lower groove (1221), and the channel upper cover (124) is arranged between the cup cover lower cover (122) and the cup cover upper cover (123).

8. The cooking cup according to claim 7, wherein a bottom of the lid lower cover (122) is connected with a lid water inlet pipe (1222), an inner cavity of the lid water inlet pipe (1222) forms another part of the second water receiving channel (120), and an end of the lid water inlet pipe (1222) is the second water receiving port (121).

9. The serving cup according to claim 8, wherein the lid lower cover (122) and the lid inlet tube (1222) are integrally injection molded, and the channel lower groove (1221) is integrally injection molded on the lid lower cover (122).

10. The serving cup according to claim 9, wherein the lid inlet tube (1222) is L-shaped and comprises a vertical tube section and a horizontal tube section, the vertical tube section is vertically arranged and has an upper end connected to the lid lower cover (122), the horizontal tube section is horizontally arranged, one end of the horizontal tube section is connected to the lower end of the vertical tube section, and the other end of the horizontal tube section forms the first water receiving port (111).

11. Cooking cup according to any one of claims 1-10, wherein the cup body (11) is provided with a handle (112), the first water receiving opening (111) being located at the top of the handle (112).

12. The cuisine cup according to claim 11, wherein the top of the handle (112) is provided with a containing groove (113), and the first water receiving opening (111) is positioned in the containing groove (113).

13. The cuisine cup according to any one of claims 1 to 10, wherein two second water receiving channels (120) are arranged on the cup cover assembly (12), and each second water receiving channel (120) is provided with a cup cover water outlet (1205);

wherein the cup cover water outlet (1205) of one second water receiving channel (120) is positioned at the center of the cup cover assembly (12), and the cup cover water outlet (1205) of the other second water receiving channel (120) is arranged close to the periphery of the cup cover assembly (12);

the two second water receiving channels (120) are arranged in parallel at the part close to the second water receiving port (121), and the two second water receiving channels (120) form bifurcations at the part close to the cup cover water outlet (1205).

14. A cooking machine, characterized by comprising:

a base (200);

a cuisine cup (100), the cuisine cup (100) being the cuisine cup (100) according to any one of claims 1-13, the cuisine cup (100) being detachably mounted on the base (200).

Images