The invention relates to the technical field of household appliances, and in particular to a movement mechanism, a panel mechanism and a household appliance.
In the prior art, in a common household appliance, instanced by an air conditioner, a panel is unmovable generally. Recently, along with the design diversification of the air conditioner, an air conditioner with a movable panel begins to emerge. For example, in the technical solution disclosed by a Chinese patent file (publication number: CN203258820U), the panel is movable, such that when the air conditioner does not run, an air deflector is shielded by the panel, thereby achieving the appearance integrity. Besides, the movable panel can totally seal an air guide mechanism in a cavity formed by the panel and a housing, thereby avoiding a problem of influence on the health of a user caused by easy gathering of dust due to exposure of the air guide mechanism in air.
However, a movement mechanism for the panel is relatively complicated and is inconvenient to produce and process, the production cost of a household appliance is increased, and meanwhile, movement is unstable due to a complicated structure.
The invention is intended to provide a movement mechanism having a simple structure, a panel mechanism and a household appliance.
To this end, according to one aspect of the invention, a movement mechanism is provided, which comprises: a rotary disc, rotatably provided, a first support is fixedly provided on the rotary disc, and a free end of the first support having a first connection portion; and a second support, the second support and the rotary disc being hinged to a second connection portion, a first end of the second support having a third connection portion, and the third connection portion being movable along a predetermined track when the rotary disc rotates.
Furthermore, a guide piece is provided on the second support. The movement mechanism further comprises a drive box. The rotary disc is rotatably provided in the drive box. A first guide groove is provided on the drive box, wherein, the guide piece moving in the first guide groove so as to limit a movement track of the second support.
Furthermore, the guide piece is a rolling device or a guide shaft or may include a guide shaft and an axle sleeve sleeved outside the guide shaft.
Furthermore, a second end of the second support is further provided with a balance portion.
Furthermore, the guide piece is provided on the balance portion.
Furthermore, an obtuse angle is formed between a central axis of the balance portion and a central axis of the second support.
Furthermore, a second guide groove matching with the balance portion is provided on the rotary disc.
Furthermore, the drive box comprises a box body and a box cover fastened mutually, and the first guide groove is provided on the box cover.
Furthermore, a central through hole is provided at a rotation centre position of the rotary disc, and a central limiting shaft matching the central through hole is provided on the box body.
Furthermore, a middle limiting shaft is provided on the box body, the rotary disc has a first arc-shaped avoidance groove matching the middle limiting shaft, and a circle centre of the first arc-shaped avoidance groove is concentric with a rotation centre of the rotary disc.
Furthermore, the rotary disc is provided with an arc-shaped edge, a circle centre of the arc-shaped edge is concentric with a rotation centre of the rotary disc, an edge limiting shaft is provided on the box body, and the edge limiting shaft matches the arc-shaped edge of the rotary disc.
Furthermore, the rotary disc comprises a rotary disc body and a supporting portion provided on the periphery of the rotary disc body, arc-shaped supporting convex ribs are provided on the box body and/or the box cover, and the supporting portion and the arc-shaped supporting convex ribs match each other so as to support the rotary disc body away from the box body and/or the box cover.
Furthermore, the first end of the second support has a bending portion, and the third connection portion is provided on the bending portion.
Furthermore, a transmission rack is provided on the rotary disc, the movement mechanism further comprises a motor and a transmission mechanism, the motor drives the transmission mechanism, the transmission mechanism comprises a speed-reducing gear set, the transmission rack matches the speed-reducing gear set, and the motor drives the transmission mechanism so as to drive the rotary disc to rotate.
Furthermore, the speed-reducing gear set comprises a first gear and a second gear driven by the first gear, the radius of the first gear is smaller than that of the second gear, the first gear is mounted on an output shaft of the motor, and the second gear is meshed with the transmission rack.
Furthermore, the speed-reducing gear set further comprises a third gear which is coaxial with or integrated with the second gear, the third gear and the second gear rotating synchronously. The third gear is meshed with the first gear, and the radius of the second gear is smaller than that of the third gear.
Furthermore, the rotary disc has an arc-shaped drive groove, a circle centre of the arc-shaped drive groove is concentric with a rotation centre of the rotary disc, the transmission rack is provided in the arc-shaped drive groove, and the second gear rotates in the arc-shaped drive groove.
Furthermore, the rotary disc also has a second arc-shaped avoidance groove avoiding the motor.
Furthermore, the arc-shaped drive groove and the second arc-shaped avoidance groove are independent of each other, or the arc-shaped drive groove and the second arc-shaped avoidance groove are communicated with each other.
Furthermore, the movement mechanism of the invention further comprises a limiting rib protruding out of the drive box and corresponding to the second support, the limiting rib being configured to limit movement of the second support in a direction vertical to a rotation plane thereof.
Furthermore, the movement mechanism of the invention further comprises a connection piece, a first guide groove is provided on the connection piece so as to form the predetermined track, the first end of the second support is provided with a first matching portion sliding or rolling in the first guide groove, the first matching portion forms the third connection portion, and the connection piece is further provided with a hinging portion hinging the free end of the first support to the first connection portion.
According to another aspect of the invention, the invention also provides a panel mechanism, which comprises a panel and a movement mechanism matching the panel, the movement mechanism being the above movement mechanism.
Furthermore, a second guide groove is provided on the panel so as to form the predetermined track, the first end of a second support is provided with a second matching portion sliding or rolling in the second guide groove, the second matching portion forms the third connection portion, and the panel and the free end of a first support are hinged to the first connection portion.
According to another aspect of the invention, the invention also provides a panel mechanism, which comprises a panel and a movement mechanism matching the panel, the movement mechanism being the above movement mechanism. The panel is detachably connected with the connection piece.
According to another aspect of the invention, the invention also provides a household appliance, which comprises a housing and a panel mechanism mounted on the housing, the panel mechanism being the above movement mechanism.
Furthermore, the household appliance is an air conditioner, the air conditioner further comprises an air deflector, and a panel has a closed position covering the outer side of the air deflector and an open position exposed from the air deflector.
By adoption of the technical solution of the invention, when in use, a driven piece (such as a panel) and a movement mechanism are connected to a first connection portion and a third connection portion. The first connection portion is rotatably connected with the driven piece, and the third connection portion is movable with respect to a guide structure such as a guide groove forming a predetermined track. A first support is fixedly connected with a rotary disc, the first connection portion of the first support is hinged to the driven piece, and therefore rotation of the first support can push the driven piece hinged to the first support to rotatably move up and down. A second support and the rotary disc are hinged to the second connection portion, a first end of the second support has the third connection portion, during rotation of the first support, the second support will be driven to swing about the second connection portion serving as the rotation centre, and the third connection portion will be driven to move along the predetermined track. Thus, the driven piece connected with the movement mechanism is movable along a preset movement track. The movement mechanism of the invention enables the driven piece to move along the predetermined track by means of matching of the rotary disc, the first support and the second support. Compared with a dual-gear rack structure in the prior art, the movement mechanism of the invention has a simpler structure and more steadily moves.
The drawings of the specification, forming a part of the invention, are intended to provide further understanding of the invention. The schematic embodiments and illustrations of the invention are intended to explain the invention, and do not form improper limits to the invention. In the drawings:
Wherein, the foregoing drawings include the following drawing marks:
10, panel; 11, second guide groove; 21, rotary disc; 211, arc-shaped drive groove; 213, first arc-shaped avoidance groove; 212, second arc-shaped avoidance groove; 214, supporting portion; 215, second guide groove; 216, transmission rack; 22, first support; 23, second support; 231, second matching portion; 232, balance portion; 232a, guide piece; 24, first gear; 25, second gear; 26, third gear; 27a, box body; 27b, box cover; 271, first guide groove; 272, arc-shaped supporting convex rib; 273, limiting rib; 281, central limiting shaft; 282, middle limiting shaft; 283, edge limiting shaft; 30, air deflector; 40, air sweeping blade; 50, connection piece; 51, first guide groove; 52, hinging portion; and 60, motor.
It is important to note that the embodiments of the invention and the characteristics in the embodiments may be combined under the condition of no conflicts. The invention will be elaborated below with reference to the drawings and in conjunction with the embodiments.
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By adoption of the technical solution of this embodiment, when in use, a driven piece (the driven piece is a panel 10 in this embodiment) and the movement mechanism are connected to the first connection portion and the third connection portion. The first support 22 is fixedly connected with the rotary disc, the first connection portion at a free end of the first support 22 is hinged to the panel 10, and therefore rotation of the first support 22 can push the panel 10 hinged to the first support 22 to rotatably move up and down. The second support 23 and the rotary disc 21 are hinged to the second connection portion, a first end of the second support 23 has the third connection portion, during rotation of the first support 22, the second support 23 will be driven to swing about the second connection portion serving as a rotation centre, and the third connection portion will be driven to move along the predetermined track. Thus, the panel 10 is movable along a preset movement track, so as to open and close the panel 10. The panel mechanism of Embodiment 1 enables the panel 10 to be opened and closed by means of matching of the rotary disc 21, the first support 22, the second support 23 and the panel 10. Compared with a dual-gear rack structure in the prior art, the panel mechanism of this embodiment has a simpler structure and more steadily moves.
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In order to further reduce the friction and improve the movement stability, the rotary disc 21 comprises a rotary disc body and a supporting portion 214 provided on the periphery of the rotary disc body. The supporting portion 214 protrudes out of the rotary disc 21 in a rotation axis direction of the rotary disc body. Arc-shaped supporting convex ribs 272 matching the supporting portion 214 are provided on the box body 27a and/or the box cover 27b. The supporting portion 214 and the arc-shaped supporting convex ribs 272 match each other so as to support the rotary disc body away from the box body 27a and/or the box cover 27b. That is, the supporting portion 214 can support the rotary disc 21, thereby avoiding contact between the whole surface of the rotary disc 21 and the drive box, and reducing the friction. Preferably, the supporting portion 214 may be provided as a rotary shaft rotatably connected with the rotary disc 21, or may be fixedly connected with the rotary disc 21 and sheathed externally by an axle sleeve.
The rotary disc 21 may be directly driven by a motor. Or, as shown in
The transmission rack 216 may be provided on the surface of the rotary disc 21. Or preferably, in order to make the occupation space smaller, the rotary disc 21 has an arc-shaped drive groove 211, the transmission rack 216 is provided in the arc-shaped drive groove 211, and the second gear 25 rotates in the arc-shaped drive groove 211.
The rotary disc 21 has a second arc-shaped avoidance groove 212 avoiding the output shaft of the motor. The arc-shaped drive groove 211 and the second arc-shaped avoidance groove 212 are independent of each other, or the arc-shaped drive groove 211 and the second arc-shaped avoidance groove 212 are communicated with each other. The circle centres of the arc-shaped drive groove 211 and the second arc-shaped avoidance groove 212 adopt the rotation centre of the rotary disc 21.
The movement process of the movement mechanism will be introduced below in conjunction with
When the driven piece needs to be moved, the motor drives the first gear 24 to rotate, and the first gear 24 drives the third gear 26 meshed therewith to rotate. The second gear 25 and the third gear 26 are coaxially or integrally provided, such that the second gear 25 and the third gear 26 may synchronously rotate, so as to drive the transmission rack meshed with the second gear 25 to move, thus the rotary disc 21 will be driven to rotate around the rotation centre. The rotation of the rotary disc 21 can drive the first support 22 to rotate, thus, rotation of the first support 22 can push the driven piece to rotatably move up. When the first support 22 rotates, the second support 23 will be driven to swing about the second connection portion serving as the rotation centre, and the third connection portion will be driven to move along the predetermined track. Thus, the driven piece is movable along the preset movement track.
When the driven piece needs to be reset, the motor rotates reversely, the rotary disc 21 is driven to rotate reversely, and the first support 22 and the second support 23 return to initial positions. A closed process is an inverse process of an open process, which will not be elaborated.
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In the panel mechanism of this embodiment, as shown in
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The invention also provides a household appliance. The household appliance according to an embodiment of the invention has a housing and a panel mechanism mounted on the housing, the panel mechanism being the above movement mechanism. As shown in
Certainly, the panel mechanism is not limited to be used in the air conditioner, and may be used in other household appliances of which panels need to be opened.
The above is only the preferred embodiments of the invention, and is not intended to limit the invention. There may be various modifications and variations in the invention for those skilled in the art. Any modifications, equivalent replacements, improvements and the like within the spirit and principle of the invention shall fall within the protective scope of the invention.
Number | Date | Country | Kind |
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2014 1 0171397 | Apr 2014 | CN | national |
Number | Name | Date | Kind |
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20070261425 | Yasutomi | Nov 2007 | A1 |
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2800137 | Jul 2006 | CN |
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Number | Date | Country | |
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20190360720 A1 | Nov 2019 | US |
Number | Date | Country | |
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Parent | 15306161 | US | |
Child | 16533995 | US |