WO2022142960A1 - 旋钮装置和烹饪器具 - Google Patents

旋钮装置和烹饪器具 Download PDF

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Publication number
WO2022142960A1
WO2022142960A1 PCT/CN2021/134264 CN2021134264W WO2022142960A1 WO 2022142960 A1 WO2022142960 A1 WO 2022142960A1 CN 2021134264 W CN2021134264 W CN 2021134264W WO 2022142960 A1 WO2022142960 A1 WO 2022142960A1
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WO
WIPO (PCT)
Prior art keywords
transmission member
knob
sliding
connection
knob device
Prior art date
Application number
PCT/CN2021/134264
Other languages
English (en)
French (fr)
Inventor
阿泰士K
张炳早
杨杰
Original Assignee
广东美的厨房电器制造有限公司
美的集团股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by 广东美的厨房电器制造有限公司, 美的集团股份有限公司 filed Critical 广东美的厨房电器制造有限公司
Publication of WO2022142960A1 publication Critical patent/WO2022142960A1/zh

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H19/00Switches operated by an operating part which is rotatable about a longitudinal axis thereof and which is acted upon directly by a solid body external to the switch, e.g. by a hand
    • H01H19/02Details
    • H01H19/10Movable parts; Contacts mounted thereon
    • H01H19/20Driving mechanisms allowing angular displacement of the operating part to be effective in either direction
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • A47J27/002Construction of cooking-vessels; Methods or processes of manufacturing specially adapted for cooking-vessels
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • A47J27/04Cooking-vessels for cooking food in steam; Devices for extracting fruit juice by means of steam ; Vacuum cooking vessels
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J36/00Parts, details or accessories of cooking-vessels
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/06Roasters; Grills; Sandwich grills
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/06Roasters; Grills; Sandwich grills
    • A47J37/0623Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
    • A47J37/0629Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity with electric heating elements
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J37/00Baking; Roasting; Grilling; Frying
    • A47J37/06Roasters; Grills; Sandwich grills
    • A47J37/0623Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
    • A47J37/0664Accessories
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J43/00Implements for preparing or holding food, not provided for in other groups of this subclass
    • A47J43/04Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J43/00Implements for preparing or holding food, not provided for in other groups of this subclass
    • A47J43/04Machines for domestic use not covered elsewhere, e.g. for grinding, mixing, stirring, kneading, emulsifying, whipping or beating foodstuffs, e.g. power-driven
    • A47J43/07Parts or details, e.g. mixing tools, whipping tools
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H19/00Switches operated by an operating part which is rotatable about a longitudinal axis thereof and which is acted upon directly by a solid body external to the switch, e.g. by a hand
    • H01H19/02Details
    • H01H19/10Movable parts; Contacts mounted thereon
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H19/00Switches operated by an operating part which is rotatable about a longitudinal axis thereof and which is acted upon directly by a solid body external to the switch, e.g. by a hand
    • H01H19/02Details
    • H01H19/10Movable parts; Contacts mounted thereon
    • H01H19/28Driving mechanisms allowing angular displacement of the operating part to be effective or possible in only one direction
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J27/00Cooking-vessels
    • A47J27/04Cooking-vessels for cooking food in steam; Devices for extracting fruit juice by means of steam ; Vacuum cooking vessels
    • A47J2027/043Cooking-vessels for cooking food in steam; Devices for extracting fruit juice by means of steam ; Vacuum cooking vessels for cooking food in steam

Definitions

  • the present application relates to the field of cooking utensils, and in particular, to a knob device and a cooking utensil.
  • the knob is usually directly connected to the electrical control of the electrical appliance, and the rotation of the knob directly acts on the electrical electrical control of the electrical appliance.
  • the shaft of the electrical device is in interference fit with the shaft core sleeve of the knob, and both the shaft and the shaft core of the knob have a flat structure, and the rotation of the knob drives the shaft of the electrical device to rotate to achieve the effect of controlling the electrical appliance.
  • the knob is directly connected to the electrical device, when the electrical device is installed, there is a tilt or offset, and the knob will be tilted and offset accordingly. Furthermore, when the knob is rotated, the inclination and deviation will cause friction between the knob and the casing of the electrical appliance, abnormal noise caused by the deviation, and life reduction caused by uneven force.
  • the present application aims to solve at least one of the technical problems existing in the prior art.
  • a first aspect of the present application proposes a knob device.
  • a second aspect of the present application proposes a cooking appliance.
  • the present application proposes a knob device, comprising: an electric control, the electric control includes a rotating part; and a connection assembly, the connection assembly includes a first connection part and a second connection part, the first connection part
  • the connecting part is connected with the rotating part, and the first connecting part and the second connecting part can move relatively along the first direction; the knob is connected with the second connecting part, and the knob can be rotated around the rotating shaft extending along the second direction. Rotating, and the knob can drive the rotating part to rotate through the connecting component, and the first direction is different from the second direction and not opposite.
  • the knob device proposed in the present application includes an electric control, a connection component and a knob.
  • the electric control and the knob are connected through the connection component.
  • the connection component has a first connection part and a second connection part, and the first connection part is connected to the electric control.
  • the second connection part is connected with the knob, and the knob can drive the rotating part of the electric control to rotate through the connection assembly, so as to realize the adjustment of the electric control through the rotation of the knob.
  • the knob can rotate around the rotating shaft, the rotating shaft of the knob extends along the second direction, and the first connecting part and the second connecting part can move along the first direction, and the first direction and the second direction are different and not opposite , therefore, if the electric control is tilted and deviated, the first connection part and the second connection part can perform corresponding activities, so as to ensure that the knob will not be tilted and deviated, thus avoiding the inclination and deviance of the electric control.
  • the knob caused by friction with the electrical housing avoids abnormal noise when the knob is rotated, and ensures that the knob is evenly stressed and improves the life of the electrical appliance.
  • knob device in the above-mentioned technical solution provided by the present application, it can also have the following additional technical features:
  • first connection part and the second connection part can also perform relative movement along a third direction, and the third direction is different from and not opposite to the first direction and the second direction.
  • the first connection part and the second connection part can also perform relative movement along a third direction, and the third direction is different from and not opposite to the first direction and the second direction, and then the first direction and the second direction are used.
  • the three-direction superposition can expand the range of motion of the first connecting part and the second connecting part, and then reach a circular range of motion, thus ensuring that when the electrical control is tilted or offset in any direction, the connecting components can be connected to the electrical control. Make an adjustment to the connection position between the knob and the knob.
  • connection assembly includes: a casing; a transmission system, at least partially located in the casing, and both the first connection part and the second connection part are provided in the transmission system.
  • connection assembly includes a casing and a transmission system, a part of the transmission system is located in the casing, and the first connection part and the second connection part are arranged on the transmission system, and then the transmission system is protected by the casing to avoid the transmission system.
  • the occurrence of stuck foreign objects, etc. ensures the normal operation of the knob device.
  • the transmission system includes: a first transmission member, the first connecting part is located on the first transmission member; a second transmission member, the first transmission member and the second transmission member can be carried out in a first direction Relative movement; the third transmission part, the second connection part is located in the third transmission part, the second transmission part and the third transmission part can be relatively movable along the third direction, wherein the first transmission part and the third transmission part are respectively located in the third transmission part.
  • the transmission system includes a first transmission member, a second transmission member and a third transmission member, the second transmission member is located between the first transmission member and the third transmission member, and the first transmission member and the third transmission member
  • the two transmission members can relatively move along the first direction
  • the second transmission member and the third transmission member can relatively move along the third direction.
  • the first connection part is located on the first transmission part
  • the second connection part is located in the third transmission part
  • three transmission parts are used to form a circumferential movement, and the structure is simple and easy to produce.
  • first transmission member and the second transmission member are respectively provided with a first sliding groove and a first sliding rail that are matched; and/or the third transmission member and the second transmission member A second sliding groove and a second sliding rail are respectively arranged on the upper part.
  • relative sliding can be performed between the first transmission member and the second transmission member, and relative sliding can be performed between the second transmission member and the third transmission member.
  • the sliding movement is reliable, the sliding groove and the sliding rail are reliable, and the manufacturing cost is low.
  • the first chute is a T-shaped chute
  • the first sliding rail is a T-shaped sliding rail
  • the second chute is a T-shaped chute
  • the second sliding rail is a T-shaped chute type slide.
  • the first sliding groove is a T-shaped sliding groove
  • the first sliding rail is a T-shaped sliding rail, thereby ensuring that the first transmission member and the second transmission member can only slide in the first direction.
  • the second sliding groove is a T-shaped sliding groove
  • the second sliding rail is a T-shaped sliding rail, thereby ensuring that the second transmission member and the third transmission member can only slide in the third direction.
  • first chutes there are two first chutes, the two first chutes are provided on one of the first transmission member and the second transmission member, and the openings of the two first chutes are opposite; There are two first sliding rails, and the two first sliding grooves are arranged on both sides of the other one of the first transmission member and the second transmission member.
  • first sliding grooves there are two opposite first sliding grooves, and the two first sliding rails are arranged on both sides of the first transmission member or the second transmission member, and the first transmission member and the second transmission member can form one
  • the nested form further reduces the distance between the first transmission member and the second transmission member, so that the structure of the connecting assembly is compact.
  • the two second chutes are provided on one of the second transmission member and the third transmission member, and the openings of the two first chutes are opposite;
  • the two second sliding rails are arranged on both sides of the second transmission member or the third transmission member, and the second transmission member and the third transmission member can form one
  • the nested form further reduces the distance between the second transmission member and the third transmission member, so that the structure of the connection assembly is compact.
  • a first opening is provided in the middle position of the first sliding rail, and a first protrusion is provided in the middle position of the first sliding groove, which slides along the first sliding groove and the first sliding rail. direction, the length of the first protrusion is less than the length of the first opening; and/or a second opening is provided in the middle position of the second slide rail, and a second protrusion is provided in the middle position of the second chute, along the second chute and the sliding direction of the second slide rail, the length of the second protrusion is smaller than the length of the second opening.
  • a first opening is provided in the middle position of the first sliding rail, and a first protrusion is provided in the middle position of the first sliding groove, and further, during installation, the first protrusion is embedded in the inside of the first opening, and , along the sliding direction of the first chute and the first slide rail, the length of the first protrusion is less than the length of the first opening, and then after the first transmission part and the second transmission part are installed, the first protrusion and the second transmission part are installed.
  • the first opening restricts the sliding distance of the first transmission member and the second transmission member, and realizes the position limit of the first transmission member and the second transmission member, thereby avoiding the separation of the first transmission member and the second transmission member, and ensuring the safety of the connecting assembly. effectiveness.
  • the first protrusion can be pushed into the first opening by external force, but in the absence of external force, the first protrusion cannot be separated from the first opening.
  • a second opening is provided in the middle position of the second sliding rail, and a second protrusion is provided in the middle position of the second sliding groove, and during installation, the second protrusion is embedded in the second opening, and along the second sliding In the sliding direction of the groove and the second slide rail, the length of the second protrusion is less than the length of the second opening, and after the second transmission member and the third transmission member are installed, the second protrusion and the second opening are used to restrict the second
  • the sliding distance between the transmission part and the third transmission part realizes the position limit of the second transmission part and the third transmission part, thereby avoiding the separation of the second transmission part and the third transmission part, and ensuring the effectiveness of the connection assembly.
  • the second protrusion can be pushed into the second opening by external force, but in the absence of external force, the second protrusion cannot be separated from the second opening.
  • the second transmission member is provided with a first through hole, and a part of the first connecting portion is located in the first through hole.
  • the second transmission member is provided with a first through hole, and a part of the first connecting portion is located in the first through hole, thereby further shortening the distance between the first transmission member and the second transmission member, which is beneficial to Miniaturization of connecting components.
  • the first direction is perpendicular to the second direction; the second direction is perpendicular to the third direction.
  • the first direction is perpendicular to the second direction
  • the second direction is perpendicular to the third direction, thereby expanding the movable range of the first connection part and the second connection part
  • the lifting connection assembly is inclined and Offset correction range.
  • the first direction is perpendicular to the third direction.
  • the first direction and the third direction are perpendicular, so that the movable range of the first connection part and the second connection part forms a circle, so that the movable range of the first connection part and the second connection part is maximized It can further improve the correction range of the connection component for the tilt and deviation of the electrical control.
  • the housing includes: a box body, the box body is provided with a second through hole, and one of the rotating part and the first connecting part is connected to the other through the second through hole; the cover The cover body is provided with a third through hole, and one of the second connecting portion and the knob is connected to the other through the third through hole.
  • the casing includes a box body and a cover body, and the assembly of the connecting assembly is facilitated by the split casing, and the box body is provided with a second through hole and the cover body is provided with a third through hole, so as to facilitate the assembly of the connecting assembly. It is suitable for the installation of the electric control and the first connection part, and also facilitates the installation of the second connection part and the knob.
  • the rotating part is inserted into the first connecting part, the side wall of the rotating part is provided with a first matching surface, and the first connecting part is matched with the first matching surface; the second connecting part Plugged with the knob, the side wall of the second connecting portion is provided with a second mating surface, and the second connecting portion is matched with the second mating surface.
  • the rotating part is plugged with the first connecting part, thereby reducing the distance between the electrical control and the connecting assembly
  • the second connecting part is plugged with the knob, thereby reducing the distance between the connecting assembly and the knob.
  • the distance between the knobs is convenient for the miniaturization of the knob device, and the rotating part and the first connection part are matched through the first mating surface, and the second connection part and the knob are matched through the second mating surface, so as to ensure the electrical control and the connection assembly, As well as the rotary connection of the connecting assembly and the knob.
  • the present application proposes a cooking appliance, comprising: the knob device as proposed in any one of the above technical solutions.
  • the cooking utensil proposed in the present application includes the knob device proposed in any one of the above technical solutions, it has all the beneficial effects of the knob device proposed in any one of the above technical solutions, and will not be described one by one here.
  • FIG. 1 shows a schematic structural diagram of a knob device provided by an embodiment of the present application
  • FIG. 2 shows an exploded view of a knob device provided by an embodiment of the present application
  • FIG. 3 shows a schematic structural diagram of a first transmission member in a knob device provided by an embodiment of the present application
  • FIG. 4 shows a schematic structural diagram of a second transmission member in a knob device provided by an embodiment of the present application
  • FIG. 5 shows a schematic structural diagram of a third transmission member in a knob device provided by an embodiment of the present application.
  • 100 knob device 110 electric control, 112 rotating part, 1122 first matching surface, 120 connecting assembly, 122 first connecting part, 124 second connecting part, 1242 second matching surface, 126 first transmission part, 1262 first sliding part Rail, 1264 first opening, 128 second transmission piece, 1282 first chute, 1284 second slide rail, 1286 first through hole, 130 third transmission piece, 1302 second chute, 1304 second opening, 140 box Body, 142 second through hole, 150 cover body, 152 third through hole, 160 knob.
  • the knob device 100 and the cooking appliance provided according to some embodiments of the present application will be described below with reference to FIGS. 1 to 5 .
  • the present application provides a knob device 100 , which includes an electrical control 110 , a connecting component 120 and a knob 160 , and the three are connected in sequence, that is, one side of the connecting component 120 is connected to the electrical control 110 connected, and the other side is connected with the knob 160.
  • the connecting assembly 120 includes a first connecting portion 122 and a second connecting portion 124
  • the electrical control 110 includes a rotating portion 112
  • the first connecting portion 122 is connected with the rotating portion 112
  • the second connecting portion 124 is connected with the knob 160 .
  • the knob 160 can drive the rotating part 112 to rotate through the second connecting part 124 and the first connecting part 122, and the rotation of the rotating part 112 can realize the adjustment of the electric control 110, and then control the electrical appliance.
  • the knob 160 can be rotated with the rotation axis A as the rotation center, and the rotation axis extends along the second direction, specifically, the second direction is the Z axis of the three-dimensional Cartesian coordinate system.
  • the first connecting part 122 and the second connecting part 124 can perform relative movement in a first direction different from the Z-axis direction, and because of relative movement, the first direction can actually include two opposite directions.
  • the direction that is, for the vector direction, both positive and negative directions.
  • the first direction may be any direction different from the Z-axis direction, that is, it may be decomposed into the X-axis direction or the Y-axis direction.
  • the connecting assembly 120 can utilize the relative movement of the first connecting part 122 and the second connecting part 124 to correct it, thereby ensuring that the knob 160 is still in the predetermined position, reducing the difficulty of assembling the cooking utensil, and making the knob 160 When rotating, it will not scrape with the shell of the cooking appliance, avoid abnormal noise when the knob 160 is rotated, and ensure that the knob 160 is evenly stressed, thereby increasing the life of the appliance.
  • connection assembly 120 can still use the relative movement of the first connection portion 122 and the second connection portion 124 to correct it. , thereby ensuring that the knob 160 is still in the predetermined position, reducing the difficulty of assembling the cooking utensil, and making the knob 160 not scrape with the shell of the cooking utensil when rotating, avoiding abnormal noise when the knob 160 is rotated, and ensuring that The force of the knob 160 is uniform, which improves the life of the electrical appliance.
  • first direction and the second direction are vectors, therefore, the first direction and the second direction are defined to be different and not opposite. Therefore, in fact, the moving directions of the first connecting part 122 and the second connecting part 124 are the first direction and the negative first direction.
  • connection component 120 can be fixedly connected with the connection component 120, for example, by snap-connection, screw connection, or connection through screws.
  • the electrical control 110 is a printed circuit board, an encoder is welded on the printed circuit board, and a rotating part 112 is provided on the encoder.
  • the first connecting part 122 and the second connecting part 124 can also perform relative movement along a third direction different from the Z-axis direction, and the third direction Different from and not opposite to the first direction, the third direction is also different from and not opposite to the second direction.
  • the first connection part 122 can also perform relative movement in the third direction, and then superimpose the vector in the first direction and the third direction.
  • the relative movement range of the first connection part 122 and the second connection part 124 can form a circular area, thereby expanding the movement range of the first connection part 122 and the second connection part 124, thereby ensuring that the electrical control 110 is inclined or deviated in any direction.
  • the connection components 120 can adjust the connection position between the electric control 110 and the knob 160.
  • first direction, the second direction and the third direction are vectors. Therefore, it is defined that the third direction and the first direction are different and not opposite, and the third direction and the second direction are different and not opposite.
  • first connecting part 122 and the second connecting part 124 perform relative movement, so in fact, the directions in which the first connecting part 122 and the second connecting part 124 can move are the third direction and the negative third direction. direction.
  • connection assembly 120 further includes: a casing and a transmission system at least partially disposed inside the casing, wherein the first connection part 122 and the second The connection parts 124 are all provided on the transmission system.
  • connection assembly 120 includes a housing and a transmission system, and a part of the transmission system is located in the housing.
  • the first connection part 122 or the second connection part 124 can extend out of the housing so as to facilitate connection with the electrical control 110 It is connected with the knob 160, and then the casing is used to protect the transmission system, to avoid the occurrence of foreign objects stuck in the transmission system, and to ensure the normal operation of the knob device 100.
  • the transmission system further includes: a first transmission member, a second transmission member and a third transmission member connected in sequence, specifically , the first transmission member and the second transmission member can perform relative movement relative to the first direction, the second transmission member and the third transmission member can perform relative movement relative to the third direction, and the first transmission member and the second transmission member and the third transmission parts are arranged in a straight line, that is, the first transmission part is located on one side of the second output transmission part, and the third transmission part is located on the other side of the second transmission part opposite to the first transmission part.
  • first connecting portion 122 is provided on the first transmission member
  • second connecting portion 124 is provided on the third transmission member.
  • the transmission system includes a first transmission member 126, a second transmission member 128 and a third transmission member 130, the second transmission member 128 is located between the first transmission member 126 and the third transmission member 130, and,
  • the first transmission member 126 and the second transmission member 128 can be relatively movable in the first direction
  • the second transmission member 128 and the third transmission member 130 can be relatively movable in the third direction
  • the first transmission member can be completed by using the three transmission members.
  • the connecting portion 122 and the second connecting portion 124 have an active range of one circumference.
  • the first transmission member 126 and the second transmission member 128 are respectively provided with a first chute 1282 and a first corresponding Slide rail 1262.
  • relative sliding can be performed between the first transmission member 126 and the second transmission member 128, and the sliding movement mode can realize the first
  • the relative movement of the transmission member 126 and the second transmission member 128 further ensures the driving effect of the knob 160 on the rotating part 112 of the electric control 110 .
  • a first sliding groove 1282 may be provided on the first transmission member 126
  • a first sliding rail 1262 may be provided on the second transmission member 128 .
  • the first sliding rail 1262 may also be provided on the first transmission member 126 , and the first sliding groove 1282 may be provided on the second transmission member 128 .
  • the second transmission member 128 and the third transmission member 130 are respectively provided with matching second sliding grooves 1302 and second rail 1284.
  • relative sliding can be performed between the second transmission member 128 and the third transmission member 130, and the sliding movement mode can realize the second transmission without affecting the connection state of the second connection portion 124 and the knob 160.
  • the relative movement of the control member 128 and the third transmission member 130 further ensures the driving effect of the knob 160 on the rotating part 112 on the electric control 110 .
  • a second sliding groove 1302 may be provided on the second transmission member 128
  • a second sliding rail 1284 may be provided on the third transmission member 130 .
  • the second sliding rail 1284 may also be provided on the second transmission member 128 , and the second sliding groove 1302 may be provided on the third transmission member 130 .
  • the first sliding groove 1282 is a T-shaped sliding groove
  • the first sliding rail 1262 is a T-shaped sliding rail
  • the first sliding groove 1282 is a T-shaped sliding groove
  • the first sliding rail 1262 is a T-shaped sliding rail, thereby ensuring that the distance between the first transmission member 126 and the second transmission member 128 can only be along the first direction Sliding, and ensures that the first transmission member 126 and the second transmission member 128 do not move along the Z-axis direction, ensuring the reliability of the connection between the first connecting portion 122 and the rotating portion 112, and the second connecting portion 124 and the knob 160 connection reliability.
  • the second sliding groove 1302 is a T-shaped sliding groove
  • the second sliding rail 1284 is a T-shaped sliding rail
  • the second sliding groove 1302 is a T-shaped sliding groove
  • the second sliding rail 1284 is a T-shaped sliding rail, thereby ensuring that the distance between the second transmission member 128 and the third transmission member 130 can only be along the third direction Sliding, and ensures that the second transmission member 128 and the third transmission member 130 do not move along the Z-axis direction, ensuring the reliability of the connection between the first connecting part 122 and the rotating part 112, and the second connecting part 124 and the knob 160 connection reliability.
  • first sliding grooves 1282 there are two first sliding grooves 1282 , two first sliding rails 1262 , and two A first chute 1282 is provided on one of the first transmission member 126 and the second transmission member 128 , and the openings of the two first sliding grooves 1282 are opposite to each other, and the two first sliding grooves 1282 are provided on the first transmission member 126 and both sides of the other of the second transmission members 128 .
  • the first sliding grooves 1282 have two opposite ones, the two first sliding rails 1262 are disposed on both sides of the first transmission member 126 or the second transmission member 128, and the openings of the first sliding grooves 1282 The directions are opposite, and during installation, after the first sliding rail 1262 is installed into the first sliding groove 1282, the first sliding groove 1282 can clamp the first sliding rail 1262 on both sides of the first sliding rail 1262, so that the first transmission The member 126 and the second transmission member 128 can only move along the sliding direction of the first sliding groove 1282 and the first sliding rail 1262 .
  • the first transmission member 126 clamps the second transmission member 128 .
  • the second transmission member 128 clamps the first transmission member 126 .
  • FIG. 2 , FIG. 4 and FIG. 5 on the basis of any one of Embodiment 6 to Embodiment 9, further, there are two second sliding grooves 1302 , two second sliding rails 1284 , and two second sliding rails 1284 .
  • a second chute 1302 is provided on one of the second transmission member 128 and the third transmission member 130 , and the openings of the two second sliding grooves 1302 are opposite to each other, and the two second sliding grooves 1302 are provided on the second transmission member 128 and both sides of the other of the third transmission members 130 .
  • two second sliding rails 1284 are disposed on both sides of the second transmission member 128 or the third transmission member 130 , and the opening of the second sliding groove 1302
  • the directions are opposite, and during installation, after the second sliding rail 1284 is installed into the second sliding groove 1302, the second sliding groove 1302 can clamp the second sliding rail 1284 on both sides of the second sliding rail 1284, so that the second transmission The member 128 and the third transmission member 130 can only move along the sliding direction of the second sliding groove 1302 and the second sliding rail 1284 .
  • the second transmission member 128 clamps the third transmission member 130 .
  • the third transmission member 130 clamps the second transmission member 128 .
  • the first transmission member 126 is provided with two first sliding rails 1262 , and along the Y-axis direction, the two first sliding rails 1262 are respectively located on the first transmission member On both sides of the 126, two first sliding grooves 1282 are provided on the side of the second transmission member 128 facing the first transmission member 126, and the two first sliding grooves 1282 are arranged along the Y-axis direction, and the two first sliding grooves 1282 are arranged along the Y axis.
  • the notch directions of the grooves 1282 are opposite to each other, so that the first sliding rail 1262 can be slidably connected in the first sliding groove 1282 , so that the first transmission member 126 and the second transmission member 128 are slidably connected.
  • the second transmission member 128 is further provided with two second sliding rails 1284 .
  • the side of the third transmission member 130 facing the second transmission member 128 is provided with two second sliding grooves 1302, and the two second sliding grooves 1302 are arranged along the X-axis direction, and the two second sliding grooves 1302 are The notches are in opposite directions, so that the second sliding rail 1284 can be slidably connected in the second sliding groove 1302 , so that the second transmission member 128 and the third transmission member 130 are slidably connected.
  • a first opening 1264 is opened in the middle position of the first sliding rail 1262 , and the first sliding groove
  • the middle position of 1282 is provided with a first protrusion corresponding to the first opening 1264, and along the sliding direction of the first sliding groove 1282 and the first sliding rail 1262, the length of the first protrusion is smaller than the length of the first opening 1264 .
  • a first opening 1264 is provided in the middle position of the first sliding rail 1262, and a first protrusion is provided in the middle position of the first sliding groove 1282, and further, during installation, the first protrusion is embedded in the first opening Inside 1264, and along the sliding direction of the first sliding groove 1282 and the first sliding rail 1262, the length of the first protrusion is smaller than the length of the first opening 1264, and then the first transmission member 126 and the second transmission member 128 are completed.
  • the sliding distance of the first transmission member 126 and the second transmission member 128 is limited by the first protrusion and the first opening 1264, so as to realize the position limit of the first transmission member 126 and the second transmission member 128, so as to avoid the first transmission member 126 and the second transmission member 128.
  • the disengagement of the transmission member 126 and the second transmission member 128 ensures the effectiveness of the connection assembly 120 .
  • the first protrusion can be pushed into the first opening 1264 by external force, but in the absence of external force, the first protrusion cannot be separated from the first opening 1264 .
  • first transmission member 126 and the second transmission member 128 may be elastic members, such as plastic or rubber. Installation of the transmission member 126 and the second transmission member 128 .
  • a second opening 1304 is opened in the middle position of the second sliding rail 1284 , and the second sliding groove is The middle position of 1302 is provided with a second protrusion corresponding to the second opening 1304 , and along the sliding direction of the second sliding groove 1302 and the second sliding rail 1284 , the length of the second protrusion is smaller than the length of the second opening 1304 .
  • a second opening 1304 is provided in the middle position of the second sliding rail 1284, and a second protrusion is provided in the middle position of the second sliding groove 1302, and further, during installation, the second protrusion is embedded in the second opening Inside 1304, and along the sliding direction of the second sliding groove 1302 and the second sliding rail 1284, the length of the second protrusion is smaller than the length of the second opening 1304, and then the second transmission member 128 and the third transmission member 130 are completed.
  • the sliding distance of the second transmission member 128 and the third transmission member 130 is limited by the second protrusion and the second opening 1304, so as to realize the position limit of the second transmission member 128 and the third transmission member 130, so as to avoid the second transmission member 128 and the third transmission member 130.
  • the disengagement of the transmission member 128 and the third transmission member 130 ensures the effectiveness of the connection assembly 120 .
  • the second protrusion can be pushed into the second opening 1304 by external force, but in the absence of external force, the second protrusion cannot be separated from the second opening 1304 .
  • the second transmission member and the third transmission member can be elastic members, such as plastic or rubber, etc., the protruding height of the second protrusion is below 2 mm, and then elastic deformation can be used to complete the second transmission member by using external force. and the installation of the third transmission.
  • a first through hole 1286 is provided on the second transmission member 128 , and a part of the first connecting portion 122 is located at inside the first through hole 1286 .
  • the second transmission member 128 is provided with a first through hole 1286, and a portion of the first connecting portion 122 is located in the first through hole 1286, thereby further shortening the distance between the first transmission member 126 and the second transmission member 128.
  • the distance between them is beneficial to the miniaturization of the connecting assembly 120 .
  • the length of the first through hole 1286 is greater than the length of the first connecting portion 122, and when the first transmission member 126 and the second transmission member 128 perform relative motion, the first through hole 1286 and the A connecting portion 122 does not interfere.
  • such an arrangement extends the first connecting portion 122 , thereby ensuring the reliability of the connection between the first connecting portion 122 and the rotating portion 112 .
  • the first direction is perpendicular to the second direction
  • the second direction is perpendicular to the third direction.
  • the first direction is perpendicular to the second direction
  • the second direction is perpendicular to the third direction, so as to expand the movable range of the first connection part 122 and the second connection part 124 , and improve the electric power of the connection assembly 120 Correction range for control 110 tilt and deflection.
  • the first direction and the second direction can be completely decomposed into the X axis and the Y axis of the three-dimensional rectangular coordinate system.
  • first direction and the third direction are perpendicular to each other, and the first direction is the X-axis direction, and the third direction is the Y-axis direction.
  • the rotation axis A of the knob 160 extends along the second direction.
  • the second direction is the Z-axis direction, wherein the Z-axis direction can be positive or negative, that is, the second direction is the Z-axis direction.
  • Positive and negative directions
  • the first direction is the X-axis direction, which can be positive or negative, that is, the first direction is the positive and negative directions of the X-axis;
  • the third direction is the Y-axis direction, which can be Is the positive or negative direction, that is, the third direction is the positive and negative directions of the Y-axis.
  • the housing further includes a box body 140 and a cover body 150 , the cover body 150 can be buckled on the box body 140 , and the box body 140 has a accommodating cavity inside, and at least part of the transmission system is located inside the box body 140 .
  • the box body 140 is provided with a second through hole 142 to facilitate the connection between the rotating portion 112 and the first connection portion 122
  • the cover body 150 is provided with a third through hole 152 to facilitate the connection between the second connection portion 124 and the knob. 160 connections.
  • the casing includes a box body 140 and a cover body 150, and the assembly of the connecting assembly 120 is facilitated by the split casing, and the box body 140 is provided with a second through hole 142, and the cover body 150 is provided with a second through hole 142.
  • the third through hole 152 facilitates the installation of the electrical control 110 and the first connecting portion 122 , and facilitates the installation of the second connecting portion 124 and the knob 160 .
  • first connecting portion 122 may be connected to the rotating portion 112 through the second through hole 142 , or the rotating portion 112 may be connected to the first connecting portion 122 through the second through hole 142 .
  • the second connection portion 124 may be connected to the knob 160 through the third through hole 152 , or the knob 160 may be connected to the second connection portion 124 through the third through hole 152 .
  • the electrical control 110 is provided with mounting holes
  • the box body 140 is provided with mounting holes or screw holes, so that the screws can pass through the mounting holes on the electrical control 110 to be screwed with the screw holes on the box body 140, or , the screws can pass through the mounting holes on the electrical control 110 and the mounting holes on the box body 140 to be screwed with the nuts.
  • the rotating part 112 is inserted into the first connecting part 122 , and the side wall of the rotating part 112 is provided with a first connecting part 122 .
  • a mating surface 1122 , the first connecting portion 122 is matched with the first mating surface 1122 .
  • the rotating part 112 and the first connecting part 122 are plugged together, thereby reducing the distance between the electric control 110 and the connecting assembly 120 , thereby facilitating the miniaturization of the knob device 100 .
  • the rotating part 112 may be a D-shaped shaft, and the first connecting part 122 is provided with a shaft hole matching the D-shaped shaft.
  • the first connecting portion 122 may be a D-shaped shaft, and the rotating portion 112 is provided with a shaft hole matching the D-shaped shaft.
  • the knob 160 is inserted into the second connecting portion 124 , and the side wall of the second connecting portion 124 is provided with The second matching surface 1242 and the second connecting portion 124 are matched with the second matching surface 1242 .
  • the second connection portion 124 is plugged with the knob 160 , thereby reducing the distance between the knob 160 and the connection assembly 120 , thereby facilitating the miniaturization of the knob device 100 .
  • the second connecting portion 124 may be a D-shaped shaft, and the knob 160 is provided with a shaft hole matching the D-shaped shaft.
  • the knob 160 may be provided with a D-shaped shaft, and the second connecting portion 124 may be provided with a shaft hole matching the D-shaped shaft.
  • the knob device 100 provided by the present application can improve the problems such as friction and tilt of the knob 160 that occur when the electrical control 110 is inclined or misaligned.
  • the box body 140 and the cover body 150 are assembled into a casing and fixedly connected to the electric control part.
  • the hole position of the first connection part 122 is assembled with the rotating shaft of the electric control 110,
  • the engagement of the first mating surface 1122 of the shaft rod drives the rotating portion 112 of the electrical control 110 to rotate.
  • the first transmission member 126 and the second transmission member 128 adopt the assembly method of the chute and the slide rail. After assembly, the first transmission member 126 and the second transmission member 128 can slide with each other in the X-axis direction.
  • the second transmission member 128 and the third transmission member 130 adopt the assembly method of the chute and the slide rail. After assembly, the second transmission member 128 and the third transmission member 130 can slide with each other in the Y-axis direction.
  • the first transmission member and the third transmission member can form a relative sliding fit in both the X-axis direction and the Y-axis direction.
  • the third transmission member 130 is provided with a second connecting portion 124 having the same structure as the rotating shaft of the electrical control 110 , and is further matched with the knob 160 through the second connecting portion 124 .
  • the knob device 100 provided by the present application, when the electric control 110 is installed offset and the rotating part 112 of the electric control 110 is not at the center of rotation, due to the first transmission member, the second transmission member and the third transmission member, in the X-axis direction and The relative sliding in the Y-axis direction enables the position of the axis to be corrected and adjusted in the entire plane, and finally the second connecting portion 124 can still be guaranteed to be at the center of rotation, that is, the center of the knob 160 can be guaranteed to be at the center of rotation, and the knob 160 can be avoided. There are problems such as eccentricity and friction when rotating.
  • the present application provides a cooking appliance, including: the knob device 100 provided in any of the above embodiments.
  • the cooking utensil provided by the present application includes the knob device 100 provided in any of the foregoing embodiments, and therefore, has all the beneficial effects of the knob device 100 provided in any of the foregoing embodiments, and will not be described one by one here.
  • the cooking appliance includes a casing and a cooking element
  • the cooking element can be a heating element or a cooling element
  • the casing is provided with a mounting hole
  • the knob device 100 is penetrated through the mounting hole
  • at least part of the knob 160 is located outside the casing, thereby facilitating the user to turn the knob 160.
  • the cooking appliance may be an oven, a microwave oven, a steamer, a rice cooker, a food processor, a dishwasher, a soymilk maker, an induction cooker, a gas stove, or the like.

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  • Food Science & Technology (AREA)
  • Mechanical Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Control Devices (AREA)

Abstract

本申请提出了一种旋钮装置和烹饪器具,旋钮装置包括:电控件,电控件包括转动部;连接组件,连接组件包括第一连接部和第二连接部,第一连接部与转动部相连接,第一连接部和第二连接部可沿第一方向进行相对运动;旋钮,与第二连接部相连接,旋钮能以沿第二方向延伸的转轴为旋转中心进行转动,且旋钮可通过连接组件带动转动部转动,第一方向与第二方向不同且不相反。本申请提出的旋钮装置,电控件出现倾斜和偏位,那么第一连接部和第二连接部可进行相应的活动,进而保证旋钮不会出现倾斜和偏位,从而避免了由于电控件的倾斜和偏位,所造成的旋钮与电器外壳相摩擦,避免了旋钮转动时的异响,并且,保证旋钮的受力均匀,提升电器的寿命。

Description

旋钮装置和烹饪器具
本申请要求于2020年12月31日提交中国专利局、申请号为“202011634436.8”、发明名称为“旋钮装置和烹饪器具”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本申请涉及烹饪器具领域,具体而言涉及一种旋钮装置和一种烹饪器具。
背景技术
在相关技术中,旋钮与电器电控件通常是直接相连的,通过旋钮的转动直接作用于电器电控件。其中,电器件的轴杆与旋钮的轴芯套筒过盈配合,同时轴杆与旋钮轴芯均有扁位结构,通过旋钮转动,带动电器件轴杆旋转,达到控制电器的效果。
但是,由于旋钮与电器件直接相连,当电器件安装时出现倾斜、偏位等情况,旋钮会相应的出现倾斜以及偏位。进而当旋钮转动时,倾斜及偏位会使得旋钮与电器的外壳带来摩擦、偏位带来的异响、受力不均导致的寿命减少等品质问题。
发明内容
本申请旨在至少解决现有技术中存在的技术问题之一。
为此,本申请的第一方面提出了一种旋钮装置。
本申请的第二方面提出了一种烹饪器具。
有鉴于此,根据本申请的第一方面,本申请提出了一种旋钮装置,包括:电控件,电控件包括转动部;连接组件,连接组件包括第一连接部和第二连接部,第一连接部与转动部相连接,第一连接部和第二连接部可沿第一方向进行相对运动;旋钮,与第二连接部相连接,旋钮能以沿第二方向延伸的转轴为旋转中心进行转动,且旋钮可通过连接组件带动转动部转动,第一方向与第二方向不同且不相反。
本申请提出的旋钮装置,包括电控件、连接组件和旋钮,电控件和旋钮通过连接组件相连接,具体地,连接组件上具有第一连接部和第二连接部,第一连接部与电控件相连接,第二连接部和旋钮相连接,并且,旋钮可以通过连接组件带动电控件的转动部转动,从而实现通过旋钮的转动对电控件的调节。
其中,旋钮可绕起转轴进行转动,旋钮的转轴沿第二方向延伸,而第一连接部和第二连接部可沿第一方向进行运动,并且,第一方向和第二方向不同且不相反,因此,若电控件出现倾斜和偏位,那么第一连接部和第二连接部可进行相应的活动,进而保证旋钮不会出现倾斜和偏位,从而避免了由于电控件的倾斜和偏位,所造成的旋钮与电器外壳相摩擦,避免了旋钮转动时的异响,并且,保证旋钮的受力均匀,提升电器的寿命。
另外,根据本申请提供的上述技术方案中的旋钮装置,还可以具有如下附加技术特征:
在上述技术方案中,进一步地,第一连接部和第二连接部还可沿第三方向进行相对运动,第三方向与第一方向和第二方向均不同且不相反。
在该技术方案中,第一连接部和第二连接部还可以沿着第三方向进行相对运动,第三方向与第一方向和第二方向均不同且不相反,进而利用第一方向和第三方向叠加,可以扩大第一连接部和第二连接部的活动范围,进而达到一个圆周形式的活动范围,从而保证在电控件向任一方向倾斜或偏位时,连接组件均能对电控件和旋钮之间的连接位置进行一个调整。
在上述任一技术方案中,进一步地,连接组件包括:壳体;传动系统,至少部分位于壳体内,第一连接部和第二连接部均设于传动系统。
在该技术方案中,连接组件包括壳体和传动系统,传动系统的部分位于壳体内,第一连接部和第二连接部设置在传动系统上,进而利用壳体保护传动系统,避免传动系统中卡入异物等情况的出现,保证旋钮装置的正常运行。
在上述任一技术方案中,进一步地,传动系统包括:第一传动件,第一连接部位于第一传动件;第二传动件,第一传动件与第二传动件可沿第一方向进行相对活动;第三传动件,第二连接部位于第三传动件,第二传动件与第三传动件可沿第三方向进行相对活动,其中,第一传动件和第三传动件分别位于 第二传动件相背的两侧。
在该技术方案中,传动系统包括有第一传动件、第二传动件和第三传动件,第二传动件位于第一传动件和第三传动件之间,并且,第一传动件和第二传动件可以沿第一方向进行相对活动,第二传动件和第三传动件可沿第三方向进行相对活动。
其中,第一连接部位于第一传动件,第二连接部位于第三传动件,进而利用三个传动件,形成周向的运动,并且,该结构简单,易于生产。
在上述任一技术方案中,进一步地,第一传动件和第二传动件上分别设置有相适配的第一滑槽和第一滑轨;和/或第三传动件和第二传动件上分别设置有相适配的第二滑槽和第二滑轨。
在该技术方案中,第一传动件和第二传动件之间可进行相对滑动,第二传动件和第三传动件之间可进行相对滑动。
滑动的活动方式可靠,并且,滑槽和滑轨的活动方式可靠,且制造成本低。
在上述任一技术方案中,进一步地,第一滑槽为T型滑槽,第一滑轨为T型滑轨;和/或第二滑槽为T型滑槽,第二滑轨为T型滑轨。
在该技术方案中,第一滑槽为T型滑槽,第一滑轨为T型滑轨,进而保证了第一传动件和第二传动件之间只能沿第一方向滑动。
第二滑槽为T型滑槽,第二滑轨为T型滑轨,进而保证了第二传动件和第三传动件之间只能沿第三方向滑动。
在上述任一技术方案中,进一步地,第一滑槽具有两条,两条第一滑槽设于第一传动件和第二传动件中的一个,两条第一滑槽的开口相对;第一滑轨具有两条,两条第一滑槽设于第一传动件和第二传动件中的另一个的两侧。
在该技术方案中,第一滑槽具有相对的两条,两个第一滑轨设置在第一传动件或第二传动件的两侧,进而第一传动件和第二传动件可以形成一个嵌套的形式,进而减小第一传动件和第二传动件之间的距离,使得连接组件的结构小巧。
在上述任一技术方案中,进一步地,第二滑槽具有两条,两条第二滑槽设于第二传动件和第三传动件中的一个,两条第一滑槽的开口相对;第一滑轨 具有两条,两条第一滑槽设于第一传动件和第二传动件中的另一个的两侧。
在该技术方案中,第二滑槽具有相对的两条,两个第二滑轨设置在第二传动件或第三传动件的两侧,进而第二传动件和第三传动件可以形成一个嵌套的形式,进而减小第二传动件和第三传动件之间的距离,使得连接组件的结构小巧。
在上述任一技术方案中,进一步地,第一滑轨的中间位置设置有第一开口,第一滑槽的中间位置设置有第一凸起,沿第一滑槽和第一滑轨的滑动方向,第一凸起的长度小于第一开口的长度;和/或第二滑轨的中间位置设置有第二开口,第二滑槽的中间位置设置有第二凸起,沿第二滑槽和第二滑轨的滑动方向,第二凸起的长度小于第二开口的长度。
在该技术方案中,第一滑轨的中间位置设置有一个第一开口,第一滑槽的中间位置设置有第一凸起,进而在安装时,第一凸起嵌入第一开口内部,并且,沿着第一滑槽和第一滑轨的滑动方向,第一凸起的长度小于第一开口的长度,进而在第一传动件和第二传动件完成安装后,通过第一凸起和第一开口限制第一传动件和第二传动件的滑动距离,实现对第一传动件和第二传动件的限位,从而避免第一传动件和第二传动件的脱离,保证连接组件的有效性。
并且,在安装时,可以借用外力将第一凸起推入第一开口,而在没有外力的情况下,第一凸起无法脱离第一开口。
第二滑轨的中间位置设置有一个第二开口,第二滑槽的中间位置设置有第二凸起,进而在安装时,第二凸起嵌入第二开口内部,并且,沿着第二滑槽和第二滑轨的滑动方向,第二凸起的长度小于第二开口的长度,进而在第二传动件和第三传动件完成安装后,通过第二凸起和第二开口限制第二传动件和第三传动件的滑动距离,实现对第二传动件和第三传动件的限位,从而避免第二传动件和第三传动件的脱离,保证连接组件的有效性。
并且,在安装时,可以借用外力将第二凸起推入第二开口,而在没有外力的情况下,第二凸起无法脱离第二开口。
在上述任一技术方案中,进一步地,第二传动件上设置有第一通孔,第一连接部的部分位于第一通孔内。
在该技术方案中,第二传动件上设置有第一通孔,第一连接部的部分位于第一通孔内,进而进一步缩短第一传动件和第二传动件之间的距离,有利于连接组件的小型化。
在上述任一技术方案中,进一步地,第一方向与第二方向相垂直;第二方向与第三方向相垂直。
在该技术方案中,第一方向与第二方向相垂直,第二方向与第三方向相垂直,从而扩大了第一连接部和第二连接部的活动范围,提升连接组件对电控件倾斜和偏位的矫正范围。
在上述任一技术方案中,进一步地,第一方向与第三方向相垂直。
在该技术方案中,第一方向和第三方向相垂直,进而使得第一连接部和第二连接部的活动范围形成一个圆形,从而使得第一连接部和第二连接部的活动范围最大化,进一步地提升连接组件对电控件倾斜和偏位的矫正范围。
在上述任一技术方案中,进一步地,壳体包括:盒体,盒体设置有第二通孔,转动部和第一连接部中的一个穿过第二通孔与另一个相连接;盖体,盖体设置有第三通孔,第二连接部和旋钮中的一个穿过第三通孔与另一个相连接。
在该技术方案中,壳体包括盒体和盖体,通过分体式的壳体便于连接组件的装配,并且,盒体上设置有第二通孔,盖体上设置有第三通孔,以便于电控件和第一连接部的安装,并且,便于第二连接部和旋钮的安装。
在上述任一技术方案中,进一步地,转动部与第一连接部相插接,转动部的侧壁设置有第一配合面,第一连接部与第一配合面相适配;第二连接部与旋钮相插接,第二连接部的侧壁设置有第二配合面,第二连接部与第二配合面相适配。
在该技术方案中,转动部和第一连接部相插接,进而减小了电控件和连接组件之间的距离,第二连接部和旋钮相插接,进而减小了连接组件和旋钮之间的距离,从而便于旋钮装置的小型化,并且,转动部和第一连接部通过第一配合面配合,第二连接部和旋钮通过第二配合面配合,从而保证了电控件和连接组件,以及连接组件和旋钮的转动连接。
根据本申请的第二方面,本申请提出了一种烹饪器具,包括:如上述技术方案中任一项提出的旋钮装置。
本申请提出的烹饪器具,因包括如上述技术方案中任一项提出的旋钮装置,因此,具有如上述技术方案中任一项提出的旋钮装置的全部有益效果,在此不再一一陈述。
本申请的附加方面和优点将在下面的描述部分中变得明显,或通过本申请的实践了解到。
附图说明
本申请的上述和/或附加的方面和优点从结合下面附图对实施例的描述中将变得明显和容易理解,其中:
图1示出本申请一个实施例提供的旋钮装置的结构示意图;
图2示出本申请一个实施例提供的旋钮装置的爆炸图;
图3示出本申请一个实施例提供的旋钮装置中第一传动件的结构示意图;
图4示出本申请一个实施例提供的旋钮装置中第二传动件的结构示意图;
图5示出本申请一个实施例提供的旋钮装置中第三传动件的结构示意图。
其中,图1至图5中附图标记与部件名称之间的对应关系为:
100旋钮装置,110电控件,112转动部,1122第一配合面,120连接组件,122第一连接部,124第二连接部,1242第二配合面,126第一传动件,1262第一滑轨,1264第一开口,128第二传动件,1282第一滑槽,1284第二滑轨,1286第一通孔,130第三传动件,1302第二滑槽,1304第二开口,140盒体,142第二通孔,150盖体,152第三通孔,160旋钮。
具体实施方式
为了能够更清楚地理解本申请的上述目的、特征和优点,下面结合附图和具体实施方式对本申请进行进一步的详细描述。需要说明的是,在不冲突的情 况下,本申请的实施例及实施例中的特征可以相互组合。
在下面的描述中阐述了很多具体细节以便于充分理解本申请,但是,本申请还可以采用其他不同于在此描述的其他方式来实施,因此,本申请的保护范围并不受下面公开的具体实施例的限制。
下面参照图1至图5来描述根据本申请一些实施例提供的旋钮装置100和烹饪器具。
实施例1:
如图1和图2所示,本申请提供了一种旋钮装置100,包括有电控件110、连接组件120和旋钮160,三者依次连接,即是说连接组件120的一侧与电控件110相连接,另一侧与旋钮160相连接。
具体地,连接组件120包括有第一连接部122和第二连接部124,电控件110包括有转动部112,第一连接部122与转动部112相连接,第二连接部124与旋钮160相连接,并且,旋钮160可以通过第二连接部124和第一连接部122带动转动部112转动,而转动部112的转动,可以实现电控件110的调节,进而对电器进行控制。
进一步地,如图2所示,建立三维的直角坐标系,旋钮160可以以转轴A为旋转中心进行转动,转轴沿第二方向延伸,具体地,第二方向为三维的直角坐标系的Z轴方向,而第一连接部122和第二连接部124可以沿不同于Z轴方向的第一方向进行相对运动,并且,由于是相对运动,因此,实际上第一方向可包括相背的两个方向,即对于矢量方向而言,正负两个方向。
其中,第一方向可以是不同于Z轴方向的任意方向,即其可以分解为X轴方向或Y轴方向即可。
因此,在安装时,若电控件110由于烹饪器具的内部布局原因,而与烹饪器具外壳上的安装旋钮装置100的安装孔无法对正时,即电控件110的转动部112出现倾斜或偏位等情况时,连接组件120可以利用第一连接部122和第二连接部124的相对活动,对其进行矫正,进而保证旋钮160依旧处于预定位置,降低烹饪器具的装配难度,并且,使得旋钮160在旋转时,不会与烹饪器具的外壳相刮擦,避免了旋钮160转动时的异响,并且,保证旋钮160的受力均匀,提升电器的寿命。
并且,在安装完成后,若电控件110因长时间的使用而出现倾斜或偏位等问题,连接组件120依然可以利用第一连接部122和第二连接部124的相对活动,对其进行矫正,进而保证旋钮160依旧处于预定位置,降低烹饪器具的装配难度,并且,使得旋钮160在旋转时,不会与烹饪器具的外壳相刮擦,避免了旋钮160转动时的异响,并且,保证旋钮160的受力均匀,提升电器的寿命。
这里需要说明的是,第一方向和第二方向为矢量,因此,限定第一方向和第二方向不同且不相反,但是,由于第一连接部122和第二连接部124所进行的是相对运动,因此,实际上第一连接部122和第二连接部124所能够活动的方向是,第一方向以及负向的第一方向。
具体地,电控件110可与连接组件120固定连接,例如:卡接、螺接或通过螺钉连接。
进一步地,电控件110为印制电路板,印制电路板上焊接有编码器,编码器上设置有转动部112。
实施例2:
如图2所示,在实施例1的基础上,进一步地,第一连接部122和第二连接部124还可以沿着不同于Z轴方向的第三方向进行相对运动,并且,第三方向与第一方向不同且不相反,第三方向与第二方向也不同且不相反。
在该实施例中,第一连接部122在可以进行第一方向相对活动的基础上,还可以进行第三方向的相对活动,进而第一方向和第三方向进行矢量的叠加,第一连接部122和第二连接部124的相对活动范围可以形成一个圆形区域,进而扩大了第一连接部122和第二连接部124的活动范围,从而保证在电控件110向任一方向倾斜或偏位时,连接组件120均能对电控件110和旋钮160之间的连接位置进行一个调整。
这里需要说明的是,第一方向、第二方向和第三方向为矢量,因此,限定第三方向和第一方向不同且不相反,第三方向和第二方向不同且不相反,但是,由于第一连接部122和第二连接部124所进行的是相对运动,因此,实际上第一连接部122和第二连接部124所还能够活动的方向是,第三方向以及负向的第三方向。
实施例3:
如图2所示,在实施例1或实施例2的基础上,进一步地,连接组件120包括:壳体和至少部分设置在壳体内部的传动系统,其中,第一连接部122和第二连接部124均设置在传动系统上。
在该实施例中,连接组件120包括壳体和传动系统,传动系统的部分位于壳体内,具体地,第一连接部122或第二连接部124可伸出壳体,以便于与电控件110和旋钮160相连接,进而利用壳体保护传动系统,避免传动系统中卡入异物等情况的出现,保证旋钮装置100的正常运行。
实施例4:
如图2、图3、图4和图5所示,在实施例3的基础上,进一步地,传动系统包括:依次连接的第一传动件、第二传动件和第三传动件,具体地,第一传动件和第二传动件可相对于第一方向进行相对运动,第二传动件和第三传动件可相对于第三方向进行相对运动,并且,第一传动件、第二传动件和第三传动件按一直线排布,即第一传动件位于第二出传动部的一侧,第三传动件位于第二传动件与第一传动件相对的另一侧。
并且,第一连接部122设置在第一传动件,第二连接部124设置在第三传动件。
在该实施例中,传动系统包括有第一传动件126、第二传动件128和第三传动件130,第二传动件128位于第一传动件126和第三传动件130之间,并且,第一传动件126和第二传动件128可以沿第一方向进行相对活动,第二传动件128和第三传动件130可沿第三方向进行相对活动,进而利用三个传动件就完成第一连接部122和第二连接部124一个圆周的活动范围。
并且,这样采用三个传动件,利用相邻的两个传动件执行一个方向的可相对,进而使得整个机构的结构简单,且运动效果可靠。
实施例5:
如图2、图3和图4所示,在实施例4的基础上,进一步地,第一传动件126和第二传动件128上分别设置有相适配的第一滑槽1282和第一滑轨1262。
在该实施例中,第一传动件126和第二传动件128之间可进行相对滑 动,滑动的运动方式可以在不影响第一连接部122和电控件110连接状态的情况下,实现第一传动件126和第二传动件128的相对活动,进而保证了旋钮160对电控件110上转动部112的驱动效果。
具体地,可以在第一传动件126上设置第一滑槽1282,在第二传动件128上设置第一滑轨1262。
也可以在第一传动件126上设置第一滑轨1262,在第二传动件128上设置第一滑槽1282。
实施例6:
如图2、图4和图5所示,在实施例4或实施例5的基础上,进一步地,第二传动件128和第三传动件130上分别设置有相适配的第二滑槽1302和第二滑轨1284。
在该实施例中,第二传动件128和第三传动件130之间可进行相对滑动,滑动的运动方式可以在不影响第二连接部124和旋钮160连接状态的情况下,实现第二传动件128和第三传动件130的相对活动,进而保证了旋钮160对电控件110上转动部112的驱动效果。
具体地,可以在第二传动件128上设置第二滑槽1302,在第三传动件130上设置第二滑轨1284。
也可以在第二传动件128上设置第二滑轨1284,在第三传动件130上设置第二滑槽1302。
实施例7:
在实施例5或实施例6的基础上,进一步地,第一滑槽1282为T型滑槽,第一滑轨1262为T型滑轨。
在该实施例中,第一滑槽1282为T型滑槽,第一滑轨1262为T型滑轨,进而保证了第一传动件126和第二传动件128之间只能沿第一方向滑动,并且,确保了第一传动件126和第二传动件128不会沿着Z轴方向运动,确保第一连接部122和转动部112连接的可靠性,以及第二连接部124和旋钮160连接的可靠性。
实施例8:
在实施例6或实施例7的基础上,进一步地,第二滑槽1302为T型滑槽, 第二滑轨1284为T型滑轨。
在该实施例中,第二滑槽1302为T型滑槽,第二滑轨1284为T型滑轨,进而保证了第二传动件128和第三传动件130之间只能沿第三方向滑动,并且,确保了第二传动件128和第三传动件130不会沿着Z轴方向运动,确保第一连接部122和转动部112连接的可靠性,以及第二连接部124和旋钮160连接的可靠性。
实施例9:
如图2、图3和图4所示,在实施例5至实施例8中任一者的基础上,进一步地,第一滑槽1282具有两条,第一滑轨1262具有两条,两条第一滑槽1282设于第一传动件126和第二传动件128中的一个,并且,两条第一滑槽1282的开口相对,两条第一滑槽1282设于第一传动件126和第二传动件128中的另一个的两侧。
在该实施例中,第一滑槽1282具有相对的两条,两个第一滑轨1262设置在第一传动件126或第二传动件128的两侧,并且,第一滑槽1282的开口方向相对,进而在安装时,第一滑轨1262安装进入第一滑槽1282后,第一滑槽1282可以在第一滑轨1262的两侧夹住第一滑轨1262,从而使得第一传动件126和第二传动件128只能沿着第一滑槽1282和第一滑轨1262的滑动方向进行移动。
具体地,当第一滑槽1282设置在第一传动件126,第一滑轨1262设置在第二传动件128时,第一传动件126夹住第二传动件128。
当第一滑轨1262设置在第一传动件126,第一滑槽1282设置在第二传动件128时,第二传动件128夹住第一传动件126。
实施例10:
如图2、图4和图5所示,在实施例6至实施例9中任一者的基础上,进一步地,第二滑槽1302具有两条,第二滑轨1284具有两条,两条第二滑槽1302设于第二传动件128和第三传动件130中的一个,并且,两条第二滑槽1302的开口相对,两条第二滑槽1302设于第二传动件128和第三传动件130中的另一个的两侧。
在该实施例中,第二滑槽1302具有相对的两条,两个第二滑轨1284 设置在第二传动件128或第三传动件130的两侧,并且,第二滑槽1302的开口方向相对,进而在安装时,第二滑轨1284安装进入第二滑槽1302后,第二滑槽1302可以在第二滑轨1284的两侧夹住第二滑轨1284,从而使得第二传动件128和第三传动件130只能沿着第二滑槽1302和第二滑轨1284的滑动方向进行移动。
具体地,当第二滑槽1302设置在第二传动件128,第二滑轨1284设置在第三传动件130时,第二传动件128夹住第三传动件130。
当第二滑轨1284设置在第二传动件128,第二滑槽1302设置在第三传动件130时,第三传动件130夹住第二传动件128。
进一步具体地,如图2、图3和图4所示,第一传动件126上设置有两个第一滑轨1262,沿Y轴方向,两个第一滑轨1262分别位于第一传动件126的两侧,第二传动件128朝向第一传动件126的一侧设置有两个第一滑槽1282,且两个第一滑槽1282沿Y轴方向排布,且两个第一滑槽1282的槽口方向相对,进而第一滑轨1262可以滑动连接在第一滑槽1282内,从而使得第一传动件126和第二传动件128滑动连接。
如图2、图4和图5所示,第二传动件128上还设置有两个第二滑轨1284,沿X轴方向,两个第二滑轨1284分别位于第二传动件128的两侧,第三传动件130朝向第二传动件128的一侧设置有两个第二滑槽1302,且两个第二滑槽1302沿X轴方向排布,且两个第二滑槽1302的槽口方向相对,进而第二滑轨1284可以滑动连接在第二滑槽1302内,从而使得第二传动件128和第三传动件130滑动连接。
实施例11:
如图2、图3和图4所示,在实施例5至实施例9中任一者的基础上,进一步地,在第一滑轨1262的中间位置开设第一开口1264,第一滑槽1282的中间位置与第一开口1264相对应的设置有第一凸起,并且,沿第一滑槽1282和第一滑轨1262的滑动方向,第一凸起的长度小于第一开口1264的长度。
在该实施例中,第一滑轨1262的中间位置设置有一个第一开口1264,第一滑槽1282的中间位置设置有第一凸起,进而在安装时,第一凸起嵌入第一开口1264内部,并且,沿着第一滑槽1282和第一滑轨1262的滑动方 向,第一凸起的长度小于第一开口1264的长度,进而在第一传动件126和第二传动件128完成安装后,通过第一凸起和第一开口1264限制第一传动件126和第二传动件128的滑动距离,实现对第一传动件126和第二传动件128的限位,从而避免第一传动件126和第二传动件128的脱离,保证连接组件120的有效性。
并且,在安装时,可以借用外力将第一凸起推入第一开口1264,而在没有外力的情况下,第一凸起无法脱离第一开口1264。
具体地,第一传动件126和第二传动件128可以是弹性件,例如塑料或橡胶等,第一凸起的凸出高度在2毫米以下,进而可以利用弹性形变,在利用外力完成第一传动件126和第二传动件128的安装。
而在安装完成后,由于第一凸起和第一开口的存在,可以保证第一传动件126和第二传动件128不会脱离,进而保证了传动系统连接的可靠性。
实施例12:
如图2、图4和图5所示,在实施例6至实施例11中任一者的基础上,进一步地,在第二滑轨1284的中间位置开设第二开口1304,第二滑槽1302的中间位置与第二开口1304相对应的设置有第二凸起,并且,沿第二滑槽1302和第二滑轨1284的滑动方向,第二凸起的长度小于第二开口1304的长度。
在该实施例中,第二滑轨1284的中间位置设置有一个第二开口1304,第二滑槽1302的中间位置设置有第二凸起,进而在安装时,第二凸起嵌入第二开口1304内部,并且,沿着第二滑槽1302和第二滑轨1284的滑动方向,第二凸起的长度小于第二开口1304的长度,进而在第二传动件128和第三传动件130完成安装后,通过第二凸起和第二开口1304限制第二传动件128和第三传动件130的滑动距离,实现对第二传动件128和第三传动件130的限位,从而避免第二传动件128和第三传动件130的脱离,保证连接组件120的有效性。
并且,在安装时,可以借用外力将第二凸起推入第二开口1304,而在没有外力的情况下,第二凸起无法脱离第二开口1304。
具体地,第二传动件和第三传动件可以是弹性件,例如塑料或橡胶等,第二凸起的凸出高度在2毫米以下,进而可以利用弹性形变,在利用外力完成第 二传动件和第三传动件的安装。
而在安装完成后,由于第二凸起和第二开口的存在,可以保证第二传动件128和第三传动件130不会脱离,进而保证了传动系统连接的可靠性。
实施例13:
如图2和图4所示,在实施例4至实施例12中任一者的基础上,进一步地,第二传动件128上设置有第一通孔1286,第一连接部122的部分位于第一通孔1286内。
在该实施例中,第二传动件128上设置有第一通孔1286,第一连接部122的部分位于第一通孔1286内,进而进一步缩短第一传动件126和第二传动件128之间的距离,有利于连接组件120的小型化。
具体地,在第一方向上,第一通孔1286的长度大于第一连接部122的长度,进而在第一传动件126和第二传动件128进行相对运动时,第一通孔1286和第一连接部122不会出现干涉的情况。
并且,这样的设置延长了第一连接部122,进而保证第一连接部122和转动部112连接的可靠性。
实施例14:
如图2所示,在实施例1至实施例13中任一者的基础上,进一步地,第一方向与第二方向相垂直,且第二方向与第三方向相垂直。
在该实施例中,第一方向与第二方向相垂直,第二方向与第三方向相垂直,从而扩大了第一连接部122和第二连接部124的活动范围,提升连接组件120对电控件110倾斜和偏位的矫正范围。
具体地,第一方向和第二方向可以完全分解为三维直角坐标系的X轴和Y轴上。
进一步地,第一方向和第三方向相垂直,进而第一方向为X轴方向,第三方向为Y轴方向。
在具体实施的过程中,由于误差等原因,这里以88度到92度均视为垂直。
具体地,旋钮160的转轴A沿着第二方向延伸,在三维直角坐标系中,第二方向为Z轴方向,其中,Z轴方向可以是正向或负向,即第二方向是Z轴的正向和负向两个方向;第一方向为X轴方向,可以是正向或负向,即第 一方向是X轴的正向和负向两个方向;第三方向为Y轴方向,可以是正向或负向,即第三方向是Y轴的正向和负向两个方向。
实施例15:
如图2所示,在实施例3至实施例14中任一者的基础上,进一步地,壳体包括盒体140和盖体150,盖体150可盖扣在盒体140上,盒体140内部具有容纳腔,传动系统的至少部分位于盒体140内部。
具体地,盒体140上设置有第二通孔142,以便于转动部112和第一连接部122相连接,盖体150上设置有第三通孔152,以便于第二连接部124和旋钮160相连接。
在该实施例中,壳体包括盒体140和盖体150,通过分体式的壳体便于连接组件120的装配,并且,盒体140上设置有第二通孔142,盖体150上设置有第三通孔152,以便于电控件110和第一连接部122的安装,并且,便于第二连接部124和旋钮160的安装。
具体地,可以是第一连接部122穿过第二通孔142和转动部112相连接,也可以是转动部112穿过第二通孔142和第一连接部122相连接。
可以是第二连接部124穿过第三通孔152和旋钮160相连接,也可以是旋钮160穿过第三通孔152和第二连接部124相连接。
进一步地,在电控件110上设置有安装孔,盒体140上设置有安装孔或螺孔,进而螺钉可以穿过电控件110上的安装孔与盒体140上的螺孔相螺接,或者,螺钉可以穿过电控件110上的安装孔和盒体140上的安装孔,与螺母相螺接。
实施例16:
如图1和图2所示,在实施例1至实施例15中任一者的基础上,进一步地,转动部112与第一连接部122相插接,转动部112的侧壁设置有第一配合面1122,第一连接部122与第一配合面1122相适配。
在该实施例中,转动部112和第一连接部122相插接,进而减小了电控件110和连接组件120之间的距离,从而便于旋钮装置100的小型化。
具体地,转动部112可以为D型轴,第一连接部122设置有与D型轴相匹配的轴孔。
第一连接部122可以为D型轴,转动部112设置有与D型轴相匹配的轴孔。
实施例17:
如图1和图2所示,在实施例1至实施例16中任一者的基础上,进一步地,旋钮160与第二连接部124相插接,第二连接部124的侧壁设置有第二配合面1242,第二连接部124与第二配合面1242相适配。
在该实施例中,第二连接部124和旋钮160相插接,进而减小了旋钮160和连接组件120之间的距离,从而便于旋钮装置100的小型化。
具体地,第二连接部124可以为D型轴,旋钮160设置有与D型轴相匹配的轴孔。
旋钮160可以设置有D型轴,第二连接部124设置有与D型轴相匹配的轴孔。
实施例18:
如图1至图5所示,本申请提供的旋钮装置100,改善电控件110出现倾斜、偏位等不良时而出现的摩擦与旋钮160倾斜等问题。
本申请提供的旋钮装置100,盒体140和盖体150装配成壳体,并与电控部固定连接,第一连接部122的孔位与电控件110的转动轴杆装配,通过孔与转动轴杆的第一配合面1122的配合,带动电控件110的转动部112转动。
同时,第一传动件126和第二传动件128采用滑槽与滑轨的装配方式,装配后,可实现第一传动件126和第二传动件128在X轴方向的相互滑动。
第二传动件128和第三传动件130采用滑槽与滑轨的装配方式,装配后,可实现第二传动件128和第三传动件130在Y轴方向的相互滑动。
因此,第一传动件和第三传动件之间可以形成一个在X轴方向和Y轴方向两个方向上相对滑动的配合。
第三传动件130上设置有与电控件110的转动轴杆相同的结构的第二连接部124,进而通过第二连接部124与旋钮160相配合。
本申请提供的旋钮装置100,当电控件110安装偏位,电控件110的转动部112不在旋转中心处时,由于第一传动件、第二传动件和第三传动件,在X轴方向和Y轴方向上的相对滑动,使得轴心位置可在整个平面中得到校正和 调节,最后依然可以保证第二连接部124处于旋转中心位置,即可以保证旋钮160的中心在旋转中心,避免旋钮160旋转时出现偏心、摩擦等问题。
实施例19:
本申请提供了一种烹饪器具,包括:如上述任一实施例提供的旋钮装置100。
本申请提供的烹饪器具,因包括如上述任一实施例提供的旋钮装置100,因此,具有如上述任一实施例提供的旋钮装置100的全部有益效果,在此不再一一陈述。
具体地,烹饪器具包括外壳和烹饪件,烹饪件可以是加热件或制冷件,外壳上设置有安装孔,旋钮装置100穿设于安装孔,至少部分旋钮160位于外壳外部,进而便于用户转动旋钮160。
进一步地,烹饪器具可以是烤箱、微波炉、蒸箱、饭煲、料理机、洗碗机、豆浆机、电磁炉或燃气灶等。
在本申请中,术语“第一”、“第二”、“第三”仅用于描述的目的,而不能理解为指示或暗示相对重要性;术语“多个”则指两个或两个以上,除非另有明确的限定。术语“安装”、“相连”、“连接”、“固定”等术语均应做广义理解,例如,“连接”可以是固定连接,也可以是可拆卸连接,或一体地连接;“相连”可以是直接相连,也可以通过中间媒介间接相连。对于本领域的普通技术人员而言,可以根据具体情况理解上述术语在本申请中的具体含义。
本申请的描述中,需要理解的是,术语“上”、“下”、“左”、“右”、“前”、“后”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本申请和简化描述,而不是指示或暗示所指的装置或单元必须具有特定的方向、以特定的方位构造和操作,因此,不能理解为对本申请的限制。
在本说明书的描述中,术语“一个实施例”、“一些实施例”、“具体实施例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或特点包含于本申请的至少一个实施例或示例中。在本说明书中,对上述术语的示意性表述不一定指的是相同的实施例或实例。而且,描述的具体特征、结构、材料或特点可以在任何的一个或多个实施例或示例中以合适的方式结合。
以上所述仅为本申请的优选实施例而已,并不用于限制本申请,对于本领 域的技术人员来说,本申请可以有各种更改和变化。凡在本申请的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本申请的保护范围之内。

Claims (15)

  1. 一种旋钮装置,其中,包括:
    电控件,所述电控件包括转动部;
    连接组件,所述连接组件包括第一连接部和第二连接部,所述第一连接部与所述转动部相连接,所述第一连接部和所述第二连接部可沿第一方向进行相对运动;
    旋钮,与所述第二连接部相连接,所述旋钮能以沿第二方向延伸的转轴为旋转中心进行转动,且所述旋钮可通过所述连接组件带动所述转动部转动,所述第一方向与所述第二方向不同且不相反。
  2. 根据权利要求1所述的旋钮装置,其中,
    所述第一连接部和所述第二连接部还可沿第三方向进行相对运动,所述第三方向与所述第一方向和所述第二方向均不同且不相反。
  3. 根据权利要求2所述的旋钮装置,其中,所述连接组件包括:
    壳体;
    传动系统,至少部分位于所述壳体内,所述第一连接部和所述第二连接部均设于所述传动系统。
  4. 根据权利要求3所述的旋钮装置,其中,所述传动系统包括:
    第一传动件,所述第一连接部位于所述第一传动件;
    第二传动件,所述第一传动件与所述第二传动件可沿所述第一方向进行相对活动;
    第三传动件,所述第二连接部位于所述第三传动件,所述第二传动件与所述第三传动件可沿所述第三方向进行相对活动,
    其中,所述第一传动件和所述第三传动件分别位于所述第二传动件相背的两侧。
  5. 根据权利要求4所述的旋钮装置,其中,
    所述第一传动件和所述第二传动件上分别设置有相适配的第一滑槽和第一滑轨;和/或
    所述第三传动件和所述第二传动件上分别设置有相适配的第二滑槽和第 二滑轨。
  6. 根据权利要求5所述的旋钮装置,其中,
    所述第一滑槽为T型滑槽,所述第一滑轨为T型滑轨;和/或
    所述第二滑槽为T型滑槽,所述第二滑轨为T型滑轨。
  7. 根据权利要求5所述的旋钮装置,其中,
    所述第一滑槽具有两条,两条所述第一滑槽设于所述第一传动件和所述第二传动件中的一个,所述两条所述第一滑槽的开口相对;
    所述第一滑轨具有两条,两条所述第一滑槽设于所述第一传动件和所述第二传动件中的另一个的两侧。
  8. 根据权利要求5所述的旋钮装置,其中,
    所述第二滑槽具有两条,两条所述第二滑槽设于所述第二传动件和所述第三传动件中的一个,所述两条所述第一滑槽的开口相对;
    所述第一滑轨具有两条,两条所述第一滑槽设于所述第一传动件和所述第二传动件中的另一个的两侧。
  9. 根据权利要求5所述的旋钮装置,其中,
    所述第一滑轨的中间位置设置有第一开口,所述第一滑槽的中间位置设置有第一凸起,沿所述第一滑槽和所述第一滑轨的滑动方向,所述第一凸起的长度小于所述第一开口的长度;和/或
    所述第二滑轨的中间位置设置有第二开口,所述第二滑槽的中间位置设置有第二凸起,沿所述第二滑槽和所述第二滑轨的滑动方向,所述第二凸起的长度小于所述第二开口的长度。
  10. 根据权利要求4所述的旋钮装置,其中,
    所述第二传动件上设置有第一通孔,所述第一连接部的部分位于所述第一通孔内。
  11. 根据权利要求2至10中任一项所述的旋钮装置,其中,
    所述第一方向与所述第二方向相垂直;
    所述第二方向与所述第三方向相垂直。
  12. 根据权利要求11所述的旋钮装置,其中,
    所述第一方向与所述第三方向相垂直。
  13. 根据权利要求3至10中任一项所述的旋钮装置,其中,所述壳体包括:
    盒体,所述盒体设置有第二通孔,所述转动部和所述第一连接部中的一个穿过所述第二通孔与另一个相连接;
    盖体,所述盖体设置有第三通孔,所述第二连接部和所述旋钮中的一个穿过所述第三通孔与另一个相连接。
  14. 根据权利要求1至10中任一项所述的旋钮装置,其中,
    所述转动部与所述第一连接部相插接,所述转动部的侧壁设置有第一配合面,所述第一连接部与所述第一配合面相适配;
    所述第二连接部与所述旋钮相插接,所述第二连接部的侧壁设置有第二配合面,所述第二连接部与所述第二配合面相适配。
  15. 一种烹饪器具,其中,包括:
    如权利要求1至14中任一项所述的旋钮装置。
PCT/CN2021/134264 2020-12-31 2021-11-30 旋钮装置和烹饪器具 WO2022142960A1 (zh)

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