CN213046616U - Bowl cover subassembly, cup body subassembly and cooking machine - Google Patents

Abstract

The utility model discloses a cup lid subassembly, cup body subassembly and cooking machine. The cup cover assembly comprises a main cup cover, a feeding cover and a separating piece, wherein the main cup cover is used for covering a cup opening of the cup body, and the main cup cover is provided with a material passing channel communicated with the cup opening; at least part of the feeding cover is inserted in the material passing channel of the main cup cover; the separator is located throw the material lid with between the main bowl cover, and be located in the punishment in advance passageway, the separator with main bowl cover with throw and enclose between the material lid and close and form the gas channel, the gas channel includes two sections at least branch passageways, one of them the branch passageway is equipped with the intercommunication the import of cup, one the branch passageway is equipped with the outside export of intercommunication, two be equipped with between the branch passageway and cross the mouth, cross the mouth and be in the extending direction of gas channel with import and/or the export setting of staggering. The utility model discloses technical scheme can promote the effect of falling the noise of cooking machine anti-overflow, the user's of being convenient for use.

Description

Bowl cover subassembly, cup body subassembly and cooking machine

Technical Field

The utility model relates to the technical field of household appliances, in particular to cup cover subassembly, cup body assembly who uses this cup cover subassembly and cooking machine who uses this cup body assembly.

Background

The existing food processor, such as portable accompanying cup, heating pot, blender and wall breaking machine, can have the functions of heating and beating. Carry out the shroud through set up the bowl cover subassembly on the cup at cooking machine, prevent that liquid from splashing when processing. The cup cover assembly in the related art generally comprises a cup cover and a feeding cover, wherein the cup cover and the feeding cover are matched through a buckle. The cup cover and the feeding cover are generally designed with a certain gap for heat dissipation and preventing danger caused by overlarge pressure in the cup. However, when the cup cover and the feeding cover are used for making pulp-type food (such as soybean milk), the upward-flowing of the pulp cannot be effectively prevented, the food inside the cup easily overflows, and meanwhile, the noise is relatively large, so that the user experience is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cup lid subassembly aims at promoting the effect of falling the noise of cooking machine anti-overflow, the user's of being convenient for use.

In order to achieve the above object, the utility model provides a cup cover assembly, include:

the main cup cover is used for covering a cup opening of the cup body and is provided with a material passing channel communicated with the cup opening;

the feeding cover is at least partially inserted into the material passing channel of the main cup cover; and

the separator is arranged between the feeding cover and the main cup cover and is positioned in the material passing channel, the separator and the main cup cover enclose the material feeding cover to form a gas passing channel, the gas passing channel comprises at least two sections of sub-channels, one of the sub-channels is provided with an inlet communicated with the cup body, one of the sub-channels is provided with an outlet communicated with the outside, two of the sub-channels are provided with a passing opening, and the passing opening is arranged in a staggered manner in the extending direction of the gas passing channel and the inlet and/or the outlet.

In an embodiment of the utility model, throw the material lid include the upper cover plate with connect in the barrel of upper cover plate, at least part of barrel is inserted and is located in the punishment in advance passageway, the separator encircles and locates the outer wall of barrel, import, export and cross the mouth and set up in the separator.

In an embodiment of the present invention, the separator includes an inlet plate, an outlet plate, and a partition plate located between the inlet plate and the outlet plate, the partition plate forms one section between the inlet plate and the partition channel, the partition plate forms one section between the outlet plate and the partition channel, the inlet is located the inlet plate, the through opening is located the partition plate, the outlet is located the outlet plate.

In an embodiment of the present invention, the number of the partition plates is plural, each partition plate is provided with a through opening, and two adjacent through openings are arranged in a staggered manner in an extending direction of the air passage;

the through opening adjacent to the inlet and the inlet are arranged in a staggered mode in the extending direction of the air passing channel, and the through opening adjacent to the outlet and the outlet are arranged in a staggered mode in the extending direction of the air passing channel.

The utility model discloses an in an embodiment, the separator still includes the connecting cylinder, inlet plate, outlet plate and division board are located the periphery wall of connecting cylinder, and follow the axial direction interval of connecting cylinder sets up, the connecting cylinder cup joint in the outer wall of barrel.

In an embodiment of the present invention, the separating member is an elastic member, and a side edge of the separating member away from the cylinder elastically abuts against an inner wall surface of the material passing channel;

and/or, on the projection of the axial direction of the cylinder, the projection of the inlet and the projection of the outlet are coincident;

and/or the feeding cover further comprises a baffle plate, the baffle plate is arranged on the periphery of the upper cover plate and surrounds the cylinder body, a gas passing cavity is formed between the baffle plate and the cylinder body, and the baffle plate is provided with an exhaust port communicated with the gas passing cavity;

and/or, the outer wall surface of the barrel is provided with a clamping groove, and the separator is clamped in the clamping groove.

In an embodiment of the present invention, the main cup cover includes:

the main shell is provided with the feed opening and is used for covering the cup opening of the cup body; and

the mounting cylinder is arranged around the feeding port, and the material passing channel is formed in the mounting cylinder.

The utility model also provides a cup body subassembly, including cup and bowl cover subassembly, bowl cover subassembly lid fits the rim of a cup of cup, the bowl cover subassembly includes: the main cup cover is used for covering a cup opening of the cup body and is provided with a material passing channel communicated with the cup opening; and

the feeding cover is at least partially inserted into the material passing channel of the main cup cover;

the separator is arranged between the feeding cover and the main cup cover and is positioned in the material passing channel, the separator and the main cup cover enclose the material feeding cover to form a gas passing channel, the gas passing channel comprises at least two sections of sub-channels, one of the sub-channels is provided with an inlet communicated with the cup body, one of the sub-channels is provided with an outlet communicated with the outside, two of the sub-channels are provided with a passing opening, and the passing opening is arranged in a staggered manner in the extending direction of the gas passing channel and the inlet and/or the outlet.

The utility model also provides a food processor, including cup body assembly, cup body assembly includes cup and bowl cover subassembly, bowl cover subassembly lid fits the rim of a cup of cup, bowl cover subassembly includes: the main cup cover is used for covering a cup opening of the cup body and is provided with a material passing channel communicated with the cup opening; and

the feeding cover is at least partially inserted into the material passing channel of the main cup cover;

the separator is arranged between the feeding cover and the main cup cover and is positioned in the material passing channel, the separator and the main cup cover enclose the material feeding cover to form a gas passing channel, the gas passing channel comprises at least two sections of sub-channels, one of the sub-channels is provided with an inlet communicated with the cup body, one of the sub-channels is provided with an outlet communicated with the outside, two of the sub-channels are provided with a passing opening, and the passing opening is arranged in a staggered manner in the extending direction of the gas passing channel and the inlet and/or the outlet.

The utility model discloses among the technical scheme, at the in-process that uses, will put into the time spent from the cup with the edible material (water, soybean milk, milk etc.) that needs processing earlier, main glass lid closes the rim of a cup at the cup. At the moment, the feeding cover is inserted into the material passing channel, the partition piece plugs a gap between the main cup cover and the feeding cover, and an inlet, a passing opening and an outlet are formed to form a gas passing channel. When the food materials are processed, gas and/or food residues generated inside enter the first section of the sub-channel through the inlet, then enter the second section of the sub-channel through the opening, and are discharged through the outlet. When the through hole and the inlet are arranged in a staggered mode, when gas and/or food residues enter the sub-channel of the first section, the gas and/or food residues at least need to go through the sub-channel of the part where the inlet and the through hole are staggered, so that the gas and/or food residues are prevented from being directly discharged, and the anti-overflow effect is achieved. Or, when the through hole and the outlet are arranged in a staggered way, when gas and/or food residues enter the sub-channel of the second section, the gas and/or food residues at least need to go through the sub-channel of the part where the outlet and the through hole are staggered, so that the gas and/or food residues are prevented from being directly discharged, and the anti-overflow effect can also be realized. Furthermore, when the through opening and the inlet and the outlet are arranged in a staggered mode, the anti-overflow effect is optimal.

The at least two sections of sub-channels are arranged, and the inlets, the outlets and the inlets are arranged in a staggered manner, so that the flow path of gas and/or food residues can be prolonged, the gas needs to flow in the at least two sections of sub-channels, the noise generated by directly spraying the gas is reduced, and the noise reduction effect is realized.

And, when setting up the subchannel, accessible rib or baffle enclose to close and form, holistic rib or baffle are the annular setting roughly, set up the mouth at rib and baffle, the position department of import and export piece, its thickness reduces itself, make the separator when injection moulding's drawing die technology, the separator sets up the mouth, the position department of import and export can form elastic deformation, and then make the separator break away from with the mould more easily, so can promote the machining efficiency of separator effectively, and then reduce the processing cost of separator.

So use the utility model discloses a cooking machine of bowl cover subassembly can realize the anti-overflow and fall the effect of making an uproar, the user's of being convenient for use. Meanwhile, the processing efficiency can be improved, and the processing cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a cross-sectional view of an embodiment of the food processor of the present invention;

FIG. 2 is an exploded view of the cup cover assembly of the food processor of the present invention;

fig. 3 is a cross-sectional view of the cup lid assembly (the dotted arrow indicates the direction of air flow) according to an embodiment of the food processor of the present invention;

fig. 4 is a partial enlargement of a part a of the food processor in fig. 3 according to an embodiment.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a cup lid assembly 10, a cup body assembly using the cup lid assembly 10, and a food processor 100 using the cup body assembly.

The utility model discloses a bowl cover subassembly 10 of an embodiment includes main bowl cover 11, throws material lid 13 and separator 15, and main bowl cover 11 is used for the lid to fit the rim of a cup of cup 30, and main bowl cover 11 is equipped with the punishment in advance passageway of intercommunication rim of a cup. At least part of the feeding cover 13 is inserted in the material passing channel of the main cup cover 11. The separating piece 15 is arranged between the feeding cover 13 and the main cup cover 11 and is positioned in the material passing channel, the separating piece 15, the main cup cover 11 and the feeding cover 13 are enclosed to form a gas passing channel, the gas passing channel comprises at least two sections of sub-channels 15a, one sub-channel 15a is provided with an inlet 151a communicated with the cup body 30, one sub-channel 15a is provided with an outlet 153a communicated with the outside, a passing port 155a is arranged between the two sub-channels 15a, and the passing port 155a is arranged in a staggered mode with the inlet 151a and/or the outlet 153a in the extending direction of the gas passing channel.

In an embodiment of the present application, the main cup cover 11 and the feeding cover 13 may be made of plastic, silicone, or metal. Integral injection molding or making separate parts may be used. The shape of the main cup cover 11 can be selected to be round, square or other shapes, and is mainly selected and improved according to the shape of the cup body 30. The separating element 15 can be formed integrally with the dispensing cap 13, for example by injection molding, so that the processing of the separating element 15 and the dispensing cap 13 can be carried out by means of one injection mold during the processing. Of course, the divider 15 may be formed separately and then attached to the dispensing lid 13. The detachably connected partitioning member 15 can facilitate the replacement of the partitioning member 15, thereby facilitating maintenance. The detachable connection mode can be a sleeving mode, a clamping mode, an adhering mode, a screwing mode or the like in interference fit, and the detachable connection mode can be realized as long as the separating piece 15 and the feeding cover 13 can be installed and detached.

The material passing channel is arranged on the main cup cover 11 and can be arranged at the center of the main cup cover 11, and the size of the material passing channel can be also arranged according to the size of a cup opening.

In the technical scheme of the utility model, in the in-process that uses, put into earlier the edible material (water, soybean milk, milk etc.) that needs processing during from cup 30, main bowl cover 11 lid closes the rim of a cup at cup 30. At this time, the feed lid 13 is inserted into the material passing passage, and the partition 15 closes the gap between the main cup lid 11 and the feed lid 13, and opens the inlet 151a, the outlet 155a, and the outlet 153a to form a gas passing passage. When processing food material, internally generated gas and/or food waste enters the first sectional sub-passage 15a through the inlet 151a, then enters the second sectional sub-passage 15a through the opening 155a, and is discharged through the outlet 153 a. When the inlet 155a and the outlet 151a are offset, gas and/or food waste may enter the sub-channel 15a of the first stage, and at least the sub-channel 15a of the inlet 151a and the inlet 155a may be moved, so as to prevent the gas and/or food waste from being directly discharged, thereby achieving the anti-overflow effect. Alternatively, when the outlet 155a and the outlet 153a are offset, when gas and/or food waste enters the sub-channel 15a of the second stage, the gas and/or food waste must pass through at least the sub-channel 15a of the second stage where the outlet 153a and the outlet 155a are offset, so that the gas and/or food waste is prevented from being directly discharged, and the anti-overflow effect can be achieved. Further, when the through-port 155a and the inlet 151a and the outlet 153a are disposed to be staggered, the anti-overflow effect is most excellent.

The at least two-stage sub-passage 15a, and the staggered through-port 155a, inlet 151a, and outlet 153a may also extend the flow path of the gas and/or food waste, and the gas may need to flow in the at least two-stage sub-passage 15a, thereby reducing the noise generated by the direct ejection of the gas and achieving the noise reduction effect.

Moreover, when the branch channel 15a is arranged, the branch channel is generally formed by enclosing ribs or baffles, the integral ribs or baffles are arranged in an approximately annular shape, the thickness of the integral ribs or baffles is reduced at the positions where the ribs and the baffles are arranged to pass through the opening 155a, the inlet 151a and the outlet 153a, so that the elastic deformation can be formed at the areas where the partition 15 passes through the opening 155a, the inlet 151a and the outlet 153a during the die drawing process of the injection molding processing, and the partition 15 is more easily separated from the die, thereby effectively improving the processing efficiency of the partition 15 and further reducing the processing cost of the partition 15.

To sum up, use the food processer 100 of the cup cover assembly 10 of the utility model can realize the anti-overflow and noise reduction effect, which is convenient for the user to use. Meanwhile, the processing efficiency can be improved, and the processing cost is reduced.

With reference to fig. 2 to 4, when the material feeding cover 13 is disposed, an embodiment of the present application may be configured as follows: the feeding cover 13 comprises an upper cover plate 131 and a cylinder 133 connected to the upper cover plate 131, at least part of the cylinder 133 is inserted into the feeding channel, the partition 15 surrounds the outer wall surface of the cylinder 133, and the inlet 151a, the outlet 153a and the through opening 155a are opened in the partition 15.

When the branch passage 15a is provided, an inlet 151a, an outlet 153a and an outlet 155a may be provided for any one of the main cup lid 11, the feeding lid 13 and the partition 15 when the feeding lid 13, the main cup lid 11 and the partition 15 enclose the air passage. However, for convenience of processing and structural arrangement of the whole, the inlet 151a, the outlet 153a, and the through-port 155a are opened on the partition 15, thereby facilitating the arrangement of the inlet 151a, the outlet 153a, and the through-port 155 a. The feeding cover 13 is provided with the barrel 133 to facilitate the integral installation and assembly of the feeding cover 13. The barrel 133 may be located at a central portion of the upper cover plate 131 to facilitate the overall structural arrangement.

In order to further prevent the liquid from overflowing and reduce noise, the feeding cover 13 further comprises a baffle 135, the baffle 135 is arranged on the periphery of the upper cover plate 131 and surrounds the cylinder 133, a gas passing cavity 13a is formed between the baffle 135 and the cylinder 133, and the baffle 135 is provided with a gas outlet 135a connected with the gas passing cavity 13 a.

The air and food waste coming out of the outlet 153a can also achieve the secondary anti-overflow and noise reduction effects by the blockage of the air passing chamber 13 a. One exhaust port 135a may be provided, or two or more exhaust ports 135a may be provided.

With further combined reference to fig. 2-4, in an embodiment of the present invention, when the partition 15 is provided, the partition 15 may include an inlet plate 151, an outlet plate 153, and a separation plate 155 located between the inlet plate 151 and the outlet plate 153. A section of the sub-channel 15a is formed between the partition plate 155 and the inlet plate 151, a section of the sub-channel 15a is formed between the partition plate 155 and the outlet plate 153, the inlet 151a is provided in the inlet plate 151, the through-opening 155a is provided in the partition plate 155, and the outlet 153a is provided in the outlet plate 153.

By providing the inlet plate 151, the outlet plate 153, and the partition plate 155, the subchannel 15a can be conveniently provided, and a section of the subchannel 15a can be formed between the two plates. When the number of the partition plates 155 is one, two stages of the branch passages 15a are obtained. Reference may be made to fig. 4, which is an embodiment of divider plate 155 in fig. 4, with the arrows pointing in the direction of flow of the gas and food waste. The gas and food waste are diverted in the two sub-channels 15a and discharged from the outlet 153a and the exhaust port 135a located above.

Of course, the number of partition plates 155 may be plural. For example, if the number of partition plates 155 is two, the passage 15a may be divided into three, and so on.

The openings 155a of the plurality of partition plates 155 may be staggered to further extend the paths of the gas and the food waste in the branch passage 15 a. For example, the following settings are set: each partition plate 155 is provided with a through hole 155a, and two adjacent through holes 155a are arranged in a staggered manner in the extending direction of the air passing channel; the inlet 151a and the outlet 155a adjacent to the inlet 151a are disposed to be offset from each other in the extending direction of the gas passing passage, and the outlet 153a and the outlet 155a adjacent to the outlet 153a are disposed to be offset from each other in the extending direction of the gas passing passage. This is understood to mean misalignment between adjacent inlet 151a and outlet 155a, misalignment between adjacent outlet 153a and outlet 155a, and misalignment between adjacent outlet 155a and outlet 155 a. Thereby enabling the path to be maximally set.

In any of the embodiments described above in combination, the projections of the inlet 151a and the outlet 153a coincide on the projection in the axial direction of the cylinder 133. The projections of the inlet 151a and the outlet 153a coincide, and then the positions of the outlet 155a and the inlet 151a and the outlet 153a do not coincide, so that the path taken by the gas and the food waste can be further improved.

The number of the inlet 151a and the outlet 153a may be one or more. Likewise, the number of the through-holes 155a may be one or more. For example, as shown in fig. 2, when two sub-channels 15a are provided, there are two inlet ports 151a, two outlet ports 155a, and two outlet ports 153a, where the projections of the inlet ports 151a and the outlet ports 153a are coincident, and the outlet ports 155a are located at an intermediate position between the circumferential positions of the two inlet ports 151a, so as to form a maximum path and improve the effects of preventing overflow and reducing noise.

The separating member 15 may also be an elastic member made of plastic or rubber. The side of the separator 15 away from the cylinder 133 elastically abuts against the inner wall surface of the material passing channel. So, after throwing material lid 13 with partition 15 installation, when will throw material lid 13 and partition 15 and install main bowl cover 11, through the mode of elasticity butt, can accomplish the whole assembly of bowl cover subassembly 10.

Referring to fig. 2 and 4, as described in the previous embodiment, the partition 15 and the feeding cover 13 may be formed as a single body, formed by injection molding or two-shot molding, or may be detachably connected. In order to facilitate the overall structure of the partition 15, the partition 15 further includes a connecting cylinder 157, the inlet plate 151, the outlet plate 153, and the partition plate 155 are disposed on the outer peripheral wall of the connecting cylinder 157 and spaced apart from each other along the axial direction of the connecting cylinder 157, and the connecting cylinder 157 is sleeved on the outer wall surface of the cylinder 133.

It will be appreciated that, in the case where the connecting tube 157 is not provided, the inlet plate 151, the partition plate 155, and the outlet plate 153 may be sequentially fitted around the outer circumferential wall of the cylinder 133 to complete the installation. Through the arrangement of the connecting cylinder 157, the inlet plate 151, the outlet plate 153, the partition plate 155 and the connecting cylinder 157 can be made into an integral structure (integral injection molding can be adopted), and the processing and the assembly are convenient. Meanwhile, the partition 15 and the feeding cover 13 can be mounted by sleeving the connecting cylinder 157 on the outer wall surface of the cylinder 133 of the feeding cover 13, so that the assembly difficulty is reduced.

Further, a clamping groove 1331 may be formed on an outer wall surface of the cylinder 133 of the feeding cover 13, and the separator 15 may be clamped in the clamping groove 1331, so that the installation is convenient. When the separating part 15 is provided with the connecting cylinder 157, the connecting cylinder 157 is directly clamped into the clamping groove 1331, and the integral assembly of the separating part 15 and the feeding cover 13 can be completed, so that the method is simple and efficient.

Referring to fig. 2 and 3, when the main lid 11 is disposed, the main lid 11 of an embodiment includes a main housing 111 and a mounting cylinder 113, and the main housing 111 is provided with a feeding port 11 a. The mounting cylinder 113 is arranged around the feeding port 11a, and a material passing channel is formed in the mounting cylinder 113.

The arrangement of the material passing channel is facilitated by the arrangement of the mounting cylinder 113, the gap between the inner wall surface of the mounting cylinder 113 and the cylinder 133 of the feeding cover 13 is hermetically separated by the partition 15, and then the partition 15 is provided with the inlet 151a, the through-port 155a and the outlet 153a to form the material passing channel. The mounting cylinder 113 may be a circular cylinder or a square cylinder, and is selectively provided as required.

In order to facilitate the installation of the feeding cover 13 on the main cup cover 11, an installation groove 11b may be further provided on the main housing 111, the feeding port 11a penetrates through the bottom wall of the installation groove 11b, and the feeding cover 13 is installed on the installation groove 11 b.

When the feeding cover 13 is installed, the installation can be completed by inserting into the feeding port 11a of the installation groove 11 b. The mounting groove 11b can also function as a container for accommodating overflowing food residue liquid and prevent the food residue liquid from flowing onto a flow channel workbench or a table top.

Referring to fig. 1 in combination, the utility model also provides a cup body assembly, this cup body assembly includes cup 30 and bowl cover assembly 10, and bowl cover assembly 10 lid fits the rim of a cup of cup 30. The specific structure of the cup lid assembly 10 refers to the above embodiments, and since the cup body assembly adopts all technical solutions of all the above embodiments, at least all the beneficial effects brought by the technical solutions of the above embodiments are achieved, and no further description is given here.

The material of the cup body 30 can be made of different materials according to different functions. For example, when the cup 30 is used for a juicing function, the material of the cup may be glass or plastic. When the cup body 30 is used as a soymilk machine or other machine requiring a cooking and heating function, the cup body can be made of metal or other composite materials easy to conduct heat. The cup 30 may be made of one material, such as glass or metal, or may be made of two materials, such as glass for the upper half and metal for the lower half. When different food materials need to be heated, the material of the cup body 30 may be different accordingly, so as to realize various functions of the food processor 100, such as beating, making soybean milk, squeezing juice, making rice paste, mincing meat, shaving ice, making coffee and/or blending facial mask. And are not limited herein.

Generally, the cup 30 has a mouth formed at an upper end thereof for containing food or liquid, and the main lid 11 is closed to the mouth. The shape of the main cup cover 11 can be selected according to the requirement, the circular or square arrangement can be selected in the embodiment, and the material of the main cup cover can be plastic, metal or composite material. The cup 30 may also be provided with a handle portion for being held by a human hand.

Further, for better sealing effect, a sealing ring 17 is further sleeved on the outer periphery of the main housing 111, and the sealing ring 17 is used for abutting against the inner wall surface of the cup 30. The sealing ring 17 is arranged between the cup body 30 and the main cup cover 11, and the further sealing of the cup body 30 and the main cup cover 11 is realized through the sealing ring 17.

Referring to fig. 1, the present invention further provides a food processor 100, wherein the food processor 100 may be a soymilk maker, a wall breaking machine, a juice extractor or a traveling cup. This cooking machine 100 includes frame subassembly 50 and cup body assembly, and this cup body assembly's specific structure refers to above-mentioned embodiment, because this cooking machine 100 has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, and the repeated description is no longer given here. Wherein, the base assembly 50 can further include a base body and a heating member disposed on the base body, and when the cup body 30 is mounted on the base body, the heating member heats the cup body 30.

Through the setting of seat body, can make things convenient for cup body component's use, this seat body can regard as bearing cup body component's carrier alone for cup body component's laying is more stable. Other auxiliary functions may also be provided. For example, cup subassembly still sets up stirring knife tackle spare, and stirring knife tackle spare is including stretching into the stirring sword in cup 30 and the shaft coupling that appears in cup 30, and the seat body can set up driving motor, and when cup tackle spare installed the seat body, motor and coupling joint to make the motor can drive the stirring sword and rotate, make cooking machine 100 have the function of whipping processing food. The seat body can also be provided with a temperature detection sensor for detecting the temperature of the cup body 30 and realizing the control of temperature detection. An air pressure detecting device can be further disposed in the cup body 30 for detecting air pressure.

The above is only the optional embodiment of the present invention, and not therefore the limit to the patent scope of the present invention, all the concepts of the present invention utilize the equivalent structure transformation of the content of the specification and the attached drawings, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (10)

1. A cup lid assembly, comprising:

the main cup cover is used for covering a cup opening of the cup body and is provided with a material passing channel communicated with the cup opening;

the feeding cover is at least partially inserted into the material passing channel of the main cup cover; and

the separator is arranged between the feeding cover and the main cup cover and is positioned in the material passing channel, the separator and the main cup cover enclose the material feeding cover to form a gas passing channel, the gas passing channel comprises at least two sections of sub-channels, one of the sub-channels is provided with an inlet communicated with the cup body, one of the sub-channels is provided with an outlet communicated with the outside, two of the sub-channels are provided with a passing opening, and the passing opening is arranged in a staggered manner in the extending direction of the gas passing channel and the inlet and/or the outlet.

2. The cup cover assembly of claim 1, wherein the lid includes an upper cover plate and a barrel coupled to the upper cover plate, at least a portion of the barrel is inserted into the feed channel, the partition is disposed around an outer wall of the barrel, and the inlet, the outlet, and the feed channel are open to the partition.

3. The cup lid assembly of claim 2, wherein the partition includes an inlet plate, an outlet plate, and a divider plate between the inlet plate and the outlet plate, wherein a segment of the sub-channel is formed between the divider plate and the inlet plate, a segment of the sub-channel is formed between the divider plate and the outlet plate, the inlet is disposed in the inlet plate, the outlet is disposed in the divider plate, and the outlet is disposed in the outlet plate.

4. The cup cover assembly of claim 3, wherein the number of the partition plates is multiple, each partition plate is provided with a through opening, and two adjacent through openings are arranged in a staggered manner in the extending direction of the air passing channel;

the through opening adjacent to the inlet and the inlet are arranged in a staggered mode in the extending direction of the air passing channel, and the through opening adjacent to the outlet and the outlet are arranged in a staggered mode in the extending direction of the air passing channel.

5. The cup cover assembly of claim 3, wherein the partition further includes a connecting barrel, the inlet plate, the outlet plate, and the partition plate are disposed on an outer peripheral wall of the connecting barrel and spaced apart along an axial direction of the connecting barrel, and the connecting barrel is sleeved on an outer wall surface of the barrel.

6. The cup cover assembly of claim 2, wherein the partition is an elastic member, and a side of the partition, which is away from the cylinder, elastically abuts against an inner wall surface of the material passing channel;

and/or, on the projection of the axial direction of the cylinder, the projection of the inlet and the projection of the outlet are coincident;

and/or the feeding cover further comprises a baffle plate, the baffle plate is arranged on the periphery of the upper cover plate and surrounds the cylinder body, a gas passing cavity is formed between the baffle plate and the cylinder body, and the baffle plate is provided with an exhaust port communicated with the gas passing cavity;

and/or, the outer wall surface of the barrel is provided with a clamping groove, and the separator is clamped in the clamping groove.

7. The cup lid assembly of any of claims 1-6, wherein the main cup lid includes:

the main shell is provided with a feeding port and is used for covering the cup opening of the cup body; and

the mounting cylinder is arranged around the feeding port, and the material passing channel is formed in the mounting cylinder.

8. A cup assembly comprising a cup and the lid assembly of any one of claims 1 to 7, the lid assembly covering a rim of the cup.

9. A food processor, characterized in that, the food processor includes frame subassembly and the cup body assembly of claim 8, the cup body assembly install in the frame subassembly.

10. The utility model provides a food processer, a serial communication port, food processer includes frame subassembly and cup body assembly, cup body assembly install in the frame subassembly, cup body assembly includes cup and bowl cover subassembly, bowl cover subassembly lid fits the rim of a cup of cup, bowl cover subassembly includes:

the main cup cover is used for covering a cup opening of the cup body and is provided with a material passing channel communicated with the cup opening; and

the feeding cover is at least partially inserted into the material passing channel of the main cup cover;

the separator is arranged between the feeding cover and the main cup cover and is positioned in the material passing channel, the separator, the main cup cover and the feeding cover are enclosed to form a gas passing channel, the gas passing channel comprises at least two sections of sub-channels, one of the sub-channels is provided with an inlet communicated with the cup body, the other sub-channel is provided with an outlet communicated with the outside, a passing port is arranged between the two sub-channels, and the passing port is arranged in the extending direction of the gas passing channel in a staggered manner with the inlet and/or the outlet;

the feeding cover comprises an upper cover plate and a cylinder body connected with the upper cover plate, at least part of the cylinder body is inserted into the feeding channel, the separator is arranged on the outer wall surface of the cylinder body in a surrounding manner, and the inlet, the outlet and the through opening are arranged on the separator;

the separator comprises an inlet plate, an outlet plate and a separator plate positioned between the inlet plate and the outlet plate, a section of the sub-channel is formed between the separator plate and the inlet plate, a section of the sub-channel is formed between the separator plate and the outlet plate, the inlet is arranged on the inlet plate, the through opening is arranged on the separator plate, and the outlet is arranged on the outlet plate;

the number of the partition plates is multiple, each partition plate is provided with a through opening, and two adjacent through openings are arranged in a staggered manner in the extending direction of the gas passing channel;

the through opening adjacent to the inlet is arranged in a staggered mode with the inlet in the extending direction of the air passing channel, and the through opening adjacent to the outlet is arranged in a staggered mode with the outlet in the extending direction of the air passing channel;

the separator further comprises a connecting cylinder, the inlet plate, the outlet plate and the separating plate are arranged on the outer peripheral wall of the connecting cylinder and are arranged at intervals along the axial direction of the connecting cylinder, and the connecting cylinder is sleeved on the outer wall surface of the cylinder body;

the separator is an elastic member, and the side of the separator, which is far away from the cylinder, is elastically abutted against the inner wall surface of the material passing channel;

on the projection of the axial direction of the cylinder, the projections of the inlet and the outlet are coincided;

the feeding cover also comprises a baffle plate, the baffle plate is arranged on the periphery of the upper cover plate and surrounds the cylinder body, a gas passing cavity is formed between the baffle plate and the cylinder body, and the baffle plate is provided with an exhaust port communicated with the gas passing cavity;

the outer wall surface of the barrel is provided with a clamping groove, and the separator is clamped in the clamping groove;

the main bowl cover includes:

the main shell is provided with a feeding port; and

the mounting cylinder is arranged around the feeding port, and the material passing channel is formed in the mounting cylinder;

the main shell is also provided with an installation groove, the feeding port penetrates through the bottom wall of the installation groove, and the feeding cover is installed in the installation groove;

the outer peripheral edges of the main shell are further sleeved with sealing rings, and the sealing rings are used for being abutted to the inner wall surface of the cup body.

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