Cup lid assembly, blending cup assembly and blender
By designing a recessed section and spaced vents on the food processor lid, combined with a venting device to constrain the direction of hot air, the problem of scalding on the lid is solved, improving user experience and sealing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD
- Filing Date
- 2025-05-22
- Publication Date
- 2026-07-07
Smart Images

Figure CN224461571U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of food blending, and more particularly to a cup lid assembly, a blending cup assembly, and a food processor. Background Technology
[0002] With the continuous improvement of people's living standards, many different types of food processors have appeared on the market. The functions of food processors mainly include, but are not limited to, making soy milk, juicing, rice paste, mincing meat, shaved ice, making coffee, and / or preparing face masks. Food processors can include soy milk makers, blenders, or high-speed blenders—machines that pulverize and mix food. Existing food processors typically have vents in their lids, which pose a risk of burns from the vented fumes when the lid is opened. Utility Model Content
[0003] This application provides a cup lid assembly, a blending cup assembly, and a food processor to at least solve some of the technical problems in the prior art.
[0004] This application provides a cup lid assembly, including:
[0005] The cup lid body has two recessed portions formed by a downward indentation on the top surface of the cup lid body, and a cup lid handle is formed between the two recessed portions; the cup lid body is provided with a vent hole, which penetrates the cup lid body along the height direction of the cup lid body;
[0006] The cup lid handle and the vent are arranged at intervals along a first direction, and the two recesses are located on both sides of the cup lid handle along a second direction. The second direction is different from the first direction and is perpendicular to the height direction of the cup lid body.
[0007] Thus, by creating two recessed sections on the top surface of the lid body, forming a handle between them, the height of the lid assembly is reduced, making it easier for the user to grip. Furthermore, by arranging the handle and vent along a first direction at intervals, and with the two recessed sections located on either side of the handle along a second direction (different from the first direction), the recessed sections avoid contact with the vent, preventing the user from being burned by hot air escaping from the vent when gripping the handle.
[0008] Optionally, the cup lid handle extends upward to form a handle top cover, which is higher than the top surface of the cup lid body. Thus, by making the handle top cover higher than the top surface of the cup lid body, the user can simultaneously grasp both the cup lid handle and the recessed portion when opening the cup lid assembly, increasing the gripping area and improving the user's operating experience. Furthermore, by extending the cup lid handle upward to form the handle top cover, and by integrally molding the cup lid handle and cup lid body, the structural stability between the cup lid handle and cup lid body can be improved, and the gap between the cup lid handle and cup lid body can be reduced, thus improving the sealing performance between the cup lid handle and cup lid body.
[0009] Optionally, the top surface of the lid body on both sides of the lid handle along the first direction is a horizontal plane. By making the top surface of the lid body on both sides of the lid handle along the first direction horizontal, the horizontal surface cannot be gripped, thus preventing hands from being placed on either side of the lid handle along the first direction when opening the lid assembly, and preventing users from being burned by hot air emitted from the vent. Furthermore, by making the top surface of the lid body on both sides of the lid handle along the first direction horizontal, without any downward indentation, the distance between the top surface of the lid body on both sides of the lid handle along the first direction and the bottom of the cup is large, which improves the spill prevention height.
[0010] Optionally, the top surface of the lid body along the first direction on both sides of the lid handle is recessed downwards to form a sunken portion, the volume of which is smaller than the volume of the recessed portion. Thus, by making the volume of the sunken portion on the top surface of the lid body along the first direction on both sides of the lid handle smaller than the volume of the recessed portion, the smaller volume of the sunken portion is less convenient to grip compared to the larger volume of the recessed portion, thereby preventing the user from placing their hands on either side of the lid handle along the first direction when opening the lid assembly, and thus preventing burns from hot air escaping from the vent when opening the lid assembly. Furthermore, by making the volume of the sunken portion on the top surface of the lid body along the first direction on both sides of the lid handle smaller than the volume of the recessed portion, the distance between the top surface of the lid body along the first direction on both sides of the lid handle and the bottom of the cup body is greater than the distance between the top surface of the lid body along the second direction on both sides of the lid handle, which increases the spill prevention height.
[0011] Optionally, the recess includes a first side surface close to the handle of the cup lid along the second direction and a second side surface away from the handle of the cup lid along the second direction; the first side surface is an upright surface, a slope surface or an arc surface, and the slope surface or arc surface tends to move away from the second side surface from top to bottom.
[0012] By making the first side upright, the structure is not only simple and easy to clean, but also easy for users to grip.
[0013] By making the first side sloped or curved, the sloped or curved surface tends to move away from the second side from top to bottom. In this way, the top of the recessed portion near the handle of the cup lid is also covered by the shell of the cup lid body, which makes it easier for the user to insert their fingers into the recessed portion and hold the shell of the cup lid body upwards, preventing the fingers from falling out of the recessed portion and allowing for better force to be applied to the cup lid body.
[0014] Optionally, the second side is sloped or curved; the second side tends to approach the first side from top to bottom. This increases the space for the user to grip.
[0015] Optionally, the length of the recessed portion along the first direction is not less than the length of the cup lid handle along the first direction. Thus, the length of the recessed portion along the first direction is greater than the length of the cup lid handle along the first direction, which increases the space for the user to grip the cup lid handle, making it easier for the user to open the cup lid assembly.
[0016] Optionally, both ends of the recessed portion protrude from the lid handle along the first direction. This allows the length of the recessed portion along the first direction to be greater than the length of the lid handle along the first direction, increasing the space for the user to grip the lid handle and making it easier for the user to open the lid assembly.
[0017] Optionally, the recessed portion increases in length from bottom to top along the second direction. This increases the space for the user to grip.
[0018] Optionally, the length of the recess along the first direction increases from the side closer to the lid handle to the side farther away from the lid handle. Thus, in the first direction, the length of the recess on the side closer to the lid handle is greater than the length of the recess on the side closer to the lid handle, which can increase the user's grip space while avoiding the vent.
[0019] Optionally, the length of the recess along the second direction increases from both sides of the recess along the first direction towards the center. Thus, in the second direction, the length of the middle portion of the recess is greater than the length of the edge portions, which can increase the user's gripping space while avoiding the exhaust vent.
[0020] Optionally, a venting component is also included, which is disposed within the vent hole, with its top end extending beyond the top surface of the cup lid body. This constrains the direction of venting, causing the hot air emitted from the vent hole to dissipate upwards, reducing dissipation to the periphery of the vent hole, thereby lowering the temperature and heat content near the recess.
[0021] Optionally, a support member is also included, disposed at the bottom of the cup lid body; the support member has an exhaust groove corresponding to the position of the exhaust hole; the top surface of the support member is recessed downward to form two cavities, each corresponding to one of the two recessed portions, which are located within the cavities. In this way, the support member supports the cup lid body, improving its stability. Furthermore, the cavities formed by the support member provide space for the cup lid body to recess downward to form the recessed portion.
[0022] Optionally, the bottom surface of the portion of the support member located between the two cavities is recessed upwards to form a first groove. Thus, the first groove faces the top of the lid body, and the distance between the first groove and the bottom of the cup body is greater than the distance between the cavity and the bottom of the cup body, increasing the spill prevention height. Furthermore, the distance between different parts of the support member facing the bottom of the cup body and the bottom of the cup body varies, which can turbulent the food inside the cup, improving the efficiency of food mixing.
[0023] The bottom surface of the lid handle is recessed upwards to form a second groove; the portion of the support member located between the two recesses protrudes upwards to form a raised portion, which is located within the second groove. Thus, the distance between the raised portion and the bottom of the cup body is greater than the distance between the recesses and the bottom of the cup body, increasing the spill prevention height. Furthermore, the recessed bottom surface of the lid handle provides space for the raised portion, reducing the overall height of the lid assembly after the lid body and support member are combined.
[0024] Optionally, a first sealing ring is also included, disposed between the cup lid body and the support member. This creates a seal between the cup lid body and the support member, preventing debris from entering between them through the connection point.
[0025] Optionally, a second sealing ring is also included, located at the end of the support member away from the cup lid body. This allows a seal to be formed between the support member and the cup body, preventing heat and food inside the cup from escaping through the gap between the support member and the cup body.
[0026] Optionally, the top of the support member extends circumferentially upward to form an annular protrusion, and the first sealing ring is disposed between the annular protrusion and the cup lid body. In this way, the annular protrusion can support the first sealing ring and restrict its downward movement, thus better forming a seal between the support member and the cup lid body.
[0027] Optionally, the outer periphery of the support member, away from the cup lid body, extends outward to form two flanges, and the second sealing ring is disposed between the two flanges. In this way, the two flanges can limit the second sealing ring, preventing it from moving up and down in the height direction of the cup lid body, further improving the sealing performance between the support member and the cup body.
[0028] Optionally, a venting component is also included, which covers the venting groove and passes through the venting hole, with its top end extending beyond the top surface of the cup lid body. This allows hot air exiting from the venting groove to be discharged from the cup lid body through the venting component, preventing hot air from the venting groove from entering between the support member and the cup lid body.
[0029] This application also provides a mixing cup assembly, including:
[0030] Cup body;
[0031] A cup lid that fits onto the cup body.
[0032] This application also provides a food processor, including a blending cup assembly;
[0033] The base includes a base and a support extending upward from the base, the stirring cup assembly being assembled to the base;
[0034] The lid is assembled on the support base and covers the cup lid body of the cup lid assembly. Attached Figure Description
[0035] Figure 1 This is a perspective view of a cup lid assembly according to one embodiment of this application;
[0036] Figure 2 for Figure 1 A cross-sectional view of the cup lid assembly shown along the second direction;
[0037] Figure 3 for Figure 1 A cross-sectional view of the cup lid assembly shown along the first direction;
[0038] Figure 4 for Figure 1 An exploded view of the cup lid assembly shown;
[0039] Figure 5 for Figure 1 A three-dimensional schematic diagram of the cup lid assembly shown;
[0040] Figure 6 This is a schematic diagram of the structure of a stirring cup assembly according to one embodiment of this application;
[0041] Figure 7This is a schematic diagram of the structure of a food processor according to one embodiment of this application;
[0042] Figure 8 This is a schematic diagram of the structure of a food processor according to another embodiment of this application.
[0043] Reference numerals: cup lid assembly 1, cup lid body 10, vent 11, recess 20, cup lid handle 30, handle top cover 31, first side 21, second side 22, vent 12, support 40, vent groove 41, cavity 42, first groove 43, second groove 13, protrusion 44, first sealing ring 45, second sealing ring 46, annular protrusion 47, flange 48, blending cup assembly 50, cup body 51, food processor 100, base 52, support base 53, base 54, lid 55, blade assembly 56. Detailed Implementation
[0044] Exemplary embodiments will now be described in detail, examples of which are illustrated in the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numerals in different drawings denote the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with this application. Rather, they are merely examples of apparatuses consistent with some aspects of this application as detailed in the appended claims.
[0045] Please refer to Figure 1 , Figure 1 This is a perspective view of a cup lid assembly 1 according to an embodiment of this application.
[0046] like Figure 1 As shown, the cup lid assembly 1 includes:
[0047] The cup lid body 10 has two recessed portions 20 formed by a downward indentation on its top surface, and a cup lid handle 30 is formed between the two recessed portions 20. The cup lid body 10 is provided with a vent hole 11, which penetrates the cup lid body 10 along its height direction.
[0048] The cup lid handle 30 and the vent 11 are arranged at intervals along the first direction X. Two recesses 20 are located on both sides of the cup lid handle 30 along the second direction Y. The second direction Y is different from the first direction X and is perpendicular to the height direction of the cup lid body 10.
[0049] The vent 11 allows gas and pressure generated by the high-speed rotating blades to escape from the food, preventing the lid assembly 1 from being pushed open or broken due to excessive pressure. When the food processor 100 is operating, the gas emitted from the vent 11 is at a relatively high temperature.
[0050] The top surface of the lid body 10 is recessed downwards to form two recessed portions 20. These two recessed portions 20 are located on both sides of the lid body along a second direction Y, which is perpendicular to the height direction Z of the lid body 10 and different from the first direction X. Thus, by creating two recessed portions 20 on the top surface of the lid body 10, the height of the lid assembly 1 is reduced, making it easier for the user to grip. Furthermore, by arranging the lid handle 30 and the vent 11 at intervals along the first direction X, and with the two recessed portions 20 located on both sides of the lid handle 30 along the second direction Y, which is different from the first direction X, the recessed portions 20 avoid the vent 11, preventing the user from being burned by hot air emitted from the vent 11 when gripping the lid handle 30.
[0051] exist Figure 1 In the embodiment shown, the first direction X and the second direction Y are perpendicular, so that the distance between the two recesses 20 and the exhaust hole 11 is relatively large, which can better avoid the exhaust hole 11.
[0052] Please also refer to Figure 1 and Figure 2 , Figure 2 for Figure 1 The cup lid assembly 1 shown is a cross-sectional view along the second direction Y. Figure 2 In the illustrated embodiment, the cup lid handle 30 extends upward to form a handle top cover 31, which is higher than the top surface of the cup lid body 10. Thus, by making the handle top cover 31 higher than the top surface of the cup lid body 10, the user can simultaneously grasp the handle top cover 31 and the recessed portion 20 when opening the cup lid assembly 1, increasing the gripping area and improving the user's operating experience. Because of the presence of the recessed portion 20, the height of the handle top cover 31 does not need to be very high, thereby reducing the height of the cup lid assembly 1 and further reducing the height of the blending cup assembly 50 and the food processor 100. Furthermore, the cup lid handle 30 and the cup lid body 10 are integrally molded, which improves the structural stability between them and reduces the gap between them, improving the sealing performance.
[0053] like Figure 1 and Figure 2 As shown, the recessed portion 20 is located along the second direction Y near the side of the cup lid handle 30, that is... Figure 1 and Figure 2 The first side 21 shown is flush with the side of the lid handle 30 along the second direction Y. This allows the recess 20 and the lid handle 30 to connect along the second direction Y, making it easier for the user to place their hand into the recess 20 and simultaneously grasp the first side 21 of the recess 20 near the lid handle 30 along the second direction Y and the side of the lid handle 30 along the second direction Y, thus increasing the area that the user can grip.
[0054] Please also refer to Figure 1 and Figure 3 , Figure 3 for Figure 1 The cup lid assembly 1 shown is a cross-sectional view along the first direction X. (See figure) Figure 1 and Figure 3 As shown, the top surface A of the lid body 10 along the first direction X, located on both sides of the lid handle 30, is a horizontal plane. By making the top surface A of the lid body 10 along the first direction X, located on both sides of the lid handle 30, a horizontal plane cannot be gripped, thus preventing hands from being placed on both sides of the lid handle 30 along the first direction X when opening the lid assembly 1, and preventing users from being burned by the hot air emitted from the vent 11 when opening the lid assembly 1. Furthermore, by making the top surface A of the lid body 10 along the first direction X, located on both sides of the lid handle 30, a horizontal plane without downward indentation, the distance between the top surface A of the lid body 10 along the first direction X, located on both sides of the lid handle 30, and the bottom of the cup body 51 is large, which improves the spill prevention height.
[0055] In other embodiments, the top surface of the lid body 10 along the first direction X on both sides of the lid handle 30 is recessed downward to form a recessed portion, the volume of which is smaller than the volume of the recessed portion 20. Thus, by making the volume of the recessed portion on the top surface of the lid body 10 along the first direction X on both sides of the lid handle 30 smaller than the volume of the recessed portion 20, the smaller volume of the recessed portion is less convenient to grip compared to the larger volume of the recessed portion 20. This avoids placing hands on both sides of the lid handle 30 along the first direction X when opening the lid assembly 1, and further prevents the user from being burned by the hot air emitted from the vent 11 when opening the lid assembly 1. Furthermore, by making the volume of the recessed portion of the top surface of the cup lid body 10 located on both sides of the cup lid handle 30 along the first direction X smaller than the volume of the recessed portion 20, and the distance between the top surface of the cup lid body 10 located on both sides of the cup lid handle 30 along the first direction X and the bottom of the cup body 51 greater than the distance between the top surface of the cup lid body 10 located on both sides of the cup lid handle 30 along the second direction Y, the spill prevention height can be improved.
[0056] Please refer to this again. Figure 1 and Figure 2 The recess 20 includes a first side 21 along the second direction Y near the lid handle 30 and a second side 22 along the second direction Y away from the lid handle 30. The first side 21 is upright. This not only makes the structure simple and easy to clean, but also makes it easy for the user to grip.
[0057] In other embodiments, the first side surface 21 is a slope or an arc surface. The arc surface can be an upward-curving arc surface or a downward-curving arc surface. The slope or arc surface tends to move away from the second side surface 22 from top to bottom. In this way, the top of the recessed portion 20 along the second direction Y near the cup lid handle 30 is also covered by the shell of the cup lid body 10, which makes it convenient for the user to insert their fingers into the recessed portion 20 and hold the shell of the cup lid body 10 upward, preventing the fingers from falling out of the recessed portion 20 and allowing for better force application to the cup lid body 10.
[0058] exist Figure 2 In the illustrated embodiment, the second side surface 22 is sloped. The second side surface 22 slopes downwards towards the first side surface 21. This facilitates the user's insertion of their hand into the recess 20 and gripping the side of the recess 20 along the second direction Y near the lid handle 30. Figure 2 In the embodiment shown, the angle between the second side 22 and the height direction Z of the cup lid body 10 is 55°-80°.
[0059] In other embodiments, the second side surface 22 may also be curved, either upwardly or downwardly. The second side surface 22 tends to approach the first side surface 21 from top to bottom. This facilitates the user's insertion of their hand into the recess 20 and gripping the side of the recess 20 along the second direction Y near the lid handle 30. Figure 2 In the embodiment shown, the angle between the second side 22 and the height direction Z of the cup lid body 10 is 55°-80°.
[0060] like Figure 1 As shown, the length L1 of the recessed portion 20 along the first direction X is not less than the length L2 of the cup lid handle 30 along the first direction X. Thus, the length L1 of the recessed portion 20 along the first direction X is greater than the length L2 of the cup lid handle 30 along the first direction X, which can increase the space for the user to hold the cup lid handle 30, making it easier for the user to open the cup lid assembly 1.
[0061] like Figure 1 As shown, both ends of the recessed portion 20 protrude from the cup lid handle 30 along the first direction X. In this way, the length of the recessed portion 20 along the first direction X is greater than the length of the cup lid handle 30 along the first direction X, which increases the space for the user to hold the cup lid handle 30 and makes it easier for the user to open the cup lid assembly 1.
[0062] Please refer to Figure 2 The length of the recessed portion 20 increases from bottom to top along the second direction Y. For example... Figure 2As shown, the length L3 of the bottom of the recessed portion 20 along the second direction Y is less than the length L4 of the top of the recessed portion 20 along the second direction Y. The recessed portion 20 expands outward from bottom to top along the height direction Z of the cup lid body 10. A larger opening in the recessed portion 20 facilitates the user's insertion of their hand. Figure 2 In the embodiment shown, the length of the top of the recess 20 along the second direction Y is 25mm-40mm, and the distance between the bottom of the recess 20 and the top of the recess 20 is 15mm-30mm.
[0063] exist Figure 2 In the illustrated embodiment, the length of the bottom of the recess 20 along the second direction Y gradually increases from bottom to top in the height direction Z of the cup lid handle 30. In other embodiments, the length of the bottom of the recess 20 along the second direction Y does not gradually increase from bottom to top in a local area in the height direction Z of the cup lid handle 30, but the overall length of the recess 20 from the bottom to the top of the recess 20 in the second direction Y shows an increasing trend, which is not a limitation of this application.
[0064] exist Figure 1 In the illustrated embodiment, the length of the recess 20 along the first direction X increases from the side closer to the lid handle 30 to the side farther away from the lid handle 30. Thus, in the first direction X, the length of the recess 20 near the edge of the lid body 10 is greater than the length of the recess 20 near the lid handle 30. This increases the volume of the recess 20 while avoiding the vent 11, making it easier for the user to insert their hand into the recess 20 and grasp the side of the recess 20 near the lid handle 30 along the second direction Y.
[0065] exist Figure 1 In the illustrated embodiment, the recessed portion 20 increases in size from both sides toward the center along the first direction X. Thus, in the second direction Y, the length of the middle portion of the recessed portion 20 is greater than the length of the edge portions. The greater length of the middle portion of the recessed portion 20 facilitates the user's insertion into the recessed portion 20 to grasp the side of the recessed portion 20 near the lid handle 30 along the second direction Y. The smaller length of the two sides of the recessed portion 20 along the first direction X in the second direction Y avoids the need for the vent 11.
[0066] Please also refer to Figure 1 and Figure 3The cup lid body 10 also includes a vent 12, which is disposed within the vent hole 11, with its top end extending beyond the top surface of the cup lid body 10. The protruding top end of the vent 12 constrains the direction of exhaust from the vent hole 11, causing the hot air exhausted from the vent hole 11 to dissipate upwards, reducing heat loss to the periphery of the vent hole 11, thereby lowering the temperature and heat content near the recess 20. Optionally, the vent 12 can be a rubber seal.
[0067] Please also refer to Figure 2 and Figure 4 , Figure 4 for Figure 1 The exploded view of the cup lid assembly 1 is shown. Figure 2 and Figure 4 As shown, the cup lid assembly 1 also includes a support member 40, located at the bottom of the cup lid body 10. The support member 40 has an exhaust groove 41 corresponding to the position of the exhaust hole 11. The top surface of the support member 40 is recessed downwards to form two cavities 42, corresponding to the positions of two recessed portions 20, which are located within the cavities 42. Thus, the support member 40 supports the cup lid body 10, improving its stability. Furthermore, the cavities 42 formed by the support member 40 provide space for the cup lid body 10 to recess downwards to form the recessed portions 20.
[0068] In some embodiments, the support member 40 is made of a rigid material, which can improve the structural stability of the cup lid assembly 1. The cup lid assembly 1 may include a heat insulation layer, which may be made of silicone or soft rubber. Silicone or soft rubber has good elasticity and softness, providing a comfortable touch. Furthermore, silicone or soft rubber materials have good heat insulation properties, which can reduce the temperature of the cup lid assembly 1 and prevent burns to the hands caused by excessively high temperatures when directly contacting the cup lid assembly 1.
[0069] like Figure 4 As shown, the cup lid assembly 1 also includes a venting member 12, which covers the venting groove 41 and passes through the venting hole 11. The top end of the venting member 12 extends out of the top surface of the cup lid body 10. This allows hot air discharged from the venting groove 41 to exit the cup lid body 10 through the venting member 12, preventing hot air from the venting groove 41 from entering between the support member 40 and the cup lid body 10. Furthermore, the venting member 12 can be made of a flexible material, providing a flexible buffer space between the venting groove 41 and the venting hole 11.
[0070] The cup lid body 10 also includes a first sealing ring 45, which is disposed between the cup lid body 10 and the support member 40. In this way, a seal can be formed between the cup lid body 10 and the support member 40, preventing foreign matter from entering between the cup lid body 10 and the support member 40 through the connection between them.
[0071] The cup lid body 10 also includes a second sealing ring 46, located at the end of the support member 40 away from the cup lid body 10. This creates a seal between the support member 40 and the cup body 51, preventing heat and food inside the cup body 51 from escaping through the gap between them. When the support member 40 is inserted into the cup body 51, the second sealing ring 46 is positioned below the spout of the cup body 51. This prevents heat from escaping through the spout, allowing it to escape only through the vent groove 41, the vent member 12, and the vent hole 11.
[0072] In this embodiment, the top of the support member 40 extends upward in the circumferential direction to form an annular protrusion 47, and the first sealing ring 45 is disposed between the annular protrusion 47 and the cup lid body 10. In this way, the annular protrusion 47 can support the first sealing ring 45 and restrict the downward movement of the first sealing ring 45, thereby better forming a seal between the support member 40 and the cup lid body 10.
[0073] In this embodiment, the outer periphery of the end of the support member 40 away from the cup lid body 10 extends outward to form two flanges 48, and the second sealing ring is disposed between the two flanges 48. In this way, the two flanges 48 can limit the second sealing ring 46, preventing the second sealing ring 46 from moving up and down in the height direction Z of the cup lid body 10, and further improving the sealing performance between the support member 40 and the cup body 51.
[0074] Please also refer to Figure 2 , Figure 4 and Figure 5 , Figure 5 for Figure 1 The three-dimensional schematic diagram of the cup lid assembly 1 shown is a structural schematic diagram of the side of the cup lid assembly 1 facing the bottom of the cup body 51. The bottom surface of the support member 40 located between the two recesses 42 is recessed upwards to form a first groove 43. Thus, the first groove 43 is a groove facing the top of the cup lid body 10. Viewed from the bottom to the top of the cup lid assembly 1, the first groove 43 is the recessed area B. Viewed from the bottom to the top of the cup lid assembly 1, the corresponding part of the recess 42 is the raised area C. The distance between the first groove 43 and the bottom of the cup body 51 is greater than the distance between the raised area C and the bottom of the cup body 51, which can increase the spill prevention height. Furthermore, the different distances between different parts of the support member 40 facing the bottom of the cup body 51 and the bottom of the cup body 51 can turbulentize the food inside the cup body 51, improving the efficiency of food processing.
[0075] In this embodiment, the bottom surface of the cup lid handle 30 is recessed upwards to form a second groove 13. The portion of the support member 40 located between the two recesses 42 protrudes upwards to form a protrusion 44, which is located within the second groove 13. Thus, the distance between the protrusion 44 and the bottom of the cup body 51 is greater than the distance between the recesses 42 and the bottom of the cup body 51, increasing the spill prevention height. Furthermore, the recessed bottom surface of the cup lid handle 30 provides space for the protrusion 44, reducing the overall height of the cup lid assembly 1 after the cup lid body 10 and the support member 40 are combined.
[0076] Please refer to Figure 6 , Figure 6 This is a schematic diagram of the structure of a stirring cup assembly 50 according to one embodiment of this application. Figure 6 As shown, the mixing cup assembly 50 includes a cup body 51 and a lid assembly 1, the lid assembly 1 being fitted onto the cup body 51. Figure 6 As shown, the mixing cup assembly 50 also includes a blade assembly 56 disposed inside the cup body 51 for stirring or crushing the contents of the cup body 51. In some embodiments, the bottom of the lid assembly 1 is disposed inside the top of the cup body 51, and the cup body 51 and the cup assembly are engaged. This facilitates the lid assembly 1 to close the cup body 51 or to be removed from the cup body 51.
[0077] This application also provides a food processor 100, including a mixing cup assembly 50. Please refer to... Figure 7 , Figure 7 This is a schematic diagram of the structure of a food processor 100 provided in one embodiment of this application, as shown below. Figure 7 As shown, the food processor 100 also includes a base 52 and a lid 55. The base 52 includes a base 54 and a support 53 extending upward from the base 54. The support 53 and the base 54 can be integrally formed or separately formed and then assembled together. The blending cup assembly 50 is assembled to the base 54, and the lid 55 is assembled to the support 53, with the lid 55 covering the top of the blending cup assembly 50.
[0078] Please refer to Figure 8 , Figure 8 The illustrated embodiments and Figure 7 The embodiments shown are basically the same, except that, in Figure 8 In the embodiment shown, the cover 55 is rotatably assembled above the support base 53.
[0079] The above limitations regarding the lid assembly 1 also apply to the mixing cup assembly 50 and the food processor 100, and will not be elaborated further in this application.
[0080] The above are merely preferred embodiments of this application and are not intended to limit this application. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the scope of protection of this application.
Claims
1. A cup lid assembly, characterized in that, include: The cup lid body (10) has two recessed parts (20) formed by the downward indentation of the top surface of the cup lid body (10), and a cup lid handle (30) is formed between the two recessed parts (20); the cup lid body (10) is provided with a vent hole (11), and the vent hole (11) penetrates the cup lid body (10) along the height direction of the cup lid body (10); The cup lid handle (30) and the vent (11) are arranged at intervals along a first direction, and the two recesses (20) are located on both sides of the cup lid handle (30) along a second direction. The second direction is different from the first direction and is perpendicular to the height direction of the cup lid body (10).
2. The cup lid assembly according to claim 1, characterized in that, The cup lid handle (30) extends upward to form a handle top cover (31), which is higher than the top surface of the cup lid body (10).
3. The cup lid assembly according to claim 1, characterized in that, The top surface of the cup lid body (10) located on both sides of the cup lid handle (30) along the first direction is a horizontal plane; or The cup lid body (10) is recessed downward along the first direction on both sides of the cup lid handle (30) to form a recessed portion, the volume of which is smaller than the volume of the recessed portion (20).
4. The cup lid assembly according to claim 1, characterized in that, The recess (20) includes a first side (21) close to the cup lid handle (30) along the second direction and a second side (22) away from the cup lid handle (30) along the second direction; The first side surface (21) is an upright surface, a slope, or an arc surface, and the slope or arc surface tends to move away from the second side surface (22) from top to bottom; and / or The second side (22) is a sloping or curved surface, and the second side (22) tends to approach the first side (21) from top to bottom.
5. The cup lid assembly according to claim 1, characterized in that, The length of the recess (20) along the first direction is not less than the length of the cup lid handle (30) along the first direction; and / or Both ends of the recess (20) along the first direction protrude from the cup lid handle (30) along the first direction; and / or The length of the recess (20) increases from bottom to top along the second direction; and / or The recess (20) increases in length along the first direction from the side closer to the lid handle (30) to the side farther away from the lid handle (30); and / or The length of the recess (20) along the second direction increases from both sides of the recess (20) along the first direction toward the center.
6. The cup lid assembly according to claim 1, characterized in that, It also includes an exhaust component (12), which is disposed in the exhaust hole (11), and the top end of the exhaust component (12) extends out of the top surface of the cup lid body (10).
7. The cup lid assembly according to claim 1, characterized in that, It also includes a support member (40) located at the bottom of the cup lid body (10); the support member (40) is provided with an exhaust groove (41) corresponding to the position of the exhaust hole (11); the top surface of the support member (40) is recessed downward to form two cavities (42), which correspond to the positions of the two recessed parts (20) respectively, and the recessed parts (20) are located in the cavity (42).
8. The cup lid assembly according to claim 7, characterized in that, The bottom surface of the support member (40) located between the two cavities (42) is recessed upwards to form a first groove (43); and / or The bottom surface of the cup lid handle (30) is recessed upward to form a second groove (13); the portion of the support member (40) located between the two recesses (42) protrudes upward to form a protrusion (44), and the protrusion (44) is located in the second groove (13).
9. The cup lid assembly according to claim 7, characterized in that, It also includes a first sealing ring (45) disposed between the cup lid body (10) and the support member (40); and / or It also includes a second sealing ring (46) located at the end of the support (40) away from the cup lid body (10).
10. The cup lid assembly according to claim 9, characterized in that, The top of the support member (40) extends circumferentially upward to form an annular protrusion (47), and the first sealing ring (45) is disposed between the annular protrusion (47) and the cup lid body (10); and / or The support member (40) extends outward from the outer periphery of one end away from the cup lid body (10) to form two flanges (48), and the second sealing ring (46) is disposed between the two flanges (48).
11. The cup lid assembly according to claim 7, characterized in that, It also includes an exhaust component (12), which covers the exhaust groove (41) and passes through the exhaust hole (11), with the top end of the exhaust component (12) extending out of the top surface of the cup lid body (10).
12. A stirring cup assembly, characterized in that, include: Cup body (51); The cup lid assembly (1) as described in any one of claims 1-11, wherein the cup lid body (10) of the cup lid assembly (1) covers the cup body (51).
13. A food processor, characterized in that, include: The stirring cup assembly (50) as described in claim 12; The base (52) includes a base (54) and a support (53) extending upward from the base (54), wherein the stirring cup assembly (50) is assembled to the base (54); The cover (55) is assembled on the support base (53) and covers the cup cover body (10) of the cup cover assembly (1).