Cooking appliance
By incorporating clearance and stop parts on the mounting base of the cooking appliance, the installation and positioning of the stirring component are simplified, solving the problems of complex structure and difficult disassembly in the prior art, and improving the appearance and ease of cleaning of the appliance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHUHAI UNICOOK TECHNOLOGY CO LTD
- Filing Date
- 2025-07-30
- Publication Date
- 2026-07-14
AI Technical Summary
Existing cooking appliances have complex structures, and the stirring components are difficult to disassemble and clean, resulting in poor appearance and easy accumulation of dirt.
The design adopts a mounting base with a clearance part and a stop part. The installation and positioning of the mixing component are achieved through the cooperation of the clearance part and the stop part, which simplifies the structure and eliminates the need for anti-loosening structures such as screws and nuts.
The simplified structure of the cooking appliance makes it aesthetically pleasing and less prone to accumulating dirt and grime, facilitating user disassembly and cleaning, and improving the installation reliability of the mixing components.
Smart Images

Figure CN224483723U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cooking equipment technology, and more specifically, to a cooking utensil. Background Technology
[0002] In the prior art, cooking appliances need to have a stirring component for stirring. To prevent the stirring component from loosening or falling off, existing cooking appliances are equipped with screw and nut structures and other structures to prevent the screw and nut from loosening. Although the above settings can achieve the connection, they result in a complex structure, poor appearance, and too many gaps and grooves that are easy to trap dirt. At the same time, the stirring blade of the stirring component is a consumable part that needs to be replaced regularly. Such a complex stirring component is difficult to disassemble and assemble, making it inconvenient to operate. Due to the difficulty of disassembly and assembly, the problem of dirt trapping cannot be cleaned in a timely manner. Utility Model Content
[0003] The main objective of this invention is to provide a cooking appliance to solve the problem of complex structures in existing cooking appliances.
[0004] To achieve the above objectives, according to one aspect of the present invention, a cooking appliance is provided, comprising: a pot body; a mounting base located at the bottom of the pot body, the mounting base having a circumferentially extending mounting position, an avoidance portion and a stop portion above the mounting position, the avoidance portion and the stop portion being arranged circumferentially along the mounting base; and a stirring assembly having a mounting structure having an avoidance state and a stop state. When the mounting structure is in the avoidance state, the mounting structure is axially aligned with the avoidance portion, the mounting structure extends into the mounting position through the avoidance portion and rotates within the mounting position, and when the mounting structure rotates to the stop state, the mounting structure is axially aligned with the stop portion, the stop portion preventing the mounting structure from detaching from the mounting base.
[0005] Furthermore, the mounting base also includes a transmission component. The mounting position includes an axially arranged rotation area and a transmission area. The transmission area is closer to the stop portion than the rotation area. The transmission component is located within the transmission area and protrudes radially along the mounting base. When the mounting structure is located in the rotation area, it can rotate relative to the mounting base. When the mounting structure is located in the transmission area, it engages with the transmission component for transmission. The mounting base drives the stirring assembly to rotate through the transmission component.
[0006] Furthermore, the cooking appliance also includes a locking component, which is detachably installed in the rotating area and located on the side of the mounting structure away from the stop. When the locking component is in the rotating area, it drives the mounting structure to the transmission area. The mounting structure is limited and engaged with the stop and is engaged with the transmission component.
[0007] Furthermore, the locking component is a scraper assembly, which is rotatable relative to the pot body.
[0008] Furthermore, the locking assembly has a U-shaped groove, the open side of which communicates with the outside, and the locking assembly is inserted into the mounting base through the open side of the U-shaped groove.
[0009] Furthermore, the stirring assembly has a mounting hole, and the mounting structure is located on the inner wall of the mounting hole and extends toward the center of the mounting hole, making the mounting hole a non-circular structure.
[0010] Furthermore, the mounting base includes: a base body, which is connected to the pot body; a stop pin, which is connected to the top of the base body, and a mounting position is formed below the stop pin. The stop pin has a non-circular structure, and its circumferential side has a clearance portion and a stop portion. The distance between the stop portion and the central axis of the mounting base is greater than the distance between the clearance portion and the central axis of the mounting base.
[0011] Furthermore, the stirring assembly has a mounting hole, the shape of which is matched with the shape of the stop pin, and the mounting structure is located on the inner wall of the mounting hole, close to the central axis of the mounting base.
[0012] Furthermore, the mounting base also includes a pad, which is fitted onto the base body and located below the stop pin. The pad is located within the mounting position, and the mounting structure is located outside the pad and can engage with the pad through transmission. The mounting base drives the stirring assembly to rotate through the pad.
[0013] Furthermore, the stirring assembly has a non-circular mounting hole, with a mounting structure and a clearance structure on the two sides of the mounting hole, respectively. When the mounting structure is in the clearance state, the clearance structure is axially aligned with the stop part. The length of the mounting structure is equal to the length of the clearance part, and the lengths of both the mounting structure and the clearance part are greater than the length of the stop part. The lengths of the pad side, the stop part, and the clearance structure are equal.
[0014] Furthermore, the projection of the pad onto the end face of the stop pin is within the range of the stop pin.
[0015] Furthermore, the cooking appliance includes a locking component, which is detachably installed below the pad. When the mounting structure is located below the pad, it can rotate relative to the mounting base. When the locking component is installed below the mixing component, it abuts against the mixing component and engages with the pad.
[0016] Furthermore, the base has a stepped shaft structure, with a first step, a second step, a third step, and a fourth step connected axially in sequence. A stop pin is installed on the outside of the first step, the fourth step is installed on the pot body, and a pad is installed on the outside of the second step, with the peripheral side of the pad protruding from the peripheral side of the second step. The mounting structure can rotate when it is located on the third step, and it engages with the pad in a transmission manner when it is located on the second step.
[0017] Furthermore, the seat, stop pin, and pad are integrated into a single structure.
[0018] Applying the technical solution of this utility model, the mounting position has a clearance part and a stop part. When the mounting structure is axially aligned with the clearance part, it can extend into the mounting position through the clearance part. After the mounting structure rotates within the mounting position, it reaches a position axially aligned with the stop part. The stop part can then prevent the mounting structure from detaching from the mounting seat. Specifically, during installation, the mounting structure is first adjusted to the clearance state. At this time, the mounting structure can pass through the clearance part and extend into the mounting position to achieve preliminary installation. Then, the mounting structure can be rotated so that the mounting structure and the clearance part are axially misaligned and aligned with the stop part. At this time, under the obstruction of the stop part, the mounting structure is kept in the mounting position and cannot detach from the mounting seat, thereby realizing the installation of the stirring component. In this way, by setting an installation position on the mounting base at the bottom of the pot and setting an installation structure on the stirring component, the stirring component can be installed in the pot without the need for additional anti-loosening structures such as screws and nuts to fix the stirring component, or for setting too many gaps and grooves for installing the stirring component and / or screws, nuts and other fasteners. This simplifies the structure of the cooking appliance, making the cooking appliance look beautiful and less prone to accumulating dirt. Attached Figure Description
[0019] The accompanying drawings, which form part of this application, are used to provide a further understanding of the present invention. The illustrative embodiments of the present invention and their descriptions are used to explain the present invention and do not constitute an undue limitation of the present invention. In the drawings:
[0020] Figure 1 An exploded view of the mounting base and pot body of a cooking appliance according to Embodiment 1 of this utility model is shown;
[0021] Figure 2 It shows Figure 1 A sectional view;
[0022] Figure 3 It shows Figure 2 Enlarged view of the mounting base;
[0023] Figure 4 This diagram shows a structural schematic of the pot body with the mounting base installed in place according to Embodiment 1 of this utility model;
[0024] Figure 5 It shows Figure 4 A sectional view;
[0025] Figure 6 It shows Figure 5 Enlarged view of the mounting base;
[0026] Figure 7 A schematic diagram of the stirring assembly according to Embodiment 1 of this utility model is shown;
[0027] Figure 8 A schematic diagram of the structure of the pad in Embodiment 1 of this utility model is shown;
[0028] Figure 9 This diagram shows the structure of the pot body before the stirring assembly is installed in Embodiment 1 of the present invention;
[0029] Figure 10 It shows Figure 9 A sectional view;
[0030] Figure 11 It shows Figure 10 Enlarged view of the mounting base;
[0031] Figure 12 This diagram shows the structure of the pot body with the stirring assembly installed in place according to Embodiment 1 of this utility model;
[0032] Figure 13 It shows Figure 12 A sectional view;
[0033] Figure 14 It shows Figure 13 Enlarged view of the mounting base;
[0034] Figure 15 This shows a schematic diagram of the pot body before the scraper assembly is installed in Embodiment 1 of this utility model;
[0035] Figure 16 It shows Figure 15 A sectional view;
[0036] Figure 17 This diagram shows the structure of the pot body with the scraper assembly installed in place according to Embodiment 1 of this utility model;
[0037] Figure 18 It shows Figure 17 A sectional view;
[0038] Figure 19 It shows Figure 18 Enlarged view of the mounting bracket.
[0039] The above figures include the following reference numerals:
[0040] 10. Pot body; 20. Mounting base; 21. Mounting position; 22. Clearance part; 23. Stop part; 24. Transmission component; 25. Base body; 251. First step; 252. Second step; 253. Third step; 254. Fourth step; 26. Stop pin; 30. Stirring assembly; 31. Mounting structure; 32. Mounting hole; 40. Scraper assembly; 41. U-shaped groove. Detailed Implementation
[0041] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0042] It should be noted that, unless otherwise specified, all technical and scientific terms used in this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application pertains.
[0043] In this utility model, unless otherwise stated, directional terms such as "upper," "lower," "top," and "bottom" are generally used in relation to the direction shown in the accompanying drawings, or in relation to the vertical, perpendicular, or gravitational direction of the component itself; similarly, for ease of understanding and description, "inner" and "outer" refer to the inner and outer contours of each component itself, but the above directional terms are not used to limit this utility model.
[0044] To address the problem of complex structures in existing cooking utensils, this utility model provides a cooking utensil.
[0045] Example 1
[0046] like Figures 1 to 19 As shown, the cooking appliance of this embodiment includes: a pot body 10, a mounting base 20, a stirring assembly 30, and a scraping assembly 40; the mounting base 20 is located at the bottom of the pot body 10, and the mounting base 20 has a circumferentially extending mounting position 21. Above the mounting position 21, there is a clearance portion 22 and a stop portion 23, which are arranged circumferentially along the mounting base 20; the stirring assembly 30 has a mounting structure 31, which has a clearance state and a stop state. When the mounting structure 31 is in the clearance state, the mounting structure 31 is axially aligned with the clearance portion 22, and the mounting structure 31 extends into the mounting position 21 through the clearance portion 22. When the mounting structure 31 is rotated to the stop state, the mounting structure 31 is axially aligned with the stop portion 23, and the stop portion 23 prevents the mounting structure 31 from disengaging from the mounting base 20.
[0047] In this embodiment, the mounting position 21 is provided with a clearance part 22 and a stop part 23. When the mounting structure 31 is axially aligned with the clearance part 22, it can extend into the mounting position 21 through the clearance part 22. After the mounting structure 31 rotates within the mounting position 21, it reaches a position axially aligned with the stop part 23. The stop part 23 can then prevent the mounting structure 31 from detaching from the mounting base 20. Specifically, during installation, the mounting structure 31 is first adjusted to the clearance state. At this time, the mounting structure 31 can pass through the clearance part 22 and extend into the mounting position 21 to achieve initial installation. Then, the mounting structure 31 can be rotated so that the mounting structure 31 is axially misaligned with the clearance part 22 and axially aligned with the stop part 23. At this time, the stop part 23 prevents the mounting structure 31 from detaching from the mounting base 20, thereby realizing the installation of the stirring assembly 30. In this way, by setting the mounting position 21 on the mounting base 20 at the bottom of the pot body 10 and setting the mounting structure 31 on the stirring component 30, the stirring component 30 can be initially installed in the pot body 10. There is no need to set additional anti-loosening structures such as screws and nuts to fix the stirring component 30, nor is it necessary to set too many gaps and grooves for installing the stirring component 30 and / or screws, nuts and other fasteners. This simplifies the structure of the cooking appliance, makes the cooking appliance look beautiful and less prone to dirt accumulation.
[0048] Because the stirring assembly 30 and the stop portion 23 abut against each other, the stirring assembly 30 can achieve transmission through the friction between itself and the mounting base 20, thereby achieving the effect of driving the stirring assembly 30 to rotate. Considering the poor reliability of friction transmission, this embodiment has a separate transmission structure to achieve the effect of the mounting base 20 driving the stirring assembly 30 to rotate stably and reliably through the transmission structure. The mounting base 20 in this embodiment also includes a transmission component 24 as a transmission structure. The mounting position 21 includes an axially arranged rotation area and a transmission area. When the mounting structure 31 is located in the rotation area, it can rotate relative to the mounting base 20. The mounting structure 31 can extend into the rotation area through the avoidance portion 22 aligned with it. When the mounting structure 31 rotates in the rotation area, it can reach a position axially aligned with the stop portion 23 and be blocked by the stop portion 23 to prevent the mounting structure 31 from detaching from the mounting base 20. The transmission area is closer to the stop 23 than the rotation area. Since this embodiment takes the pot body 10 with the opening facing upward as an example, the stirring assembly 30 is installed on the mounting base 20 from top to bottom. Therefore, the transmission area is located above the rotation area. The transmission member 24 is located in the transmission area and protrudes radially along the mounting base 20. When the mounting structure 31 is located in the transmission area, it abuts against the transmission member 24 and engages with the transmission member 24 in a transmission cooperation. The mounting base 20 rotates relative to the pot body 10 and drives the stirring assembly 30 to rotate through the transmission member 24, so that the stirring assembly 30 can stir the food in the pot body 10.
[0049] In this embodiment, the cooking appliance also includes a locking component, which is detachably installed in the rotating area. When the locking component is installed at the mounting position 21, it is located on the side of the mounting structure 31 away from the stop 23. Thus, the locking component is located within the rotating area and can abut against the lower surface of the mounting structure 31, thereby pushing the stirring component 30 upward. This causes the mounting structure 31, originally located within the rotating area, to rise into the transmission area, allowing it to engage with the stop 23 and simultaneously engage with the transmission component 24. The locking component prevents the mounting structure 31 from moving freely up and down within the transmission area, stabilizing the installation position of the stirring component 30 on the mounting base 20 and achieving a locking effect on the stirring component 30.
[0050] After initially installing the mounting structure 31 into the rotating area and rotating it to the stop position, the locking component is installed. Since the locking component is located between the mounting structure 31 and the mounting base 20, and on the side of the mounting structure 31 furthest from the stop 23, the locking component causes the mounting structure 31 to engage with the stop 23. This allows the stirring component 30 and the locking component to be together and confined within the pot body 10. In other words, the stirring component 30 is fully installed by engaging with the mounting base 20 through the mounting structure 31 and being engaged with the stop 23 by the locking component. This eliminates the need for nuts or other anti-loosening structures to secure the stirring component 30 and the locking component, simplifying the structure of the cooking appliance. Disassembly is also straightforward: simply remove the locking component to release the engagement between the mounting structure 31 and the stop 23, then move and rotate the mounting structure 31 to detach it from the mounting base 20, thus disassembling the stirring component 30. This facilitates user assembly and disassembly, allowing for timely cleaning of the cooking appliance.
[0051] Optionally, the specific structure of the locking assembly can be set as needed, and a gasket or other structure can be used, as long as it can be inserted into the lower part of the mounting structure 31 so that the mounting structure 31 can move upward into the transmission area. At the same time, in order to facilitate the cooperation between the locking assembly and the mounting base 20, the locking assembly can adopt a structure such as a gasket with a U-shaped groove, so that it can be easily inserted into the outside of the mounting base 20.
[0052] In this embodiment, a scraper assembly 40 is used for locking. The cooking appliance also includes a scraper assembly 40, which is rotatably mounted relative to the pot body 10. The scraper assembly 40 serves as a locking component, thus simultaneously scraping the pot and locking the stirring assembly 30, achieving two functions at once. This eliminates the need for additional gaskets or other structures, further reducing structural complexity and the possibility of dirt accumulation. Of course, besides using the scraper assembly 40 as a locking component, a separate locking component can also be used.
[0053] Based on the above-described configuration of the scraper assembly 40 as a locking component, when the scraper assembly 40 is installed in the rotating area, it drives the mounting structure 31 to move upward to the transmission area, allowing the mounting structure 31 to abut against the transmission member 24 and be driven to rotate by the transmission member 24. Specifically, the mounting structure 31 can be manually moved to the transmission area, allowing the scraper assembly 40 to be installed in the rotating area and causing the mounting structure 31 to abut against the stop part 23, thereby achieving the limited installation of the stirring assembly 30 and the scraper assembly 40. Alternatively, the installation of the scraper assembly 40 can squeeze and push the mounting structure 31 to move to the transmission area, causing the mounting structure 31 to abut against the stop part 23, thereby achieving the limited installation of the stirring assembly 30 and the scraper assembly 40.
[0054] like Figures 3 to 9 As shown, the mounting base 20 in this embodiment is columnar, with its axis substantially coinciding with the axis of the pot body 10. The stirring assembly 30 has a mounting hole 32, and the mounting structure 31 is located on the inner wall of the mounting hole 32 and extends towards the center of the mounting hole 32, thus making the mounting hole 32 a non-circular structure, which helps to limit the fit between the mounting hole 32 and the stop part 23. The mounting structure 31 can cooperate with the clearance part 22 and the stop part 23 of the mounting position 21, so that the stirring assembly 30 can be installed on the mounting base 20 without detaching from the mounting base 20. It is not necessary to set mutually cooperating screws and nuts or other anti-loosening structures on the mounting base 20 of the stirring assembly 30 and the pot body 10 for installing and securing the stirring assembly 30, which simplifies the structure of the mounting base 20 and the stirring assembly 30, making the structure of the cooking appliance simple and beautiful.
[0055] like Figures 1 to 8 As shown, the mounting base 20 in this embodiment includes a base body 25 and a stop pin 26. The base body 25 serves as a base part and is connected to the pot body 10. The stop pin 26 is connected to the top of the base body 25. The stop pin 26 can be welded to the top of the base body 25, or the two can be connected together by a later connection. For example, the stop pin 26 and the base body 25 can be set as an interference fit, or the stop pin 26 and the top of the base body 25 can be fixedly connected by setting a limiting pin, a limiting block or other limiting components. The area below the stop pin 26 forms a mounting position 21. The stop pin 26 can be a non-circular structure such as a rectangle or a polygonal prism. The circumferential side of the stop pin 26 has a relief part 22 and a stop part 23. The distance between the stop part 23 and the central axis of the mounting base 20 is greater than the distance between the relief part 22 and the central axis of the mounting base 20. This allows the stop part 23 of the stop pin 26 to prevent the mounting structure 31 located on the transmission member 24 from detaching from the mounting base 20. By simply setting the stop pin 26 with the relief part 22 and the stop part 23, the stirring assembly 30 can be installed on the mounting base 20 at the bottom of the pot body 10 and the stirring assembly 30 can be prevented from detaching from the mounting base 20. There is no need to install the stirring assembly 30 with a nut or other anti-loosening structure, which simplifies the structure of the cooking appliance.
[0056] like Figures 1 to 8 As shown, this embodiment takes the retaining pin 26 as a rectangular structure and the seat 25 as a stepped shaft structure as an example. The seat 25 has a first step 251, a second step 252, a third step 253, and a fourth step 254 connected axially in sequence. The first step 251, the second step 252, the third step 253, and the fourth step 254 are arranged sequentially from top to bottom, and their radial size, that is, the size of the cross-section perpendicular to the axial direction, gradually increases to form a stepped shaft. The retaining pin 26 is fixedly installed on the outer periphery of the first step 251. The fourth step 254 can be installed on the pot body 10 or a driving component outside the pot body 10. The base 25 is driven to rotate; the area where the outer surface of the third step 253 is located is the rotation area, and the mounting structure 31 can rotate within the rotation area when it is located on the third step 253; the area where the outer surface of the second step 252 is located is the transmission area, and the transmission component 24 is installed on the outer periphery of the second step 252. When the mounting structure 31 is located on the second step 252, it can be driven by the transmission component 24, and the peripheral side of the transmission component 24 protrudes from the peripheral side of the second step 252, thereby realizing the transmission cooperation between the base 25, the transmission component 24, and the mounting structure 31, without affecting the limiting cooperation between the mounting structure 31 and the stop pin 26.
[0057] In this embodiment, the two long sides of the rectangular stop pin 26 are the clearance part 22, and the two short sides are the stop part 23. When the mounting structure 31 is axially aligned with the long side of the stop pin 26, the mounting structure 31 passes through the stop pin 26 and extends into the rotation area, and rotates within the rotation area. When the mounting structure 31 is axially aligned with the short side of the stop pin 26, the short side of the stop pin 26 can prevent the mounting structure 31 from detaching from the mounting base 20.
[0058] like Figures 7 to 13 As shown, the shape of the mounting hole 32 in this embodiment is matched with the shape of the stop pin 26. The mounting structure 31 is located on the inner wall of the mounting hole 32, close to the central axis of the mounting base 20. This allows the mounting structure 31 to extend into the mounting position 21 through the avoidance part 22, and to be blocked from detaching from the mounting base 20 by the stop part 23. The installation and positioning of the stirring assembly 30 can be achieved simply by setting the mounting structure 31 close to the central axis of the mounting base 20. There is no need to set additional screws, nuts, or other anti-loosening structures for installing the stirring assembly 30, which simplifies the structure of the cooking appliance. The installation and positioning of the stirring assembly 30 can be achieved by adjusting the position of the mounting structure 31 and rotating the mounting structure 31. The stirring assembly 30 can be quickly disassembled and assembled without tools, making the operation simple.
[0059] Specifically, since the stop pin 26 in this embodiment is a rectangular structure, the mounting hole 32 in this embodiment is a rectangular through hole. The rectangular through hole is configured to cooperate with the rectangular stop pin 26. The rectangular through hole has two long sides and two short sides. The two long sides of the rectangular through hole are the mounting structure 31. The two long sides of the rectangular through hole are slightly larger than the long sides of the stop pin 26, and the two short sides of the rectangular through hole are slightly larger than the short sides of the stop pin 26. When the two long sides of the rectangular through hole are axially aligned with the two long sides of the stop pin 26, the mounting structure 31 can pass through the stop pin 26 and extend into the rotation area, and rotate 90 degrees within the rotation area. When the two long sides of the rectangular through hole are axially aligned with the short sides of the stop pin 26, the short sides of the stop pin 26 can block the two long sides of the rectangular through hole, thereby preventing the mounting structure 31 from detaching from the mounting base 20.
[0060] like Figure 8 As shown, the mounting base 20 in this embodiment also includes a pad, which is the transmission component 24. The pad is sleeved on the base 25 and located below the stop pin 26. The pad is located inside the mounting position 21 and in the transmission area above the mounting position 21. The mounting structure 31 is located outside the pad and can make transmission contact with the pad. The mounting base 20 drives the stirring assembly 30 to rotate through the pad. In this embodiment, the pad is a hollow square ring. The pad is sleeved on the second step 252 of the base 25 and is limited by the stop pin 26 on the second step 252. The area where the outer surface of the pad is located is the transmission area. The pad can make transmission contact with the two long sides of the mounting hole 32. The pad can drive the stirring assembly 30 to rotate relative to the pot 10 in the transmission area, so that the stirring assembly 30 can stir the food in the pot 10.
[0061] In this embodiment, the base 25, the stop pin 26, and the pad are formed into an integral structure by welding, integral casting, or other methods, so that the three form an integral component. Of course, the three or two of them can also adopt a separate structure, which can be assembled together by interference fit or other post-assembly methods.
[0062] like Figure 10 and Figure 11As shown, in this embodiment, the projection of the pad on the end face of the stop pin 26 is within the range of the stop pin 26. This ensures that the pad's placement does not affect the stop pin 26's ability to prevent the mounting structure 31 from disengaging from the mounting base 20, and ensures that the mounting base 20 can abut or pass through the stop pin 26. Taking the stop pin 26 as a rectangular structure, the mounting hole 32 as a rectangular through hole, and the pad as a hollow square ring as an example, the lengths of the four outer sides of the pad are less than the lengths of the two long sides of the stop pin 26 and slightly less than the lengths of the two short sides of the stop pin 26. The lengths of its four outer sides are also slightly less than the lengths of the short sides of the mounting hole 32. This ensures that when the mounting structure 31 is located outside the pad and engages with it, the stop pin 26 can prevent the mounting structure 31 from disengaging from the mounting base 20, ensuring that the stirring assembly 30 does not disengage from the bottom of the pot body 10. It should be noted that "slightly less than" in this embodiment means that the two are basically the same size, but considering the possibility of nesting, the length of the outer side is slightly longer to ensure that the nesting action can proceed smoothly.
[0063] like Figure 7 As shown, in this embodiment, the two sides of the mounting hole 32 are the mounting structure 31 and the clearance structure, respectively. Since the mounting hole 32 is a rectangular through hole, the mounting structure 31 is the part with the long side, and the clearance structure is the part with the short side. When the mounting structure 31 is in the clearance state, the clearance structure is axially aligned with the stop part 23. Overall, the specific size matching between the sides of the mounting hole 32, the pad, and the stop pin 26 in this embodiment is as follows: the length of the mounting structure 31 is equal to the length of the clearance part 22, and the lengths of both the mounting structure 31 and the clearance part 22 are greater than the length of the stop part 23. The lengths of the pad side, the stop part 23, and the clearance structure are equal. In this way, the stirring assembly 30 can be inserted from top to bottom into the outside of the base 25 and then rotated 90 degrees to basically complete the locking. It should be noted that the above equality is not complete equality. Since there is a hole-shaft fit relationship between the mounting hole 32 and the pad and the stop pin 26, the structure that is the hole needs to be slightly larger than the structure that is the shaft so that the hole can fit on the outside of the shaft.
[0064] like Figure 10 and Figure 11As shown, in this embodiment, the pad and the lower side of the mounting position 21 are spaced apart. The area where the outer surface of the pad is located is the transmission area, and the area between the pad and the lower side of the mounting position 21 is the rotation area. When the mounting structure 31 is located in the rotation area below the pad, it can rotate relative to the mounting base 20 because it is separated from the pad. The scraper assembly 40 is detachably installed below the pad. When the scraper assembly 40 is installed below the stirring assembly 30, the scraper assembly 40 abuts against the stirring assembly 30. At this time, the mounting structure 31 of the stirring assembly 30 moves upward to the transmission area and abuts against the pad for transmission cooperation. The pad can drive the stirring assembly 30 to rotate relative to the pot body 10.
[0065] like Figure 15 As shown, the scraper assembly 40 in this embodiment has a U-shaped groove 41. The open side of the U-shaped groove 41 is connected to the outside. The scraper assembly 40 is inserted into the mounting base 20 through the open side of the U-shaped groove 41. The U-shaped groove 41 of the scraper assembly 40 engages with the third step 253 of the base 25, thereby allowing the stirring assembly 30 to move upward to leave a gap for the scraper assembly 40 so that the scraper assembly 40 can be inserted into the mounting base 20. During the installation process, the scraper assembly 40 can move the mounting hole 32 to the pad. When the scraper assembly 40 is installed in place, the scraper assembly 40 and the stirring assembly 30 can press against each other. At this time, the scraper assembly 40 and the stirring assembly 30 are installed. Because of the U-shaped groove 41 and the circular cross section of the third step 253, the scraper assembly 40 can rotate relative to the mounting base 20 after it is installed on the mounting base 20. This allows the scraper assembly 40 to remain stationary while the mounting base 20 drives the stirring assembly 30 to rotate, thus achieving the scraping action inside the pot body 10 in conjunction with the rotation of the pot body 10.
[0066] like Figure 7 As shown, the stirring assembly 30 in this embodiment includes a base and a stirring component. The base is a component that cooperates with the mounting base 20. The mounting hole 32 is opened on the base and extends through the upper and lower sides of the base. The bottom end of the stirring component is connected to the base and extends upward along the inner wall of the pot body 10, thereby achieving the stirring effect on the ingredients.
[0067] like Figures 9 to 19As shown, during installation of the cooking appliance in this embodiment, the mounting base 20 is first installed in place. The base body 25, the stop pin 26, and the pad are welded together, and the pad is limited by the stop pin 26 on the mounting position 21. After aligning the mounting hole 32 with the stop pin 26, the mounting hole 32 passes through the stop pin 26 and extends into the rotating area under the pad. The mounting hole 32 is rotated 90 degrees and moved upward so that the mounting structure 31 abuts against the pad for transmission. Then, the scraper assembly 40 is snapped onto the third step 253 of the base body 25. At this time, the scraper assembly 40 and the stirring assembly 30 are pressed together and installed on the mounting base 20. The installation of the scraper assembly 40 and the stirring assembly 30 is completed. During disassembly, First, pull out the scraper assembly 40, then move the stirring assembly 30 from the transmission area to the rotation area, rotate it 90 degrees, and move it upwards to disengage the mounting structure 31 from the mounting base 20, thus detaching the stirring assembly 30 from the pot body 10. This completes the disassembly of the scraper assembly 40 and the stirring assembly 30. The scraper assembly 40 and the stirring assembly 30 can be disassembled and assembled by setting the stop pin 26 and the mounting position 21. There is no need to set additional anti-loosening structures such as screws and nuts, nor is it necessary to set too many gaps and grooves. This simplifies the structure of the cooking utensil, makes the cooking utensil look beautiful and less prone to dirt accumulation, and facilitates disassembly, allowing users to easily assemble and disassemble the utensil, and thus enabling the cooking utensil to be cleaned in a timely manner.
[0068] It should be noted that "multiple" in the above embodiments refers to at least two.
[0069] As can be seen from the above description, the embodiments of this utility model achieve the following technical effects:
[0070] 1. It solves the problem of complex structure in existing cooking utensils;
[0071] 2. No additional anti-loosening structures such as screws and nuts are needed, nor are excessive gaps and grooves required, simplifying the structure of cooking utensils;
[0072] 3. The structure of cooking utensils has been simplified, making them more aesthetically pleasing and less prone to accumulating dirt and grime. They are also easier for users to disassemble and assemble, allowing for timely cleaning.
[0073] 4. The mixing components can be quickly assembled and disassembled without tools, making operation simple;
[0074] 5. Multiple installation structures are provided to ensure that the mixing components are subjected to uniform resistance force, thereby improving the reliability of the mixing component installation.
[0075] Obviously, the embodiments described above are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of this utility model.
[0076] It should be noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the exemplary embodiments according to this application. As used herein, the singular form is intended to include the plural form as well, unless the context clearly indicates otherwise. Furthermore, it should be understood that when the terms "comprising" and / or "including" are used in this specification, they indicate the presence of features, steps, operations, devices, components, and / or combinations thereof.
[0077] It should be noted that the terms "first," "second," etc., used in the specification, claims, and accompanying drawings of this application are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate so that the embodiments of this application described herein can be implemented in sequences other than those illustrated or described herein.
[0078] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A cooking utensil, characterized in that, include: Pot body (10); Mounting base (20), the mounting base (20) is located at the bottom of the pot body (10), the mounting base (20) has a circumferentially extending mounting position (21), the mounting position (21) has a clearance part (22) and a stop part (23) above it, the clearance part (22) and the stop part (23) are arranged circumferentially along the mounting base (20); A stirring assembly (30) has a mounting structure (31) having a clearance state and a stop state. When the mounting structure (31) is in the clearance state, the mounting structure (31) is axially aligned with the clearance part (22), and the mounting structure (31) extends into the mounting position (21) through the clearance part (22). When the mounting structure (31) rotates to the stop state, the mounting structure (31) is axially aligned with the stop part (23), and the stop part (23) prevents the mounting structure (31) from disengaging from the mounting base (20).
2. The cooking utensil according to claim 1, characterized in that, The mounting base (20) further includes a transmission component (24). The mounting position (21) includes an axially arranged rotation area and a transmission area. The transmission area is closer to the stop (23) than the rotation area. The transmission component (24) is located within the transmission area and protrudes radially from the mounting base (20). When the mounting structure (31) is located in the rotation area, it can rotate relative to the mounting base (20). When the mounting structure (31) is located in the transmission area, it engages with the transmission component (24) in a transmission cooperation. The mounting base (20) drives the stirring assembly (30) to rotate through the transmission component (24).
3. The cooking utensil according to claim 2, characterized in that, The cooking appliance also includes a locking component, which is detachably installed in the rotating area and located on the side of the mounting structure (31) away from the stop (23). When the locking component is in the rotating area, it drives the mounting structure (31) to the transmission area. The mounting structure (31) is limited to the stop (23) and is driven to the transmission component (24).
4. The cooking utensil according to claim 3, characterized in that, The locking component is a scraper assembly (40), which is rotatably mounted relative to the pot body (10).
5. The cooking utensil according to claim 3, characterized in that, The locking assembly has a U-shaped groove (41), the opening side of which is connected to the outside, and the locking assembly is inserted into the mounting base (20) through the opening side of the U-shaped groove (41).
6. The cooking utensil according to claim 1, characterized in that, The stirring assembly (30) has a mounting hole (32), and the mounting structure (31) is located on the inner wall of the mounting hole (32) and extends toward the center of the mounting hole (32), so that the mounting hole (32) has a non-circular structure.
7. The cooking utensil according to claim 1, characterized in that, The mounting base (20) includes: A base (25) is connected to the pot body (10); A stop pin (26) is connected to the top of the seat (25). The mounting position (21) is formed below the stop pin (26). The stop pin (26) has a non-circular structure. The circumferential side of the stop pin (26) has the clearance part (22) and the stop part (23). The distance between the stop part (23) and the central axis of the mounting seat (20) is greater than the distance between the clearance part (22) and the central axis of the mounting seat (20).
8. The cooking utensil according to claim 7, characterized in that, The stirring assembly (30) has a mounting hole (32), the shape of which is matched with the shape of the stop pin (26), and the mounting structure (31) is located on the inner wall of the mounting hole (32) close to the central axis of the mounting base (20).
9. The cooking utensil according to claim 7, characterized in that, The mounting base (20) also includes a pad, which is sleeved on the base body (25) and located below the stop pin (26). The pad is located inside the mounting position (21). The mounting structure (31) is located outside the pad and can engage with the pad through transmission. The mounting base (20) drives the stirring assembly (30) to rotate through the pad.
10. The cooking utensil according to claim 9, characterized in that, The stirring assembly (30) has a non-circular mounting hole (32). The two sides of the mounting hole (32) are respectively the mounting structure (31) and the clearance structure. When the mounting structure (31) is in the clearance state, the clearance structure is axially aligned with the stop part (23). The length of the mounting structure (31) is equal to the length of the clearance part (22), and the lengths of the mounting structure (31) and the clearance part (22) are both greater than the length of the stop part (23). The lengths of the pad side, the stop part (23), and the clearance structure are equal.
11. The cooking utensil according to claim 9, characterized in that, The projection of the pad onto the end face of the stop pin (26) is within the range of the stop pin (26).
12. The cooking utensil according to claim 9, characterized in that, The pad and the lower side of the mounting position (21) are spaced apart. The cooking appliance also includes a locking component. The locking component is detachably installed below the pad. When the mounting structure (31) is located below the pad, it can rotate relative to the mounting base (20). When the locking component is installed below the stirring assembly (30), the locking component abuts against the stirring assembly (30) and makes the mounting structure (31) engage with the pad.
13. The cooking utensil according to claim 12, characterized in that, The seat (25) has a stepped shaft structure. The seat (25) has a first step (251), a second step (252), a third step (253) and a fourth step (254) connected axially in sequence. The stop pin (26) is installed on the outside of the first step (251). The fourth step (254) is installed on the pot body (10). The pad is installed on the outside of the second step (252), and the peripheral side of the pad protrudes from the peripheral side of the second step (252). The mounting structure (31) can rotate when it is located on the third step (253). When the mounting structure (31) is located on the second step (252), it is in transmission cooperation with the pad.
14. The cooking utensil according to claim 9, characterized in that, The seat (25), the stop pin (26), and the pad are an integral structure.