CN212591766U - Bowl cover subassembly, cup body subassembly and food processor - Google Patents

Abstract

The utility model discloses a cup lid subassembly, cup body assembly and food processor. Wherein, the bowl cover subassembly is applied to the lid and closes the cup body, and the bowl cover subassembly includes: an outer cover; the inner cover is used for covering the cup opening of the cup body and is also provided with a discharge port; and a blocking member driven by the outer cap and blocking the discharge port when the outer cap closes the inner cap. The utility model discloses technical scheme convenience of customers uses and carries cup body component and food processor.

Description

Bowl cover subassembly, cup body subassembly and food processor

Technical Field

The utility model relates to the technical field of household appliances, in particular to cup cover subassembly, use cup body assembly of this cup cover subassembly and use food processor of this cup body assembly.

Background

The cup body component of the existing food processor, such as a portable accompanying cup or a heating pot, can have the heating function. However, in the heating process, in order to prevent the potential safety hazard caused by the over-high air pressure in the cup, an air outlet is generally formed on the cover body of the cup body. However, when the cup body carries food, the carried food leaks out of the exhaust port, and the cup body is inconvenient to carry food. The existing solution is that two cup covers are generally arranged, one cup cover is provided with an exhaust port, and the other cup cover is not provided with an exhaust port. When heating, the cup cover with the air outlet is used, and when carrying, the cup cover without the air outlet is used. With such an arrangement, the phenomenon of misoperation is easy to occur. For example, when the cover without the vent is used for heating, great safety hazards are brought, and the cover is inconvenient for consumers to use.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a cup body component aims at convenience of customers uses and carries cup body component and food processor.

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

an outer cover;

the inner cover is used for covering the cup opening of the cup body and is also provided with a discharge port; and

and the blocking piece is driven by the outer cover and blocks the discharge port when the outer cover covers the inner cover.

In an embodiment of the present invention, the inner cap is provided with an air passing cavity, the inner cap is further provided with a passing opening and an air outlet communicated with the air passing cavity, the passing opening is formed as the outlet, the blocking member is driven by the outer cap, and the outer cap covers the inner cap to block the passing opening.

In an embodiment of the present invention, the blocking member includes a first valve rod and a first sealing plug disposed at one end of the first valve rod, the first valve rod deviates from the plug one end is used for abutting against the outer cover, the first valve rod penetrates into the inner cover, the first sealing plug is disposed in the air cavity to move and block the air cavity to open or close the air cavity.

In an embodiment of the present invention, the cup lid assembly further includes a first elastic member, the first elastic member is sleeved on the first valve rod, one end of the first elastic member and the first valve rod deviate from the one end elastic butt of the first sealing plug, and the other end of the first elastic member and the inner lid elastic butt.

In an embodiment of the present invention, the first valve rod deviates from one end of the first sealing plug and is provided with a surrounding plate, and the first elastic member deviates from one end of the first sealing plug and abuts against the surrounding plate.

In an embodiment of the present invention, an annular groove is disposed on an outer surface of an end portion of the first valve rod extending into the gas passing cavity, and the first sealing plug is sleeved in the annular groove;

and/or the through hole is arranged in a flaring shape along the air outlet direction, and the first sealing plug is matched with the through hole in shape.

In an embodiment of the present invention, the cup cover assembly further includes a pressure release valve and a second elastic member, the pressure release valve and the second elastic member are disposed in the air cavity, the inner cover is further provided with a communication port, the second elastic member is sleeved on the pressure release valve, and the second elastic member drives the pressure release valve to block or open the pressure release valve port.

In an embodiment of the present invention, the pressure relief valve includes a pressure relief valve seat and a second valve rod, the second valve rod is connected to the pressure relief valve seat, the second elastic member is connected to the second valve rod in a sleeving manner, and is fixedly connected to the pressure relief valve seat to drive the pressure relief valve seat in the air cavity to move, so that the second valve rod blocks or opens the pressure relief valve port.

In an embodiment of the present invention, the second valve rod blocks the end of the pressure relief valve port, and a second sealing plug is disposed at the end of the pressure relief valve port.

In an embodiment of the present invention, the cup cover assembly further includes a pressure release valve, the pressure release valve includes a second valve rod and a second elastic member, the blocking member is provided with a pressure release passage communicating with the cup body and the outside atmosphere, the second valve rod and the second elastic member are disposed in the pressure release passage, and the second elastic member is sleeved on the second valve rod and drives the second valve rod to block or open the pressure release passage.

In an embodiment of the utility model, the inner cup includes valve gap and disk seat, the valve gap with the disk seat encloses to close and forms cross the air cavity, cross the mouth and locate the disk seat, the gas vent is located the valve gap.

In an embodiment of the present invention, a valve cover opening is formed at one end of the valve cover, the valve seat can be detachably covered on the opening, and a valve seat sealing ring is disposed at a joint of the valve cover and the valve seat;

and/or the outer surface of the valve cover or the valve seat is provided with a valve cover sealing ring used for being hermetically installed with the cup opening;

and/or, the valve gap is concavely provided with a sinking groove, the bottom wall of the sinking groove is provided with a yielding port communicated with the air cavity, the yielding port is opposite to the passing port, and the plugging piece movably penetrates through the yielding port.

In an embodiment of the present invention, the plugging member includes:

a third elastic member elastically abutting against the inner lid; and

the sealing element is connected with the third elastic element, is driven by the outer cover and seals the discharge port when the outer cover covers the inner cover, and the discharge port is an exhaust port arranged in the inner cover; the sealing element is driven by the third elastic element and opens the air outlet when the outer cover is separated from the inner cover.

In an embodiment of the present invention, the cover member includes a main body plate and a connecting cylinder disposed on a surface of the main body plate, the third elastic member is installed in the connecting cylinder and abuts against the wall surface of the inner cover, and the main body plate covers or opens the exhaust port.

The utility model discloses an in one embodiment, the lower surface of main part board is protruding still to be equipped with the elastic sealing strip, the elastic sealing strip is the annular setting and can follows main part board closing cap or opening the gas vent.

The utility model discloses an in the embodiment, the inner cup still is equipped with the fender muscle, the fender muscle encircles the gas vent sets up, but the elastic sealing strip butt in keep off the muscle.

The utility model discloses an in the embodiment, elastic sealing strip deviates from the concave groove of stepping down that is equipped with in surface of fender muscle, the groove of stepping down is the annular setting, keep off the muscle in elastic sealing strip's projection is located step down the inslot.

In an embodiment of the present invention, the inner cover includes an inner shell and an installation portion connected to the inner shell, the exhaust port is disposed in the inner shell, the inner shell is provided with a gas passage communicating with the exhaust port, and the installation portion is disposed in the gas passage;

the installation department is equipped with the confession the connecting cylinder male opening, the one end butt of third elastic component in the inner wall of connecting cylinder, the other end butt in the installation department.

The utility model discloses an in the embodiment, the enclosing cover including be equipped with the shell and cup joint in shell inner bag in the shell, the shell is equipped with the enclosing cover opening, the shell inner bag be equipped with be used for with the screw thread that the cup is connected, the enclosing cover with still be equipped with the response piece between the shell inner bag, the response piece is close to the enclosing cover opening sets up.

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: an outer cover;

the inner cover covers the cup mouth of the cup body and is provided with a gas passing cavity, and the inner cover is also provided with a gas passing port and a gas exhaust port which are communicated with the gas passing cavity; and

the plugging piece at least partially penetrates into the inner cover, one end of the plugging piece, which deviates from the inner cover, is used for abutting against the outer cover, and the outer cover can drive the plugging piece to plug or open the through hole.

The utility model discloses an in the embodiment, the cup include the cup inner bag and cup joint in the cup shell of cup inner bag, be formed with the installation cavity between cup inner bag and the cup shell, be equipped with the control panel subassembly in the installation cavity, the cup shell be equipped with the touch-control region that the control panel subassembly corresponds.

The utility model discloses an in the embodiment, still be equipped with the support in the installation cavity, the control panel subassembly includes touch-control display panel and lamp shade, the lamp shade cover is located the support, the touch-control display panel clamp is located the lamp shade with between the support.

In an embodiment of the present invention, the lamp cover is provided with a display lamp hole and a touch control lamp hole, the display lamp hole corresponds to the display lamp setting of the touch control display panel, the touch control lamp hole is provided with a conductive piece electrically connected to the control area of the touch control display panel, the conductive piece is located between the control area of the touch control display panel and the touch control area of the cup shell.

In an embodiment of the present invention, the control area of the touch display panel is further provided with a warning light, the touch light hole is further provided with an even light sheet, the even light sheet is sleeved on the periphery of the conductive member, and covers the warning light.

In an embodiment of the present invention, a cavity sealing ring is sleeved at the cup opening of the cup inner container, and the cavity sealing ring is clamped between the cup outer shell and the cup inner container;

and/or the cup shell comprises an upper shell, a lower shell and a bottom shell which are detachably connected, wherein a shell sealing ring is arranged at the joint of the upper shell and the lower shell;

and/or when the lamp shade is provided with a touch display panel, the cup shell is provided with a abdicating hole corresponding to a display lamp of the touch display panel, and a display lamp sealing piece is arranged between the touch display panel and the cup shell;

and/or when the cup cover assembly is provided with the sensing piece, a receiver matched with the sensing piece of the cup cover assembly is also arranged in the mounting cavity and is arranged close to the cup opening of the cup body;

and/or the lower end of the cup inner container is provided with a heating element, and a heat insulation element is arranged between the heating element and the cup shell;

and/or a power supply assembly is further arranged in the mounting cavity, the power supply assembly is provided with a first joint and a second joint, and the cup shell is provided with a first yielding position port corresponding to the first joint and a second yielding position port corresponding to the second joint.

The utility model also provides a food processor, including cup and cup subassembly, cup subassembly connects in the cup, the bowl cover subassembly includes: an outer cover;

the inner cover is used for covering the cup opening of the cup body and is also provided with a discharge port; and

and the blocking piece is driven by the outer cover and blocks the discharge port when the outer cover covers the inner cover.

The utility model discloses an in the embodiment, the cup is equipped with the mounting groove, the lower extreme of cup peg graft in the mounting groove, the cup is equipped with the mains connection that is used for connecting the adaptation with cup subassembly's first, mains connection locates the diapire of mounting groove, mains connection pegs graft when first connecting, the lateral wall of mounting groove partially shelters from cup subassembly's second at least and lets the bit mouth.

In the technical scheme of the utility model, in the use process, the inner cup cover is closed at the rim of a cup of the cup body. Then when need carry edible material (water, soybean milk, milk etc.), be connected enclosing cover and inner cup, perhaps be connected enclosing cover and cup, the enclosing cover can drive shutoff piece shutoff discharge port to block the intercommunication between cup and the outside atmosphere, and then make the cup can be airtight, prevent to eat the material leakage. When heating is needed, the outer cover is separated from the cup body or the inner cover, the blocking piece is separated from the discharge port, and therefore the discharge port is opened, and the cup body is communicated with the external atmosphere. The cup cover assembly is convenient for a user to carry and use the cup body assembly and the food processor applying the cup body assembly, and misoperation can not occur.

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 schematic structural diagram of an embodiment of the food processor of the present invention;

FIG. 2 is a cross-sectional view of the food processor of FIG. 1 without the inner lid;

FIG. 3 is a schematic structural view of an embodiment of the cup body assembly of the present invention;

FIG. 4 is a partial cross-sectional view of an embodiment of the lid assembly of the present invention;

FIG. 5 is an exploded view of a portion of an embodiment of a lid assembly;

fig. 6 is a partial structural sectional view of an embodiment of the pressure release valve of the cup lid assembly of the present invention disposed on the blocking member (the blocking member is in a state of blocking the through hole);

fig. 7 is a partial structural sectional view of an embodiment of the pressure release valve of the cup lid assembly of the present invention disposed on the blocking member (the blocking member is in a state of being separated from the through opening);

fig. 8 is a partial sectional view of the structure of an embodiment of a closure member of the lid assembly for closing off an exhaust port;

FIG. 9 is a cross-sectional view of a portion of a closure of the lid assembly of the present invention showing an open vent;

FIG. 10 is a partial cross-sectional view of an embodiment of the elastic sealing strip of the closure of the cup lid assembly of the present invention in a state pushed by internal air pressure to deform to form an air gap;

FIG. 11 is a cross-sectional view of an outer lid of an embodiment of the lid assembly of the present invention;

FIG. 12 is a cross-sectional view of an embodiment of the bowl assembly of the present invention without the lid assembly;

FIG. 13 is an enlarged view of a portion of FIG. 12;

FIG. 14 is an exploded view of an embodiment of a cup shell of the cup body assembly of the present invention;

FIG. 15 is a schematic structural view of an embodiment of a cup liner of the cup body assembly of the present invention;

fig. 16 is an exploded view of an embodiment of the cup assembly of the present invention disposed within the mounting chamber.

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 5, 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. This food processor 100 can be portable food processor 100, and whole small in size, appearance structure and ordinary drinking cup size are similar, conveniently carry.

The utility model discloses a bowl cover subassembly 10 of an embodiment, include:

an outer cover 11;

an inner cover 13, wherein the inner cover 13 covers the cup opening 30a of the cup body 30, and the inner cover 13 is also provided with a discharge port (the discharge port can be a through port 13b or an exhaust port 13 c); and

and a closing member 15, wherein the closing member 15 is driven by the outer lid 11, and closes the through hole 13b when the outer lid 11 closes the inner lid 13.

In an embodiment of the present application, the inner cap 13, the outer cap 11 and the plugging member 15 may be made of plastic, silicone or metal. Integral injection molding or making separate parts may be used. The shapes of the outer lid 11 and the inner lid 13 may be selected to be cylindrical, square cylindrical or other shapes, and are selected and modified mainly in accordance with the shape of the cup body 30.

The discharge port may be the through port 13b or the exhaust port 13 c. When the through-port 13b is provided, the inner lid 13 may be provided with a through-air chamber 13a, and the through-port 13b and the air outlet 13c are both communicated with the through-air chamber 13 a. The through-hole 13b is formed as the discharge port, and the closing member 15 is driven by the outer lid 11 to close the through-hole 13b when the outer lid 11 closes the inner lid 13. The air passing cavity 13a can realize the function of air buffering, and has the functions of reducing noise and preventing scalding of users. When the discharge port is the through port 13b, the blocking piece can block or open the through port 13b under the driving of the outer cover, and the through port 13b is communicated with the exhaust port 13c, so that the cup body 30 is communicated with the external atmosphere. When the outlet is an exhaust port 13c, the closing member 15 can close or open the exhaust port 13c by the driving of the outer cover 11, so that the cup body 30 is communicated with the external atmosphere.

The size of the opening 13b is also set according to the size of the cup opening 30a, and the opening 13b can be generally positioned at the center of the cup opening 30a, and can be arranged at the center for exhausting the gas, but can be arranged at other positions. The exhaust port 13c may be disposed at a position offset from the through port 13b and away from the through port 13 b. Thus, the flow path of the gas in the gas passing chamber 13a can be increased, and the exhaust noise can be reduced. The exhaust port 13c may be disposed at a top wall of the air passing chamber 13a, and the through port 13b may be disposed at a bottom wall of the air passing chamber 13 a. The shape of the exhaust port 13c may be an arc-shaped arrangement extending in the circumferential direction of the inner lid 13. The number of the exhaust ports 13c may be set as desired, for example, two exhaust ports 13c may be provided, and the two exhaust ports 13c may be arranged to face each other. Or three, three exhaust ports 13c are arranged at regular intervals along the circumferential direction of the inner lid 13. The arrangement of the plurality of exhaust ports 13c can increase an exhaust path and reduce exhaust noise.

The closure 15 is driven by the outer cap 11 in two ways, an exemplary one being: the closure 15 is permanently connected to the outer cover 11, the closure 15 being arranged on the inner surface of the outer cover 11 facing the inner cover 13. Therefore, the structure of processing and assembling is simpler. A second exemplary way is that the closure 15 and the outer cap 11 are separate structures, such as: at least part of the blocking piece 15 penetrates into the inner cover 13, one end of the blocking piece 15 facing away from the inner cover 13 is used for abutting with the outer cover 11, and the outer cover 11 can drive the blocking piece 15 to block or open the through opening 13 b. When the outer lid 11 is brought into contact with the upper end of the closing member 15, the outer lid 11 may be connected to the inner lid 13 or may be connected to the cup body 30. The connection mode can adopt a detachable connection mode or a rotation connection mode. For example, when the rotation connection is adopted, a rotation shaft is arranged on one side of the outer cover 11, a rotation shaft hole is arranged on the inner cover 13 or the cup body 30, and when the outer cover 11 is rotatably connected and covered on the inner cover 13, the inner wall surface of the outer cover 11 is abutted against the blocking piece 15, so that the blocking piece 15 moves downwards. Of course, a detachable connection manner, such as a screw-detachable manner, may be adopted, and the outer lid 11 may be screwed to the outer wall surface of the cup 30, or may be screwed to the outer lid 13.

In the technical scheme of the utility model, in the using process, the inner cover 13 is covered on the cup opening 30a of the cup body 30. Then when needing to carry edible material (water, soybean milk, etc.), be connected enclosing cover 11 and inner cup 13, perhaps be connected enclosing cover 11 and cup 30 to make enclosing cover 11 can with the one end butt of shutoff piece 15, perhaps enclosing cover 11 directly drives shutoff piece 15, make shutoff piece 15 shutoff discharge port, for example when this discharge port is crossing mouth 13b, thereby shutoff piece 15 blocks the intercommunication between the interior and gas chamber 13a of cup 30, and then make cup 30 can be airtight, prevent to eat the material and leak. When heating is required, the outer lid 11 is separated from the cup body 30 or the inner lid 13, and the closing member 15 is separated from the opening 13b, thereby opening the opening 13b and communicating the cup body 30 with the exhaust port 13 c. The cup cover assembly 10 is convenient for a user to carry and use the cup body assembly and the food processor 100 applying the cup body assembly, and misoperation can not occur.

Referring to fig. 3 to 6, in an embodiment of the present invention, the inner lid 13 includes a valve cover 131 and a valve seat 133, the valve cover 131 and the valve seat 133 enclose to form a gas passing cavity 13a, the gas passing opening 13b is disposed on the valve seat 133, and the gas outlet 13c is disposed on the valve cover 131.

The valve cover 131 and the valve seat 133 are cooperatively shaped, and may have a substantially circular or square overall shape. The valve cover 131 and the valve seat 133 may be designed to be detachably coupled so that the inside of the degassing chamber 13a can be easily disassembled for washing and maintenance. The detachable connection mode of the valve cover 131 and the valve seat 133 can be a snap connection, a screw connection or a magnetic adsorption.

Further, one end of the valve cover 131 is formed with a valve cover opening (not labeled), the valve seat 133 is detachably covered on the valve cover opening, and a valve seat sealing ring 1331 is disposed at the joint of the valve cover 131 and the valve seat 133.

The space tightness inside the excess air chamber 13a is enhanced by the valve seat seal ring 1331. Preventing gas from flowing out of the valve cover opening. The valve cover 131 and the valve seat 133 can be assembled by screwing the threads 1131 together, and the valve seat sealing ring 1331 is matched to further enhance the space tightness of the air passing chamber 13a, so that air can only pass through the opening 13b and the exhaust opening 13 c. The valve seat sealing ring 1331 may be made of rubber or silica gel.

In order to enhance the sealing between the inner lid 13 and the cup body 30 when the inner lid 13 is assembled with the cup body 30, a bonnet sealing ring 1311 for sealing with the cup rim 30a is provided on the outer surface of the bonnet 131 or the valve seat 133. The air or food material in the cup body 30 is prevented from flowing out from the cup mouth 30a by the bonnet sealing ring 1311. The bonnet sealing ring 1311 may also be made of rubber or silicone.

In order to further improve the running stability of the blocking piece 15, a sunken groove 1313 is concavely arranged on the valve cover 131, a yielding port 13e communicated with the air passing cavity 13a is arranged on the bottom wall of the sunken groove 1313, the yielding port 13e is opposite to the passing port 13b, and the blocking piece 15 movably penetrates through the yielding port 13 e. Let and form a movable passageway between position mouth 13e and the mouth of passing 13b, shutoff piece 15 up-and-down motion in this movable passageway, so shutoff piece 15's operation more stable, the installation of shutoff piece 15 can be made things convenient for to the setting of heavy groove 1313.

When the inner lid 13 is mounted in the cup opening 30a, the inner lid 13 may be press-fitted into the cup opening 30a by a screw connection or an interference fit. The outer surface of the inner lid 13 may further be provided with a rib 1315, and the rib 1315 may enhance the structural strength of the inner lid 13 and facilitate the handling by a human hand. The rib 1315 may be provided on the outer surface of the cap 131 or on the inner surface of the cap 131.

Referring to fig. 11 in combination, in an embodiment of the present invention, the outer cover 11 includes a shell 111 and a shell liner 113 sleeved in the shell 111, the shell 111 is provided with an opening of the outer cover 11, the shell liner 113 is provided with a thread 1131 for connecting with the cup 30, a sensing element 115 is further disposed between the outer cover 11 and the shell liner 113, and the sensing element 115 is disposed adjacent to the opening of the outer cover 11.

An installation space is formed between the outer case 111 and the case inner 113, and then the sensing member 115 is placed in the installation space. When the outer lid 11 is sleeved on the cup opening 30a of the cup body 30, the sensing element 115 is in signal connection with the receiver 54 of the cup body 30 to generate an installation in-place signal, and whether the outer lid 11 is installed on the cup body 30 is detected. The sensing element 115 may be a magnet and the receiver 54 mounted on the cup 30 may be a magnetic sensor, such as a reed switch. When the cover 11 is screwed onto the cup 30, the magnet approaches the magnetic sensor, which sends a signal to the control panel. After the control panel obtains the signal, will lock those functions that can make liquid heat to boiling, only let the user select not to let hot water heat to the function of boiling, prevent the cup 30 that the maloperation leads to and explode the problem of splitting.

The connection between the outer lid 11 and the cup body 30 is more stable by the threads 1131 of the shell liner 113. The shell liner 113 and the shell 111 may be made of the same material, such as plastic, or different materials, such as plastic for the shell 111, metal for the shell liner 113, and so on.

When the block piece 15 is provided, it is sufficient if the block piece 15 can follow the outer lid 11 and block or open the opening. Referring to fig. 3 to 5, in an embodiment of the present invention, the blocking member 15 includes a first valve rod 151 and a first sealing plug 153 disposed at one end of the first valve rod 151, the first valve rod 151 deviates from one end of the plug and is used for abutting against the outer cover 11, the first valve rod 151 penetrates into the inner cover 13, the first sealing plug 153 moves in the air passing cavity 13a, and blocks the air passing hole 13b or opens the air passing hole 13 b.

Referring to the vertical direction shown in the drawing, the upper end of the first valve rod 151 may abut against the inner surface of the outer cover 11, the outer cover 11 drives the first valve rod 151 to move, the lower end of the first valve rod 151 is provided with a first sealing plug 153, and the first sealing plug 153 blocks the through hole 13b or opens the through hole 13 b. The arrangement of the first sealing plug 153 can enable the plugging piece 15 to be better matched with the through hole 13b, so as to prevent the occurrence of air leakage or untight plugging. The first sealing plug 153 may be a soft silica gel plug or a rubber plug, so as to be further tightly fitted to the through hole 13 b.

Further, the lid assembly 10 further includes a first elastic member 155, the first elastic member 155 is sleeved on the first valve rod 151, one end of the first elastic member 155 elastically abuts against one end of the first valve rod 151 departing from the first sealing plug 153, and the other end elastically abuts against the inner lid 13.

By providing the first elastic member 155, the automatic rebound of the closing member 15 can be realized to open the opening 13 b. For example, when the cup is carried, the outer lid 11 abuts against the first stem 151 so that the first elastic member 155 is in a compressed state, and the first sealing plug 153 blocks the through hole 13b, thereby blocking communication between the inside of the cup 30 and the gas passing chamber 13a, and thus enabling the cup 30 to be sealed. In use, the outer cover 11 is separated from the first valve rod 151, and the first elastic member 155 elastically returns to drive the first valve rod 151 to move, so that the first sealing plug 153 is separated from the opening 13b, and the opening 13b is opened.

In order to facilitate the installation of the first elastic member 155, an enclosing plate 1511 is disposed at an end of the first valve rod 151 away from the first sealing plug 153, and an end of the first sealing plug 153 away from the first elastic member 155 elastically abuts against the enclosing plate 1511. So, the installation space that enclosing of bounding wall 1511 closed makes the installation of first elastic component 155 more firm, and its elastic recovery's route is more stable, drives the more stable of first valve rod 151 motion.

When the first valve rod 151 and the first sealing plug 153 are provided, they may be detachably connected to each other. Of course, the structure can be integrated, and the mode of the integrated structure can adopt integrated injection molding or 3D printing integrated molding. When the detachable connection mode is set, the following mode can be set: the outer surface of the end part of the first valve rod 151 extending into the air passing chamber 13a is provided with an annular groove 1513, and the first sealing plug 153 is sleeved on the annular groove 1513. Through the arrangement of the annular groove 1513, the first sealing plug 153 and the first valve rod 151 are conveniently sleeved and matched. Meanwhile, the cleaning and the disassembly of the two are convenient. Meanwhile, when the first sealing plug 153 moves in the air passing cavity 13a along with the first valve rod 151, the first sealing plug 153 can also abut against the top wall of the air passing cavity 13a, so that the first valve rod 151 is prevented from being separated from the air passing cavity 13 a.

Further, in order to make the matching between the through hole 13b and the first sealing plug 153 more tight, the through hole 13b is arranged in a flaring shape along the air outlet direction, and the first sealing plug 153 is matched with the through hole 13b in shape.

The flaring-shaped through hole 13b, that is, the first sealing plug 153 can be designed to have a matching inclined plane when blocking the through hole 13b, in the up-down direction in the figure, the frustum shape formed by the first sealing plug 153 is large in the top and small in the bottom, and is matched with the through hole 13b more tightly, and at the same time, the first valve rod 151 can be guided to move.

With further reference to fig. 4 and 5, in an embodiment of the present invention, the cup cover assembly 10 further includes a pressure release valve 17 and a second elastic member 175, which are disposed in the air passing cavity 13a, the inner cover 13 is further provided with a pressure release valve port 13d connected to the air passing cavity 13a, and the second elastic member 175 is sleeved on the pressure release valve 17 and drives the pressure release valve 17 to block or open the pressure release valve port 13 d.

The relief valve 17 is designed to further improve the reliability of the product, and prevent the cup 30 from bursting due to the outer lid 11 pressing the closing member 15, the opening 13b being closed and also being heated. A relief valve 17 is also provided in the air passing chamber 13a in the inner lid 13. The relief valve 17 works as follows: under a normal state, the pressure release valve 17 is in a closed state under the action of the second elastic member 175, and when the product is abnormal and the air pressure in the cup body 30 reaches a set value, the pressure release valve 17 moves upwards under the action of the air pressure, so that the pressure release valve 17 opens the pressure release valve port 13d, the pressure in the cup body 30 is released, and the air is discharged into the atmosphere through the air outlet 13c of the air passing cavity 13 a. It is understood that the second elastic member 175 may not be provided, and the relief valve 17 may be configured to close or open the relief valve port 13 d.

When a pressure relief valve 17 is provided, various forms of pressure relief valve 17 may be employed, such as a ball valve or a solenoid valve. The utility model discloses optional setting up to: the relief valve 17 includes a valve seat 133 and a second valve rod 173, the second valve rod 173 is connected to the relief valve seat 171, and the second elastic member 175 is sleeved on the second valve rod 173 and is fixedly connected to the relief valve seat 171 to drive the relief valve seat 171 to move in the air passing cavity 13a, so that the second valve rod 173 blocks or opens the relief valve port 13 d. The pressure relief valve seat 171 and the second valve stem 173 are moved by the second elastic member 175. The second valve seat 133 may be provided to facilitate the installation of the second valve stem 173 and the second elastic member 175. Meanwhile, a sleeve 179 enclosing the pressure relief valve port 13d can be further arranged in the air passing chamber 13a, and the second valve seat 133 is arranged in the sleeve 179 to move, so that the stability of the movement is further enhanced.

Further, a second sealing plug 177 is disposed at an end of the second valve rod 173 that blocks the pressure relief valve port 13 d. The second sealing plug 177 has a similar function to the first sealing plug 153, and will not be described herein. The shape of the pressure relief valve port 13d and the shape of the second sealing plug 177 may also be designed similarly to the shape of the first sealing plug 153 and the through-opening 13b, although other shapes may be devised.

In another embodiment of the present application, the positions of the second stem 173 and the second elastic member 175 of the relief valve 17 may be further changed, for example, referring to fig. 6 and 7, the lid assembly further includes the relief valve 17, the relief valve 17 includes the second stem 173 and the second elastic member 175, the blocking member 15 is provided with a relief passage 15a communicating the cup 30 with the external atmosphere, the second stem 173 and the second elastic member 175 are provided in the relief passage 15a, and the second elastic member 175 is sleeved on the second stem 173 and drives the second stem 173 to block or open the relief passage 15 a.

By providing the pressure relief passage 15a in the blocking member 15, the installation volume in the air passing chamber 15a can be saved, and the pressing operation is facilitated. The second valve stem 173 is moved by the second elastic member 175 and the atmospheric pressure inside. It will be appreciated that the relief valve 17 may be designed as described above, but may also be a ball valve or a solenoid valve. The lower end of the second stem 173 may be provided with a sealing plug. Meanwhile, in order to further facilitate installation and enhance sealing performance, an installation tube may be further installed on an outer wall surface of the second valve stem 173, and a sealing ring may be installed between the installation tube and an inner wall surface of the pressure relief passage 15 a. The sealing ring may be provided in one or more passes. The second valve rod 173 moves in the mounting cylinder, and a second elastic member 175 is also provided in the mounting cylinder to drive the second valve rod 173 up and down together with the atmospheric pressure inside.

Also in this embodiment, referring to fig. 6 and 7 in combination, the inner cap 13 is provided with a through opening 13b, the inner cap 13 is further provided with a moving opening 13g for passing the blocking member 15, and when the outer cap 11 covers the inner cap 13, the outer cap 11 presses the blocking member 15 to drive the inner cap 13 to press the blocking opening 13 b. The blocking member 15 may be provided with a cover plate 1515 at the lower end of the first valve rod 151, and a sealing ring is provided at the periphery of the cover plate 1515 to improve the sealing effect. The cover plate 1515 and the inner lid 13 together enclose the air passing chamber 13 a.

Some embodiments of the closing member for closing off the through-opening are described above, and some embodiments of the closing member 15 for closing off the gas discharge opening 13c are described below.

With combined reference to fig. 8 to 10, in an embodiment of the present application, the blocking piece 15 includes:

a third elastic member 157, the third elastic member 157 elastically abutting against the inner lid 13; and

a sealing member 159, the sealing member 159 is connected with the third elastic member 157, the sealing member 159 is driven by the outer cover 11, and seals the discharge port when the outer cover 11 covers the inner cover 13, the discharge port is an air outlet 13c arranged on the inner cover 13; the sealing member 159 is driven by the third elastic member 157 and opens the air outlet 13c when the outer lid 11 is separated from the inner lid 13.

The outer lid 11 presses the third elastic member 157 to drive the sealing member 159 to close the air outlet 13c, thereby sealing the inside of the cup 30. When the outer lid 11 is opened, the closing and blocking member 15 is driven to be separated from the vent 13c by the third elastic member 157, so that the cup 30 communicates with the vent 13 c. It is understood that the closure and release of the closure member 159 can be accomplished without the third resilient member 157, and is within the scope of the present application. The third elastic member 157 is provided, when the cup is heated by mistake, the air pressure in the cup 30 rises, the third elastic member 157 is pushed by the air pressure in the cup 30 to be compressed continuously, so that an air gap can be formed between the cover member 159 and the air outlet 13c, and the cup is prevented from being fried.

Further, the cover 159 includes a main body plate 1591 and a connection cylinder 1593 provided on one surface of the main body plate 1591, the third elastic member 157 is installed in the connection cylinder 1593 and abuts against a wall surface of the inner cover 13, and the main body plate 1591 covers or opens the discharge port 13 c.

The installation of the third elastic member 157 is facilitated by the arrangement of the main body plate 1591 and the connection cylinder 1593. Also, it is convenient for the main body panel 1591 to cover or disengage the exhaust port.

Further, in order to further facilitate the installation and movement of the blocking member 15, the inner cover 13 includes an inner housing 135 and an installation portion 137 connected to the inner housing 135, the exhaust port is provided in the inner housing 135, the inner housing 135 is provided with a gas passing passage 135a communicating with the exhaust port 13c, and the installation portion 137 is provided in the gas passing passage 135 a; the mounting portion 137 has an opening 137a into which the connecting cylinder 1593 is inserted, and one end of the third elastic member 157 abuts against an inner wall of the connecting cylinder 1593 and the other end abuts against the inside of the mounting portion 137.

The mounting portion 137 is configured such that the connector housing 1593 can be moved within the mounting portion 137. The movement port 13g may become a guide port that restricts the movement of the connector barrel 1593. Meanwhile, a limiting device can be arranged in the mounting part 137 to prevent the connecting cylinder 1593 from being separated from the moving port 13g after moving.

Further, in order to further enhance the sealing effect, an elastic sealing strip 1591a is protruded from the lower surface of the main body plate 1591, and the elastic sealing strip 1591a is annularly disposed and can cover or open the exhaust port 13c following the main body plate 1591.

The provision of the elastic seal 1591a makes the closure of the exhaust port 13c tighter. Meanwhile, when the cup is heated by mistake, the air pressure in the cup 30 rises, and the third elastic member 157 is pushed by the air pressure in the cup 30 to continue to be compressed, and the elastic sealing strip 1591a can also be deformed, so that an air passing gap can be formed between the sealing cover member 159 and the air outlet 13c more easily, and the cup is prevented from being fried.

Further, the inner lid 13 is further provided with a blocking rib 13f, the blocking rib 13f is arranged around the exhaust port 13c, and the elastic sealing strip 1591a can abut against the blocking rib 13 f.

The provision of the retaining rib 13f can further enhance the elastic sealing engagement between the elastic sealing strip 1591a and the retaining rib 13f, and also make the air gap easier to form.

In order to further facilitate the generation of the deformation of the elastic sealing strip 1591a, the surface of the elastic sealing strip 1591a departing from the retaining rib 13f is concavely provided with an abdicating groove 1591b, the abdicating groove 1591b is annularly arranged, and the projection of the retaining rib 13f on the elastic sealing strip 1591a is positioned in the abdicating groove 1591 b. Thus, the occurrence of a cup frying situation can be further prevented.

Referring to fig. 1 to 3, the present invention further provides a cup assembly, which includes a cup 30 and a lid assembly 10, wherein the lid assembly 10 covers a rim 30a of the 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.

With further reference to fig. 11 to 16, in an embodiment of the present invention, the cup body 30 includes a cup liner 33 and a cup shell 31 sleeved on the cup liner 33, a mounting cavity 30b is formed between the cup liner 33 and the cup shell 31, a control board assembly is disposed in the mounting cavity 30b, and the cup shell 31 is provided with a touch area corresponding to the control board assembly.

By arranging the cup body 30 as a two-layer structure of the cup liner 33 and the cup shell 31, the mounting cavity 30b between the two can be used for conveniently mounting various electronic components. For example, a control board assembly is installed, the control board assembly corresponds to the touch area, and can receive the touch signal of the touch area to generate a control instruction so as to control the operation of the cup body assembly. Meanwhile, the two-layer structure of the cup inner container 33 and the cup shell 31 can also play a role in isolating heat loss, and play a role in heat preservation.

Referring to fig. 12 and 15, in order to further enhance the sealing performance of the mounting cavity 30b, a cavity sealing ring 331 is sleeved on the cup opening 30a of the cup liner 33, and the cavity sealing ring 331 is interposed between the cup outer shell 31 and the cup liner 33. When the cup is installed, the cup liner 33 is provided with a flange 333 along the cup opening 30a, the flange 333 is bent to form an annular installation space, an installation protrusion (not labeled) is formed at the upper end of the cup shell 31, the installation protrusion extends into the installation space, and the lower end of the flange 333 abuts against the upper end face of the cup shell 31, so that installation is realized. The mounting space inside the flange 333 is provided with a cavity seal ring 331, thereby preventing the gap between the cup shell 31 and the cup liner 33 from entering water vapor or impurities and affecting the electronic components inside the internal mounting cavity 30 b.

Referring to fig. 12 to 14, in order to facilitate the mounting of the components inside the mounting cavity 30b when the cup housing 31 is provided, it may be provided that: the cup shell 31 comprises an upper shell 311, a lower shell 313 and a bottom shell 315 which are detachably connected, and a shell sealing ring 337 is arranged at the joint of the upper shell 311 and the lower shell 313.

The cup housing 31 is configured to have an upper shell 311, a lower shell 313 and a bottom shell 315 detachably connected, that is, the mounting chamber 30b is roughly divided into three sections. Therefore, the electronic components at all positions can be conveniently installed. Meanwhile, the upper shell 311, the lower shell 313 and the bottom shell 315 are detachably connected, so that the replacement and maintenance of internal components can be facilitated. Further, a housing seal ring 337 is arranged between the upper housing 311 and the lower housing 313, so that a connection gap between the upper housing 311 and the lower housing 313 can be prevented from entering water vapor or impurities, and the sealing performance of the installation cavity 30b can be prevented from being affected. Of course, a sealing structure may be provided between the bottom case 315 and the lower case 313. It is understood that the upper shell 311, the lower shell 313 and the bottom shell 315 can be detachably connected by means of a snap, a screw or a magnetic attraction.

With further combined reference to fig. 12, 13 and 15, when the control panel assembly is installed, the following may be employed: the mounting cavity 30b is further provided with a support 53, the control panel assembly comprises a touch display panel 51 and a lampshade 52, the lampshade 52 is sleeved on the support 53, and the touch display panel 51 is clamped between the lampshade 52 and the support 53.

The touch display panel 51 may be a flexible pcb (printed Circuit board), and the touch display panel 51 is adhered to the bracket 53 by an adhering method and then covered by the lamp cover 52.

The lamp housing 52 may be made of a transparent material for transmitting light of the display lamp 511 on the touch display panel 51. Of course, a display lamp hole 521 may be provided, and the light of the display lamp 511 may be transmitted through the display lamp hole 521. The lamp housing 52 is provided with a display lamp hole 521 and a touch lamp hole 523, the display lamp hole 521 is disposed corresponding to the display lamp 511 of the touch display panel 51, a conductive member 5231 electrically connected to the control region of the touch display panel 51 is disposed in the touch lamp hole 523, and the conductive member 5231 is located between the control region of the touch display panel 51 and the touch region of the cup housing 31.

The display lamp 511 is exposed through the display lamp hole 521, and the number of the display lamps 511 may be plural. Each of which may correspond to a control mode, and the prompts of the control mode may be formed by lettering at the cup shell 31, such as boiling water, milk brewing, stewing, heat preservation, complementary food, porridge cooking, disinfection, tea brewing, rice cooking, and the like. Further, by touching the touch region, the sensing signal of the touch region is transmitted to the control region of the touch display panel 51 through the conductive member 5231, thereby generating a control signal. The conductive member 5231 may be made of a conductive sponge, which occupies a smaller volume and saves installation space compared to a conventional touch spring.

The cup case 31 may be a light-transmitting structure corresponding to the display lamp 511, or the cup case 31 may be a light-transmitting structure as a whole. Of course, an open design is also possible, for example: the cup housing 31 is provided with a relief hole 31a corresponding to the display lamp 511 of the touch display panel 51, and a display lamp sealing member 5111 is further provided between the touch display panel 51 and the cup housing 31.

Through the escape hole 31a, the display lamp 511 light can pass out of the cup case 31 through the escape hole 31 a. The sealing member 5111 for the display lamp is provided to further prevent water or impurities from entering the receding hole 31 a.

Further, the control area of the touch display panel 51 is further provided with a warning light 513, the touch light hole 523 is further provided with a light homogenizing sheet 5233, the light homogenizing sheet 5233 is sleeved on the periphery of the conductive member 5231, and the warning light 513 is covered.

The touch operation can be conveniently performed by the arrangement of the indicator light 513, for example, when a hand touches the touch area of the cup shell 31, the conductive member 5231 generates the change of the electric signal and transmits the change to the control area of the touch display panel 51, the indicator light 513 in the control area of the touch display panel 51 is turned on, and the color can be changed, so as to prompt a user to perform various operation modes. The light-homogenizing sheet 5233 can increase the projection area of light, thereby facilitating identification.

Referring further to fig. 12 and 16, in one embodiment of the present invention, a receiver 54 is disposed in the mounting chamber 30b for engaging with the sensor 115 of the lid assembly 10, and the receiver 54 is disposed adjacent to the mouth 30a of the cup 30.

The receiver 54 of the cup 30 can sense the in-position mounting information and generate an in-position mounting signal to detect whether the cover 11 is mounted on the cup 30. The sensor 115 can be a magnet, and the receiver 54 mounted on the cup 30 can be a magnetic sensor, such that when the lid 11 is screwed onto the cup 30, the magnet approaches the magnetic sensor, and the magnetic sensor sends a signal to the control board. After the control panel obtains the signal, will lock those functions that can make liquid heat to boiling, only let the user select not to let hot water heat to the function of boiling, prevent the cup 30 that the maloperation leads to and explode the problem of splitting.

Referring to fig. 12 and 16, in an embodiment of the present invention, a heating element 335 is disposed at a lower end of the cup inner container 33, and a heat insulating element 35 is disposed between the heating element 335 and the cup outer shell 31.

Through the setting of heating member 335, can heat the edible material in the drinking cup. The heating element 335 may be a resistive heating element or an electromagnetic heating element. The heating element 335 may be located within the mounting cavity 30b, particularly between the bottom shell 315 and the lower end of the cup liner 33. In order to prevent the heat generated by the heating element 335 from affecting the electronic components disposed on the bottom housing 315, a heat insulating element 35 is disposed between the heating element 335 and the bottom housing 315, wherein the heat insulating element 35 is shaped to fit the lower end of the cup liner 33, and may be substantially bowl-shaped, covering the heating element 335. Of course, the insulation 35 may also be cylindrical or other shapes. The heat insulating material 35 may be made of a material capable of insulating heat, such as plastic, ceramic, or heat insulating sponge. When installed between the cup housing 31 and the heating element 335, the cup housing 31 may be removably attached using a snap or screw connection. Of course, the heat insulator 35 may be formed to protrude from the inner wall surface of the cup case 31, that is, the heat insulator 35 may be formed integrally with the cup case 31.

In an embodiment of the present invention, a power supply module 55 is further disposed in the mounting cavity 30b, the power supply module 55 is provided with a first joint 31b and a second joint 31c, and the cup housing 31 is provided with a first let port corresponding to the first joint 31b and a second let port corresponding to the second joint 31 c.

The position of the power module 55 may be any position of the mounting chamber 30 b. To facilitate assembly, the power supply assembly 55 may be disposed at the bottom case 315. To further protect power module 55 from heating element 335, power module 55 may be disposed between insulating element 35 and bottom housing 315, with heating element 335 and power module 55 separated by insulating element 35. Meanwhile, in order to accommodate different charging interfaces and different charging voltages, the power board of the power module 55 may be provided with a first connector 31b and a second connector 31 c. For example, the first connector 31b may be adapted to a mains voltage of 220V, and the second connector 31c to a vehicle voltage of 36V. Thus, the applicable scenes of the product can be increased. Further, the power supply module 55 may further include a storage battery, which may be charged when connected to an external circuit, so as to further enhance the applicable scenarios of the product.

With reference to fig. 1 to fig. 2, the present invention further provides a food processor 100, where the food processor 100 includes a cup holder 70 and a cup body assembly, and the specific structure of the cup body assembly refers to the above embodiments, and since the food processor 100 adopts all technical solutions of all the above embodiments, all beneficial effects brought by the technical solutions of the above embodiments are at least achieved, which is not repeated herein. Wherein the cup assembly is attached to the cup holder 70.

Through the setting of cup 70, can make things convenient for cup body component's use, this cup 70 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 the stirring knife tackle spare, and the stirring knife tackle spare is including stretching into the stirring sword in cup 30 and revealing in the shaft coupling of cup shell 31, and cup 70 can set up driving motor, and when cup subassembly installed to cup 70, motor and coupling joint to make the motor can drive the stirring sword and rotate, make food processor 100 have the function of whipping processing food.

Of course, the cup holder 70 may also serve as a relay structure for the mains connection. For example, the following settings are adopted: the cup stand 70 is provided with a mounting groove 71, the lower end of the cup body 30 is inserted into the mounting groove 71, the cup stand 70 is provided with a commercial power connector 73 matched with the first connector 31b of the cup body assembly, the commercial power connector 73 is arranged on the bottom wall of the mounting groove 71, and when the commercial power connector 73 is inserted into the first connector 31b, the side wall of the mounting groove 71 at least partially covers the second yielding opening of the cup body assembly.

The cup holder 70 serves as a transfer station for a commercial power connection structure, and can facilitate the electrical connection between the power supply module 55 of the cup body assembly and the commercial power. When carrying out electric connection with the commercial power, the lateral wall of accessible mounting groove 71 shelters from partial second and lets the position mouth, so, can prevent that the user from inserting commercial power and on-vehicle power and the damage of electronic components that causes simultaneously. The shape of the mounting groove 71 is adapted to the shape of the lower end of the cup body 30.

In the embodiment of the present invention, the food processor 100 may be a soymilk maker, a wall breaking machine, a juice extractor or a traveling cup. This food processor 100 specifically is the cup that accompanies, and this cup that accompanies is small in size conveniently carries, and the user can put into the cup body with fresh vegetables and fruits at any time and whip to can drink fresh vegetables and fruits beverage in real time, nutritious, the taste is good.

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 (28)

1. A cup lid assembly, comprising:

an outer cover;

the inner cover is used for covering the cup opening of the cup body and is also provided with a discharge port; and

and the blocking piece is driven by the outer cover and blocks the discharge port when the outer cover covers the inner cover.

2. The cup cover assembly of claim 1, wherein the inner cover defines a venting chamber, the inner cover further defines a vent opening and a vent opening in communication with the venting chamber, the vent opening defining the vent opening, the closure member being actuated by the outer cover and closing the vent opening when the outer cover closes the inner cover.

3. The lid assembly of claim 2, wherein at least a portion of the closure penetrates into the inner lid, an end of the closure facing away from the inner lid for abutment with the outer lid, the outer lid being configured to actuate the closure to close or open the access opening.

4. The cup lid assembly of claim 3, wherein the blocking member includes a first valve rod and a first sealing plug disposed at one end of the first valve rod, the end of the first valve rod facing away from the plug is configured to abut against the outer lid, the first valve rod penetrates into the inner lid, and the first sealing plug moves in the air passing cavity and blocks or opens the through opening.

5. The lid assembly of claim 4, further comprising a first resilient member that is sleeved to the first valve stem, one end of the first resilient member being in resilient abutment with an end of the first valve stem that is distal from the first sealing plug, and the other end of the first resilient member being in resilient abutment with the inner lid.

6. The lid assembly of claim 5, wherein an end of the first valve stem facing away from the first sealing plug is provided with a fence, and an end of the first elastic member facing away from the first sealing plug elastically abuts against the fence.

7. The cup cover assembly of claim 4, wherein an annular groove is formed in an outer surface of an end portion of the first valve rod extending into the gas passing cavity, and the first sealing plug is sleeved in the annular groove;

and/or the through hole is arranged in a flaring shape along the air outlet direction, and the first sealing plug is matched with the through hole in shape.

8. The cup cover assembly of any one of claims 1-7, further comprising a pressure relief valve and a second elastic member disposed in the air passing chamber of the inner cover, wherein the inner cover is further provided with a pressure relief valve port communicating with the air passing chamber, and the second elastic member is sleeved on the pressure relief valve and drives the pressure relief valve to close or open the pressure relief valve port.

9. The lid assembly of claim 8, wherein the pressure relief valve includes a pressure relief valve seat and a second valve stem, the second valve stem is connected to the pressure relief valve seat, and the second elastic member is coupled to the second valve stem and is fixedly connected to the pressure relief valve seat to drive the pressure relief valve seat to move in the air cavity, so that the second valve stem blocks or opens the pressure relief valve port.

10. The lid assembly of claim 9, wherein an end of the second stem that closes the relief valve port is provided with a second sealing plug.

11. The lid assembly of any of claims 1-7, further including a pressure relief valve, the pressure relief valve including a second stem and a second resilient member, the closure member defining a pressure relief passage communicating the cup and an atmosphere outside, the second stem and the second resilient member being disposed in the pressure relief passage, the second resilient member being coupled to the second stem and configured to urge the second stem to close or open the pressure relief passage.

12. The cup cover assembly of any of claims 1-7, wherein the inner cover includes a valve cover and a valve seat that enclose the air passing chamber, the air passing opening is disposed in the valve seat, and the air outlet is disposed in the valve cover.

13. The cup cover assembly of claim 12, wherein a cover opening is formed at one end of the cover, the valve seat is detachably covered on the cover opening, and a seat seal ring is arranged at the joint of the cover and the seat;

and/or the outer surface of the valve cover or the valve seat is provided with a valve cover sealing ring used for being hermetically installed with the cup opening;

and/or, the valve gap is concavely provided with a sinking groove, the bottom wall of the sinking groove is provided with a yielding port communicated with the air cavity, the yielding port is opposite to the passing port, and the plugging piece movably penetrates through the yielding port.

14. The cup lid assembly of claim 1, wherein the closure includes:

a third elastic member elastically abutting against the inner lid; and

the sealing element is connected with the third elastic element, is driven by the outer cover and seals the discharge port when the outer cover covers the inner cover, and the discharge port is an exhaust port arranged in the inner cover; the sealing element is driven by the third elastic element and opens the air outlet when the outer cover is separated from the inner cover.

15. The lid assembly of claim 14, wherein the lid member includes a body plate and a connector barrel provided on a surface of the body plate, the third resilient member being mounted in the connector barrel and abutting against a wall surface of the inner lid, the body plate closing or opening the vent opening.

16. The lid assembly of claim 15, wherein the lower surface of the body panel further includes a resilient sealing strip that is annularly shaped and configured to cover or uncover the vent in response to the body panel.

17. The lid assembly of claim 16, wherein the inner lid further includes a retention rib disposed around the vent, the resilient sealing strip being abuttable against the retention rib.

18. The cup cover assembly of claim 17, wherein a relief groove is concavely formed in a surface of the elastic sealing strip facing away from the blocking rib, the relief groove is annularly formed, and a projection of the blocking rib on the elastic sealing strip is located in the relief groove.

19. The cup cover assembly of any of claims 15-18, wherein the inner cover includes an inner housing and a mounting portion coupled to the inner housing, the vent is disposed in the inner housing, the inner housing is provided with a vent passage in communication with the vent, and the mounting portion is disposed in the vent passage;

the installation department is equipped with the confession the connecting cylinder male opening, the one end butt of third elastic component in the inner wall of connecting cylinder, the other end butt in the installation department.

20. The cup lid assembly of any of claims 1-7, wherein the outer lid includes a shell having an outer lid opening and a shell liner received within the outer shell, the shell liner having threads for coupling with the cup body, a sensor disposed between the outer lid and the shell liner, the sensor disposed proximate the outer lid opening.

21. A cup assembly comprising a cup and the lid assembly of any one of claims 1 to 20, the lid assembly covering a rim of the cup.

22. The cup body assembly of claim 21, wherein the cup body comprises a cup liner and a cup shell sleeved on the cup liner, a mounting cavity is formed between the cup liner and the cup shell, a control board assembly is arranged in the mounting cavity, and the cup shell is provided with a touch area corresponding to the control board assembly.

23. The cup body assembly of claim 22, wherein a support is further disposed in the mounting cavity, the control panel assembly comprises a touch display panel and a lampshade, the lampshade is sleeved on the support, and the touch display panel is sandwiched between the lampshade and the support.

24. The cup body assembly of claim 23, wherein the lamp housing is provided with a display lamp hole and a touch lamp hole, the display lamp hole is disposed corresponding to a display lamp of the touch display panel, a conductive member electrically connected to the control region of the touch display panel is disposed in the touch lamp hole, and the conductive member is disposed between the control region of the touch display panel and the touch region of the cup shell.

25. The cup body assembly of claim 24, wherein the control area of the touch display panel further comprises a warning light, the touch light hole further comprises a light homogenizing sheet, the light homogenizing sheet is sleeved on the periphery of the conductive member and covers the warning light.

26. The cup body assembly according to any one of claims 21 to 25, wherein a cavity seal ring is sleeved on the cup liner at the cup opening, and the cavity seal ring is clamped between the cup shell and the cup liner;

and/or the cup shell comprises an upper shell, a lower shell and a bottom shell which are detachably connected, wherein a shell sealing ring is arranged at the joint of the upper shell and the lower shell;

and/or when the lamp shade is provided with a touch display panel, the cup shell is provided with a abdicating hole corresponding to a display lamp of the touch display panel, and a display lamp sealing piece is arranged between the touch display panel and the cup shell;

and/or when the cup cover assembly is provided with the sensing piece, a receiver matched with the sensing piece of the cup cover assembly is also arranged in the mounting cavity and is arranged close to the cup opening of the cup body;

and/or the lower end of the cup inner container is provided with a heating element, and a heat insulation element is arranged between the heating element and the cup shell;

and/or a power supply assembly is further arranged in the mounting cavity, the power supply assembly is provided with a first joint and a second joint, and the cup shell is provided with a first yielding position port corresponding to the first joint and a second yielding position port corresponding to the second joint.

27. A food processor comprising a cup holder and a cup body assembly as claimed in any one of claims 21 to 26, the cup body assembly being attached to the cup holder.

28. The food processor of claim 27, wherein the cup holder has a mounting groove, the lower end of the cup body is inserted into the mounting groove, the cup holder has a power connector adapted to the first connector of the cup body assembly, the power connector is disposed on the bottom wall of the mounting groove, and when the power connector is inserted into the first connector, the side wall of the mounting groove at least partially covers the second relief opening of the cup body assembly.

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