This application claims the priority benefit of Taiwan application serial no. 108103643, filed on Jan. 30, 2019. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.
The present disclosure relates to a knob assembly, and in particular, to a knob assembly in which an upper housing is limited on a lower housing through a pushing member and a shuttle structure having the knob assembly.
With the advancement of technology, the use of shuttle structures has become increasingly common. A user can operate an electronic device or operate a function interface thereof by using a shuttle structure.
For example, in the process of using a multimedia device, the volume, image capture or selection of other functions may be controlled by operating a shuttle device. The advantage of using the shuttle structure lies in that the shuttle structure can be smoothly operated in one rotation direction or may be reversely rotated to select an opposite function, and no fault occurs in the functional state during operation.
Therefore, how to design a knob assembly and a shuttle structure which are easy to assemble and operate is a subject urgently needed to be studied by a person skilled in the art.
In view of this, an embodiment of the present disclosure provides a knob assembly, including a lower housing, a pushing member, an upper housing, and a screw member.
The lower housing includes a tank and a plurality of hook structures disposed in the tank. A through hole is formed at the center of the lower housing. The upper housing is rotatably stacked on the lower housing along an axis, and includes an annular hook groove disposed on a lower surface of the upper housing. The pushing member is disposed between the upper housing and the lower housing, and includes a body and a plurality of pushing structures disposed around the body. A screw hole is formed at the center of the body. When the screw member is screwed into the screw hole through the through hole, the pushing member moves toward and locks the lower housing, and the pushing structures push the hook structures to cause the hook structures to expand outward and be hooked to the annular hook groove of the upper housing, so that the upper housing is limited on the axis by the lower housing.
In the knob assembly or shuttle structure according to one or more embodiments of the present disclosure, the upper housing and the lower housing are hooked to each other by using the pushing member, such that the knob assembly is easy to assemble and disassemble, and convenient to use.
As shown in
The upper housing 11 is rotatably stacked on the lower housing 13 along an axis L, and a lower surface 11b of the upper housing 11 includes an annular hook groove 111. In the embodiment shown in
The pushing member 12 is disposed between the upper housing 11 and the lower housing 13, and the pushing member 12 includes a body 121 and a plurality of pushing structures 122. A screw hole 1211 is formed at the center of the body 121. A number of the pushing structures 122 is the same as a number of the hook structures 132 of the lower housing 13. The pushing structures 122 are connected to the body 121, and the pushing structures 122 are evenly arranged around the body 121. Being evenly arranged means that the plurality of pushing structures 122 is annularly arranged at equal intervals on a circumference. In short, the pushing structures 122 are symmetrically arranged with the screw hole 1211 as a center point. In the embodiment shown in
When a screw member 14 is screwed into the screw hole 1211 through the first through via 133, the pushing member 12 moves toward and locks the lower housing 13, and the pushing structures 122 push the hook structures 132 to cause the hook structures 132 to expand outward and be hooked to the annular hook groove 111, so that the upper housing 11 is limited along the axis L by the lower housing 13. In this way, the upper housing 11 and the lower housing 13 are combined with each other and can rotate relative to each other.
In some embodiments, the upper housing 11 is integrally formed. Compared to a disassemblable housing, the integrally formed upper housing requires fewer manufacturing procedures and low costs. Besides, the upper housing 11 has higher precision than a disassemblable housing.
In the embodiment shown in
The inclination angle α is an angle between the limiting portion 1321 and the bottom of the tank 131, as shown in
Referring to
Referring to
In addition, as shown in
In the embodiments shown in
Refer to
The shuttle structure 100 includes a knob assembly 1, and further includes an upper cover 2, a lower cover 3, and a metal sheet 31. The upper cover 2 is made of a metal material and disposed on one side of the upper housing 11 opposite to the pushing member 12. The lower cover 3 is also made of a metal material and disposed on one side of the upper housing 13 opposite to the pushing member 122, and the lower cover 3 comprising a second through via 32. The metal sheet 31 is made of an elastic material and disposed on an inner wall 3a of the lower housing 13. The metal sheet 31 is configured to connect the upper cover 2 and the lower cover 3, so that the upper cover 2 and the lower cover 3 can be tightly combined and grounded, as shown in
In addition, in the embodiments shown in
A sensor 51 and a processor 52 are disposed on the circuit board 5. The sensor 51 can sense a rotation state of the upper housing 11. In an embodiment, the sensor 51 is an optical sensor, disposed on one side of the circuit board 5, and facing toward the lower surface 11b of the upper housing 11. In some other embodiments, the sensor 51 may be any sensing device capable of determining the rotation state of the upper housing 11.
In some embodiments, a feature pattern is disposed on the lower surface 11b of the upper housing 11. The optical sensor 51 is configured to sense the feature pattern, capture an image of the annular upper housing 11 in rotation, and transfer image signal to the processor 52 on the circuit board 5, so that the processor 52 performs precise calculation and analysis, and obtains the state of shuttle structure 100 operated by the user. For example, if determining that the user rotates the shuttle structure 100 clockwise (that is, the rotation state is clockwise), the processor 52 generates a volume-up signal; if determining that the user rotates the shuttle structure 100 counterclockwise (that is, the rotation state is counterclockwise), the processor 52 generates a volume-down signal.
The shuttle structure 100 provided in the present disclosure may be applied to many fields. In an embodiment, the shuttle structure 100 may be applied to a household appliance as an assistant tool for selecting a function option. In another embodiment, the shuttle structure 100 may be applied to a multimedia device such as an intelligent speaker, as an assistant tool for selecting a function option or adjusting the channel or the volume. In still another embodiment, the shuttle structure 100 may be applied to an automobile as an assistant tool for changing gears during driving. That is to say, the application of the shuttle structure 100 has been extended to more fields, which are not limited in the present disclosure.
Compared to the prior arts, components of a conventional disassemblable knob assembly have low precision in size, are easily deformed after molding to cause skewing of internal components and affect the assembly process, and are also easily deformed during subsequent operation. The knob assembly or the shuttle structure according to one or more embodiments of the present disclosure requires fewer components, is easy to manufacture, and has high precision, thereby reducing the risk of poor appearance due to assembly tolerances.
In addition, in some conventional technologies, the upper housing and the lower housing are locked using a screw, and the structure is susceptible to torsion. When there is great torsion, the structure of the knob assembly is easily deformed, affecting the rotation operation of the user. In the knob assembly or the shuttle structure according to one or more embodiments of the present disclosure, the upper housing and the lower housing are hooked to each other by using the annular pushing member, such that the knob assembly is easy to assemble and disassemble, and convenient to use.
Number | Date | Country | Kind |
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108103643 A | Jan 2019 | TW | national |
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4235556 | Dewey | Nov 1980 | A |
4593430 | Spangler | Jun 1986 | A |
6972386 | McSwiggen | Dec 2005 | B1 |
20140165782 | Windauer | Jun 2014 | A1 |
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201688338 | Dec 2010 | CN |
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M257693 | Mar 2005 | TW |
M357011 | May 2009 | TW |
Number | Date | Country | |
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20200243280 A1 | Jul 2020 | US |