CN108107971B - Electronic component and docking station - Google Patents

Abstract

The invention relates to an electronic assembly and an expansion base. The electronic device is provided with a first surface and a second surface which are opposite to each other, wherein the first surface is a display surface. The docking station includes a body, a first carrier, a second carrier and a third carrier, wherein the first carrier, the third carrier and the second carrier are disposed on the body in sequence and in parallel. The first carrier plate is hinged to the machine body along a first shaft, the second carrier plate is hinged to the machine body along a second shaft, the third carrier plate is freely pivoted to the second carrier plate along the first shaft, the third carrier plate is freely pivoted to the first carrier plate along the second shaft, and the first shaft is parallel to the second shaft but does not overlap with the second shaft. The portable electronic device has a carrier plate capable of being turned over in two directions, so that the portable electronic device can be supported on the expansion base in different directions.

Description

Electronic component and docking station

Technical Field

The invention relates to an electronic component and an expansion base.

Background

Generally, portable electronic devices are convenient to carry and send information in time, so they are popular among consumers. Common portable electronic devices include a notebook computer, a smart phone, a tablet computer, and the like, wherein a size of a display screen of the tablet computer is larger than that of the smart phone, and a weight of the tablet computer is lighter than that of the notebook computer, so that the tablet computer becomes one of main items when a consumer purchases the portable electronic device.

Since the tablet computer needs to be operated in a touch display screen manner, and the functionality and the expandability of the tablet computer are insufficient compared with those of a notebook computer, an expansion base is proposed to be combined with the tablet computer, and after the tablet computer is assembled on the expansion base and reaches a signal transmission state in a wireless or wired manner, a user can operate the tablet computer through a keyboard group on the expansion base.

Most of the conventional docking stations expose the hook and the electrical connector outside the housing, which are not only vulnerable to collision but also difficult to have a simple appearance. Meanwhile, the tablet pc can be assembled to the docking station only in a single direction, and thus there is still a considerable inconvenience in the operation mode.

Disclosure of Invention

The invention provides an electronic assembly and an expansion base, which are provided with a carrier plate capable of being turned over in two directions, so that portable electronic equipment can be supported on the expansion base in different directions.

The electronic assembly of the invention comprises a portable electronic device and an expansion base. The electronic device is provided with a first surface and a second surface which are opposite to each other, wherein the first surface is a display surface. The docking station includes a body, a first carrier, a second carrier and a third carrier, wherein the first carrier, the third carrier and the second carrier are disposed on the body in sequence and in parallel. The first carrier plate is hinged to the machine body along a first shaft, the second carrier plate is hinged to the machine body along a second shaft, the third carrier plate is freely pivoted to the second carrier plate along the first shaft, the third carrier plate is freely pivoted to the first carrier plate along the second shaft, and the first shaft is parallel to the second shaft but does not overlap with the second shaft.

The docking station of the invention is used for bearing the portable electronic device. The docking station includes a body, a first carrier, a second carrier, and a third carrier. The first carrier plate is provided with a first edge and a second edge which are opposite to each other, and the first edge is originally hinged to the machine body so that the first carrier plate can rotate relative to the machine body and can be opened and closed. The second carrier plate is provided with a third edge and a fourth edge which are opposite to each other, and the third edge is hinged to the machine body so that the second carrier plate can rotate relative to the machine body and can be opened and closed. The third carrier plate has a fifth edge and a sixth edge opposite to each other, the fifth edge is freely pivoted to the fourth edge, and the sixth edge is freely pivoted to the second edge. When the first carrier plate is unfolded relative to the body, the third carrier plate is unfolded relative to the body along with the first carrier plate and forms a first state, so that the portable electronic device is supported on the first carrier plate and the third carrier plate and is vertically arranged on the expansion base. When the second carrier plate is unfolded relative to the body, the third carrier plate is unfolded relative to the body along with the second carrier plate and forms a second state, so that the portable electronic device is supported on the second carrier plate and the third carrier plate and is vertically arranged on the expansion base.

Based on the above, the docking station disclosed in the above embodiment of the invention has the first carrier board, the second carrier board and the third carrier board disposed on the body, and different sides (shafts) of the first carrier board and the second carrier board are respectively hinged to the body of the docking station, and the third carrier board is freely pivoted between another different sides (shafts) of the first carrier board and the second carrier board, and it should be noted that the different sides (shafts) are respectively coaxial with the hinged position of the first carrier board and the body, and the hinged position of the second carrier board and the body. Therefore, when the first carrier plate and the second carrier plate respectively rotate relative to the body, the third carrier plate can be respectively driven to rotate, so that the third carrier plate can be overturned relative to the body in different axial directions, and a double-side overturning effect is achieved, and accordingly the portable electronic device can be vertically arranged on the expansion base in different states, and the effect of different operation modes is achieved.

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

FIG. 1 is a diagram of a docking station according to an embodiment of the present invention.

Fig. 2 and fig. 3 are schematic diagrams of an electronic device in another state according to an embodiment of the invention.

FIG. 4 is a schematic diagram illustrating the electronic device of FIG. 2 in another state.

Fig. 5 and fig. 6 are schematic views respectively illustrating an electronic assembly according to another embodiment of the invention from different viewing angles.

Fig. 7 shows a schematic view of an electronic assembly according to another embodiment of the invention.

The reference numbers illustrate:

10. 20, 30: an electronic component;

100. 300, 400: a docking station;

200: a portable electronic device;

110: a body;

121. 321, 421: a first carrier plate;

122. 322, 422: a second carrier plate;

123. 323: a third carrier plate;

131. 132, 332, 331: a shaft member;

141. 142, 341, 342, 441, 442: a hinge;

150: a magnetic region;

323 a: a first opening;

323 b: a second opening;

351: a first magnetic region;

352: a second magnetic region;

a1: a first region;

a2: a second region;

e1, F1: a first edge;

e2, F2: a second edge;

e3, F3: a third edge;

e4, F4: a fourth edge;

e5, F5: a fifth edge;

e6, F6: a sixth edge;

s1: a first surface;

s2: a second surface;

x1: a first shaft;

x2: a second shaft.

Detailed Description

FIG. 1 is a diagram of a docking station according to an embodiment of the present invention. Fig. 2 and fig. 3 are schematic diagrams of an electronic component in another state according to an embodiment of the invention, in which the electronic component 10 switches the docking station 100 between different states so that the portable electronic device 200 can be carried on the docking station 100 in different postures. Referring to fig. 1 to fig. 3, in the present embodiment, the electronic assembly 10 includes a portable electronic device 200 and a docking station 100, wherein the portable electronic device 200 is, for example, a tablet computer, and has a first surface S1 and a second surface S2 opposite to each other (position to), wherein the first surface S1 is a display surface of the tablet computer. The docking station 100 includes a body 110, a first carrier 121, a second carrier 122 and a third carrier 123, wherein the body 110 is divided into a first area a1 and a second area a2, the first carrier 121, the third carrier 123 and the second carrier 122 are sequentially and parallelly disposed in the first area a1 of the body 110, and an input interface of the docking station 100, such as a keyboard, is disposed in the second area a 2.

In the embodiment, the first carrier 121 is hinged to the body 110 along a first axis X1, the second carrier 122 is hinged to the body 110 along a second axis X2, the third carrier 123 is freely pivoted to the second carrier 122 along a first axis X1, and the third carrier 123 is freely pivoted to the first carrier 121 along a second axis X2, wherein the first axis X1 is parallel to but not overlapped with the second axis X2, and in the embodiment, the first axis X1 and the second axis X2 keep a fixed distance from each other and belong to two opposite sides of the carriers 121-123.

Further, a hinge (hinge)141 is connected between the first carrier 121 and the body 110, so that the first carrier 121 can rotate about the first axis X1 relative to the body 110. The hinge 142 is connected between the second carrier plate 122 and the body 110, so that the second carrier plate 122 can rotate about a second axis X2 relative to the body 110. Meanwhile, the shaft 131 freely pivots the first carrier 121 and the third carrier 123 together, and the shaft 132 freely pivots the second carrier 122 and the third carrier 123 together.

The free pivot joint means that the connected members can rotate freely around the shaft without torsion, and the effect is different from the hinge joint (torsion) effect generated by the hinge (141 or 142). Furthermore, the shafts 131 and 132 are parallel to the first and second shafts X1 and X2, and in the flat state shown in fig. 1, the shaft 131 can be regarded as substantially coinciding with the second shaft X2, and the shaft 132 can be regarded as substantially coinciding with the first shaft X1.

Accordingly, with the aforementioned components, the docking station 100 can be in different states through the first carrier 121, the second carrier 122 and the third carrier 123. As shown in the first state of fig. 2 and 3, the first carrier 121 and the third carrier 123 are vertically disposed on the body 110, so that the portable electronic device 200 can be supported by the second surface S2 thereof, and the first surface S1 faces the second area a2 of the body 110 and faces the same side of the body 110 as the input interface, so that the electronic component 10 can simulate the operation mode of a notebook computer.

In detail, the third carrier 123 of the present embodiment has the magnetic area 150 (which can be formed by disposing a magnet in the third carrier 123, but the means for forming the magnetic area 150 and the range of the magnetic area 150 are not limited thereby), and the second surface S2 of the portable electronic device 200 can have magnetic permeability due to the structural material characteristics thereof, so that when the portable electronic device 200 is in the flat state as shown in fig. 1 and the second surface S2 thereof is close to the third carrier 123, a magnetic attraction effect can be generated on the third carrier 123 to lift the third carrier 123 from the flat state of fig. 1. At this time, when the user turns the portable electronic device 200 toward the second area a2 of the body 110, that is, the portable electronic device 200 rotates about the first axis X1, since the second carrier 122 is freely pivoted to the third carrier 123 via the shaft 132, which means that the third carrier 123 rotates about the shaft 132, the second carrier 122 does not rotate along with the third carrier 123. In contrast, since the first carrier 121 is freely pivoted to the third carrier 123 by the shaft 131, the first carrier 121 can be lifted from the machine body 110 synchronously along with the third carrier 123, and the third carrier 123 and the first carrier 121 are erected on the machine body 110, and the second carrier 122 is laid on the machine body 110.

FIG. 4 is a schematic diagram illustrating the electronic device of FIG. 2 in another state. Similarly, in the tiled state shown in fig. 1, the portable electronic device 200 is close to the third carrier board 123, but the second axis X2 is used, that is, the third carrier board 123 is turned over by the shaft 131, so as to generate the effect different from the effect described above (fig. 2 and 3), and the second carrier board 122 is erected on the machine body 110 along with the third carrier board 123, but the first carrier board 121 is still tiled on the machine body 110 in the second state. At this time, the portable electronic device 200 is still supported by the second surface S2 on the second carrier 122, the third carrier 123 and the body 110, such that the first surface S1 faces away from the input interface, thereby simulating an ornamental mode of using the portable electronic device 200.

Referring to fig. 1, for the docking station 100 of the present embodiment, the first carrier 121, the second carrier 122 and the third carrier 123 are disposed in the first area a1 of the housing 110 without overlapping each other, wherein the first carrier 121 has a first edge E1 and a second edge E2 opposite to each other, the first edge E1 is hinged to the housing 110 through a hinge 141, the second carrier 122 has a third edge E3 and a fourth edge E4 opposite to each other, the third edge E3 is hinged to the housing 110 through a hinge 142, the third carrier 123 has a fifth edge E5 and a sixth edge E6 opposite to each other, the fifth edge E5 is coaxially pivoted to the fourth edge E4, and the sixth edge E6 is coaxially pivoted to the second edge E2. It should be noted that in the tiled state shown in fig. 1, the first edge E1, the fifth edge E5 and the fourth edge E4 are substantially located on the same straight line and are consistent with the first axis X1, and the second edge E2, the third edge E3 and the sixth edge E6 are substantially located on the same straight line and are consistent with the second axis X2.

Fig. 5 and fig. 6 are schematic views respectively illustrating an electronic assembly according to another embodiment of the invention from different viewing angles. Referring to fig. 5 and fig. 6, in the present embodiment, the electronic component 20 also includes the portable electronic device 200 and the docking station 300, but different from the above, the first area a1 of the body 110 of the docking station 300 is occupied by the first carrier 321 and the second carrier 322, and the third carrier 323 overlaps the first carrier 321 and the second carrier 322, that is, the third carrier 323 overlaps the first carrier 321 and the second carrier 322 by different areas thereof, and the first carrier 321 and the second carrier 322 do not overlap each other.

Furthermore, the third carrier 323 has a first opening 323a and a second opening 323b, and the first carrier 321 has a first magnetic area 351, and the second carrier 322 has a second magnetic area 352, wherein the first magnetic area 351 and the first opening 323a correspond to each other, and the second magnetic area 352 and the second opening 323b correspond to each other.

In addition, similar to the previous embodiment, the first carrier 321 is hinged to the first area a1 of the housing 110 by a hinge 341, the second carrier 322 is hinged to the first area a1 of the housing by a hinge 342, the first carrier 321 and the third carrier 323 are both freely pivoted with each other by a shaft 331, the second carrier 322 and the third carrier 323 are both freely pivoted with each other by a shaft 332, the configuration of the above components and their interrelations with the first axis X1 and the second axis X2 are the same as those of the previous embodiment, and thus, they are not repeated herein.

In the present embodiment, only the first state is shown as an example, in which the first opening 323a is located in an overlapping range of the third carrier plate 323 and the first carrier plate 321, and the first magnetic section 351 correspondingly magnetically attracts the second surface S2 of the portable electronic device 200 through the first opening 323 a. That is, when the docking station 300 of the embodiment is in the tiled state shown in fig. 1, as described above, when the user approaches the third carrier 323 with the second surface S2 of the portable electronic device 200, the first magnetic section 351 of the first carrier 321 is exposed through the first opening 323a, so that the user can magnetically attach to the second surface S2 of the portable electronic device 200, and the third carrier 323 can be clamped between the first carrier 321 and the second surface of the portable electronic device, so that the three components can be moved together to flip to the first state shown in fig. 5 and 6.

Similarly, in the second state, the second opening 323b is located in the overlapping range of the third carrier plate 323 and the second carrier plate 322, and the second magnetic section 352 correspondingly magnetically attracts the second surface S2 of the portable electronic device 200 through the second opening 323b, which is not shown, but is clear from the configuration and operation of the aforementioned components. On the other hand, in the embodiment, the first carrier 321 has a first edge F1 and a second edge F2 opposite to each other, the second carrier 322 has a third edge F3 and a fourth edge F4 opposite to each other, and the third carrier 323 has a fifth edge F5 and a sixth edge F6 opposite to each other, wherein in the tiled state shown in fig. 1, the first edge F1 and the fourth edge F4 are in a straight line, the fifth edge F5 is located above the straight line, the second edge F2 and the third edge F3 are in another straight line, and the sixth edge F6 is located above the another straight line.

Fig. 7 shows a schematic view of an electronic assembly according to another embodiment of the invention. The electronic assembly 30 of the present embodiment also includes the portable electronic device 200 and the docking station 400, which is different from the above embodiments in that only the first carrier 421 and the second carrier 422 are disposed on the body 110 of the docking station 400, wherein the first carrier 421 is hinged to the first area a1 of the body 110 by the hinge 441, the second carrier 422 is hinged to the first area a1 of the body 110 by the hinge 442, and the first carrier 421 and the second carrier 422 substantially occupy the first area a1 in a tiled state. In addition, similar to the previous embodiment, the first carrier 421 has the first magnetic section 351, the second carrier 422 has the second magnetic section 352, and the relationship between the aforementioned components and the first axis X1 and the second axis X2 is the same as that of the previous embodiment, so that the description thereof is omitted.

Accordingly, the portable electronic device 200 can lift the first carrier 421 or the second carrier 422 from the body due to the magnetic attraction effect of the first carrier 421 or the second carrier 422, so as to support the portable electronic device against the body 110 and the first carrier 421, or against the body 110 and the second carrier 422.

In summary, in the above embodiments of the invention, the docking station has the first carrier, the second carrier and the third carrier disposed on the body, and different sides (shafts) of the first carrier and the second carrier are respectively hinged to the body of the docking station, and the third carrier is freely pivoted between another different sides (shafts) of the first carrier and the second carrier, and it should be noted that the different sides (shafts) are respectively coaxial with the hinged portion of the first carrier and the body and the hinged portion of the second carrier and the body.

Therefore, when the first carrier plate and the second carrier plate respectively rotate relative to the body, the third carrier plate can be respectively driven to rotate, so that the third carrier plate can be overturned relative to the body in different axial directions, and a double-side overturning effect is achieved, and accordingly the portable electronic device can be vertically arranged on the expansion base in different states, and the effect of different operation modes is achieved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (15)

1. An electronic assembly, comprising:

the portable electronic device is provided with a first surface and a second surface which are opposite to each other, wherein the first surface is a display surface of the portable electronic device;

a docking station, comprising:

a body; and

the first carrier plate, the third carrier plate and the second carrier plate are arranged on the machine body in sequence and in parallel, the first carrier plate is hinged with the machine body along a first shaft, the second carrier plate is hinged to the machine body along a second shaft, the third carrier plate is freely pivoted to the second carrier plate along the first shaft, and the third carrier plate is freely pivoted to the first carrier plate along the second shaft, wherein the first shaft is parallel to but not coincident with the second shaft, so that the first carrier plate and the third carrier plate are vertically arranged on the machine body in a first state, the second surface of the portable electronic device is supported on the first carrier and the third carrier, and when the second state is reached, the third carrier plate and the second carrier plate are vertically arranged on the machine body, the second surface of the portable electronic device is supported on the third carrier and the second carrier.

2. The electronic assembly of claim 1, wherein in the first state, the second carrier is tiled on the body, and in the second state, the first carrier is tiled on the body.

3. The electronic assembly of claim 1, wherein the housing has an input interface and a first area and a second area different from each other, wherein the first carrier, the second carrier and the third carrier are located in the first area, the input interface is located in the second area, the first surface faces the first area when the docking station is in the first state, and the first surface faces away from the first area when the docking station is in the second state.

4. The electronic assembly of claim 1, wherein at least a portion of the third carrier has magnetism or magnetic permeability, and the second surface of the portable electronic device has magnetism or magnetic permeability, so that the portable electronic device drives the third carrier to move relative to the body by magnetic attraction.

5. The electronic assembly of claim 1, wherein the first carrier, the second carrier, and the third carrier are disposed on the housing without overlapping each other.

6. The electronic assembly of claim 1, wherein different blocks of the third carrier overlap with the first carrier and the second carrier, respectively, and the first carrier and the second carrier do not overlap with each other.

7. The electronic assembly of claim 6, wherein the third carrier has a first opening and a second opening, and the first carrier has a first magnetic area, the second carrier has a second magnetic area, in the first state, the first opening is located in an overlapping range of the third carrier and the first carrier, and the first magnetic area correspondingly magnetically attracts the second surface of the portable electronic device through the first opening, in the second state, the second opening is located in an overlapping range of the third carrier and the second carrier, and the second magnetic area correspondingly magnetically attracts the second surface of the portable electronic device through the second opening.

8. A docking station for carrying a portable electronic device, the docking station comprising:

a body;

the first carrier plate is provided with a first edge and a second edge which are opposite to each other, and the first edge is hinged to the machine body so that the first carrier plate can rotate relative to the machine body and can be opened and closed;

the second carrier plate is provided with a third edge and a fourth edge which are opposite to each other, and the third edge is hinged to the machine body so that the second carrier plate can rotate relative to the machine body and can be opened and closed; and

a third carrier having a fifth edge and a sixth edge opposite to each other, the fifth edge being freely pivoted to the fourth edge, the sixth edge being pivoted to the second edge, wherein when the first carrier is unfolded with respect to the housing, the third carrier is unfolded with respect to the housing along with the first carrier and forms a first state, so that the portable electronic device is supported on the first carrier and the third carrier to stand on the docking station, and when the second carrier is unfolded with respect to the housing, the third carrier is unfolded with respect to the housing along with the second carrier and forms a second state, so that the portable electronic device is supported on the second carrier and the third carrier to stand on the docking station.

9. The docking station of claim 8, wherein the fourth edge and the fifth edge are coaxially pivotally connected, and the second edge and the sixth edge are coaxially pivotally connected.

10. The docking station of claim 8, wherein in the first state the second carrier is laid on the body, and in the second state the first carrier is laid on the body.

11. The docking station of claim 8, wherein at least a portion of the third carrier is magnetic or magnetically permeable, and the portable electronic device has magnetic or magnetically permeable properties, so that the portable electronic device drives the third carrier to move relative to the housing by magnetic attraction.

12. The docking station of claim 8, wherein the first carrier, the second carrier and the third carrier are disposed on the housing without overlapping each other.

13. The docking station of claim 8, wherein different sections of the third carrier overlap with the first carrier and the second carrier, respectively, and the first carrier and the second carrier do not overlap with each other.

14. The docking station as recited in claim 13, wherein the third carrier has a first opening and a second opening, and the first carrier has a first magnetic area, the second carrier has a second magnetic area, in the first state, the first opening is located in an overlapping range of the third carrier and the first carrier, and the first magnetic area correspondingly magnetically attracts the second surface of the portable electronic device through the first opening, in the second state, the second opening is located in an overlapping range of the third carrier and the second carrier, and the second magnetic area correspondingly magnetically attracts the second surface of the portable electronic device through the second opening.

15. The docking station as recited in claim 8, wherein the body has an input interface and a first area and a second area different from each other, wherein the first carrier, the second carrier and the third carrier are located in the first area, the input interface is located in the second area, when the portable electronic device is carried on the first carrier, the third carrier or the second carrier and the third carrier, the portable electronic device is located between the first area and the second area, and different surfaces of the portable electronic device face the first area and the second area, respectively.

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