TWM541596U - Portable electronic device - Google Patents

Abstract

A portable electronic device including a body, a supporting frame, at least one first magnetic assembly, and at least one second magnetic assembly is provided. The supporting frame is pivoted to the body so as to rotate relative to the body to be opened or closed. The first magnetic assembly has a first magnetic dipole movably disposed in the body and the second magnetic assembly has a second magnetic dipole disposed in the supporting frame, wherein the first and the second magnetic dipoles are corresponding to each other when the supporting frame is closed to the body, and a first status and a second status are generated respectively depending on positions of the first magnetic dipole in the body. Two identical magnetic poles of the first and the second magnetic dipoles are attracted to each other in the first status, and two opposite magnetic poles of the first and the second magnetic dipoles are repelled in the second status.

Description

Portable electronic device

The novel creation is related to a portable electronic device.

With the development of the touch panel industry, tablet computers with touch panels have gradually been applied to people's daily lives. At the same time, the tablet computer is connected to the external keyboard, so as to provide the user with a tablet operating mode in addition to the operation on the touch screen, and the user can operate the mode like a traditional notebook computer, thereby improving the tablet computer. Applicability.

In the existing tablet PCs, the brackets can be placed in the input mode of the aforementioned notebook computer by the pivot mechanism, but the existing brackets still need to be manually opened or closed by the user, so there is still considerable inconvenience in use. .

The present invention provides a portable electronic device that is divided into a body and a bracket by a magnetic component including a magnetic dipole to improve the driving efficiency when the bracket is opened to the body, thereby facilitating convenience in use.

The portable electronic device of the present invention comprises a body, a bracket, at least one first magnetic component and at least one second magnetic component. The bracket is pivotally connected to the body to be opened relative to the rotation of the body. The first magnetic component has a first magnetic dipole that is movably disposed within the body. The second magnetic component has a second magnetic dipole disposed on the bracket. When the bracket is closed to the body, the first magnetic dipole and the second magnetic dipole correspond to each other, and the first corresponding state and the second corresponding state are generated as the first magnetic dipole moves within the body. In the first corresponding state, the opposite magnetic poles of the first magnetic dipole and the second magnetic dipole are attracted to each other to cause the bracket to be closed to the body due to the attraction. In the second corresponding state, the isotropic magnetic poles of the first magnetic dipole and the second magnetic dipole repel each other and repel each other, and the stent is unfolded relative to the body due to the repulsive.

Based on the above, the first magnetic component and the second magnetic component formed by the first magnetic dipole and the second magnetic dipole are respectively disposed on the body and the bracket, wherein the first magnetic dipole is movably disposed on the body, and The opening of the bracket relative to the body can be controlled by the corresponding states of the first and second magnetic dipoles. In the first corresponding state, the first magnetic dipole is moved to have its magnetic pole correspond to the different magnetic poles of the second magnetic dipole to achieve the effect of attracting, and the bracket can be closed to the body. In the second corresponding state, the first magnetic dipole is moved to have its magnetic pole correspond to the same magnetic pole of the second magnetic dipole to achieve a repulsive effect. In this way, the user can effectively improve the use efficiency of the portable electronic device without having to pull out or close the bracket.

The above described features and advantages of the present invention will become more apparent and understood from the following description.

1 is a schematic diagram of a portable electronic device according to an embodiment of the present invention. 2 and 3 are schematic views of the portable electronic device in different states, respectively. Referring to FIG. 1 to FIG. 3 , in the embodiment, the portable electronic device 100 is, for example, a tablet computer, and includes a body 110 , a bracket 120 , at least one first magnetic component 130 , and at least one second magnetic component 140 . Wherein the first magnetic component 130 has a first magnetic dipole (which is composed of the first magnetic unit 132 and the second magnetic unit 134, and the two are magnetically opposite), and the second magnetic component 140 has a second magnetic dipole ( It is composed of the third magnetic unit 142 and the fourth magnetic unit 141, and the two are magnetically opposite). At the same time, the first magnetic dipoles (the first magnetic unit 132 and the second magnetic unit 134) are movably disposed within the body 110. Accordingly, the effect of the relative motion between the driving bracket 120 and the body 110 can be achieved by changing the corresponding state of the magnetic pole.

Further, the body 110 has a display surface S1 and a back surface S2 opposite to each other, wherein the bracket 120 is pivotally connected to the back surface S2 of the body 110 for supporting the body 110 when rotated and deployed, as shown in FIG. The portable electronic device 100 can stand on the platform 200 by the bracket 110. At the same time, an input interface 150 is disposed on the side of the display surface S1, which can be used for the purpose of operating the portable electronic device 100 by means of a wired connection or a wireless connection.

Furthermore, the two sets of first magnetic components 130 and the two sets of second magnetic components 140 are illustrated here, that is, the first magnetic component 130 on the left side and the first magnetic component 130 on the right side in FIG. 1 are opposite to the body 110. The center line C1 is symmetrically arranged. Similarly, the second magnetic component 140 on the left side of the figure and the second magnetic component 140 on the right side are also symmetrically arranged with the center line C1 when the bracket 120 is relatively closed to the body 110, so that the bracket 120 is closed. The first magnetic component 130 and the second magnetic component 140 can be adjacent to each other and corresponding to each other, thereby facilitating subsequent actions. Only one of the first magnetic component 130 and one of the second magnetic components 140 will be described below.

Please refer to FIG. 2 and FIG. 3 , which illustrate different states in which the bracket 120 is closed to the body 110 and deployed to the body 110 . In detail, in the embodiment, the first magnetic dipoles (the first magnetic unit 132 and the second magnetic unit 134) of the first magnetic component 130 are movably disposed in the body 110 and are located on the side of the body 110. Edge E3. The bracket 120 has a first end E1 and a second end E2 opposite to each other, wherein the first end E1 is pivotally connected to the body 110, and the second magnetic dipole (the third magnetic unit 142 and the fourth magnetic unit 141) is disposed on the bracket. The second end E2 moves away from or approaches the body 110 as the bracket 110 rotates relative to the body 110, wherein the first magnetic unit 132 and the third magnetic unit 142 are magnetically identical to each other, and the second magnetic unit 134 and the fourth magnetic unit 141 Magnetically identical to each other. When the bracket 110 is closed to the body 110, the second magnetic dipole (the third magnetic unit 142 and the fourth magnetic unit 141) at the second end E2 can correspond to the first magnetic dipole located at the side edge E3 of the body 110. (the first magnetic unit 132 and the second magnetic unit 134), and generate a first corresponding state and a second with the position of the first magnetic dipole (the first magnetic unit 132 and the second magnetic unit 134) within the body 110 Corresponding status.

4 and 5 are partial schematic views of the portable electronic device in different states, respectively. Please refer to FIG. 4 and FIG. 5 and FIG. 2 and FIG. 3, wherein the state shown in FIG. 4 is the same as the state shown in FIG. 2, that is, the aforementioned first corresponding state. In this embodiment, the bracket 120 is pivotally connected to the axial direction of the body 110 (the axial direction is perpendicular to the paper surface as shown in FIG. 2 and FIG. 3 ) orthogonal to the first magnetic dipole (the first magnetic unit 132 and the first The two magnetic units 134) are axially moved within the body 110 (as shown in FIGS. 2 and 3, the axial direction thereof is horizontally parallel to the paper surface).

Further, the first magnetic component 130 further includes a pushing member 136 and an elastic member 138, wherein the pushing member 136 is movably disposed on the body 110 to protrude or contract into the body 110, the first magnetic dipole (the first magnetic unit 132) The second magnetic unit 134) and the pusher 136 are interlocked with each other to move the first magnetic unit 132 and the second magnetic unit 134 by the pusher 136 to move within the body 110. The elastic member 138 is disposed in the body 110 and sleeved on the guiding shaft 112 , and the elastic member 138 abuts between the body 110 and the second magnetic unit 134 . The pushing member 136 is adapted to be contracted to the body 110 by force, so that the first magnetic dipole (the first magnetic unit 132 and the second magnetic unit 134) moves and deforms the elastic member 138, as shown in FIG. 5, and the elastic member The elastic restoring force of 138 is used to drive the first magnetic dipole (the first magnetic unit 132 and the second magnetic unit 134) to push the pusher 136 out of the body 110, as shown in FIG.

Based on the above, when the user wants to switch the portable electronic device 100 from the operating state of the tablet to the operating state of the notebook, the handheld body 110 is placed with the side edge E3 facing downward to press the side edge E3. The platform 200 (shown in FIG. 1) further presses the pusher 136 to drive the first magnetic dipole (the first magnetic unit 132 and the second magnetic unit 134) to move and change its position within the body 110, ie 4 is switched to the state of FIG. 5, and the first magnetic unit 132 of the first magnetic dipole is corresponding to the third magnetic unit 142 of the second magnetic dipole, thereby causing a state in which the same polarity is repelled, that is, the aforementioned second Corresponding to the state, the bracket 120 can be moved away from the body 110 by the stroke T1 by the magnetic repulsion. Conversely, when the holder 120 is closed to the body 110, the first magnetic unit 132 and the fourth magnetic unit 141 which are magnetically different from each other, and the second magnetic unit 134 and the third magnetic unit 142 can be used by The magnetic attraction force causes the bracket 120 to adhere to the back surface S2 of the body 110, that is, the aforementioned first corresponding state.

In addition, referring to FIG. 2 and FIG. 3, the portable electronic device 100 of the present embodiment further includes a torsion spring 160 disposed at a pivotal joint of the bracket 120 and the body 110 (at the first end E1 shown), and a torsion spring. The 160 constant drive bracket 120 is unfolded relative to the body 110. That is, when the bracket 110 is moved away from the body 110 by the stroke T1 due to the magnetic repulsion force, the torsion spring 160 can exert its elastic force to drive the bracket 120 and then travel away from the body by the stroke T2. The back of the 110 is S2. Accordingly, the user can achieve the effect of allowing the stent 120 to be deployed on the body 110 by pressing the side edge E1 of the body 110. The completed bracket 120 can be deployed at other angles relative to the body 110 by a pivotal structure (not shown), and will not be described herein, and the pusher 136 and the first magnetic dipole (the After the second end E2 of the bracket 120 is moved away from the body 110, the magnetic unit 132 and the second magnetic unit 134 are reset by the elastic restoring force of the elastic member 138, and the state as shown in FIG. 4 is restored.

In summary, in the above embodiment of the present invention, the first magnetic component and the second magnetic component formed by the first magnetic dipole and the second magnetic dipole are respectively disposed on the body and the bracket, wherein the first magnetic couple The pole is movably disposed on the body, and the opening of the bracket relative to the body can be controlled by the corresponding state of the first and second magnetic dipoles. In the first corresponding state, the first magnetic dipole is moved to have its magnetic pole correspond to the different magnetic poles of the second magnetic dipole to achieve the effect of attracting, and the bracket can be closed to the body. In the second corresponding state, the first magnetic dipole is moved to have its magnetic pole correspond to the same magnetic pole of the second magnetic dipole to achieve a repulsive effect.

In this way, the user can effectively improve the use efficiency of the portable electronic device without having to pull out or close the bracket.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the novel creation, and any person skilled in the art can make some changes without departing from the spirit and scope of the novel creation. Retouching, the scope of protection of this new creation is subject to the definition of the scope of the patent application attached.

100‧‧‧Portable electronic devices
110‧‧‧ body
112‧‧‧Guide axis
120‧‧‧ bracket
130‧‧‧First magnetic component
132‧‧‧First magnetic unit
134‧‧‧Second magnetic unit
136‧‧‧Pushing pieces
138‧‧‧Flexible parts
140‧‧‧Second magnetic component
141‧‧‧fourth magnetic unit
142‧‧‧ Third magnetic unit
150‧‧‧Input interface
200‧‧‧ platform
C1‧‧‧ center line
E1‧‧‧ first end
E2‧‧‧ second end
E3‧‧‧ side edge
S1‧‧‧ display surface
S2‧‧‧Back
T1, T2‧‧‧ itinerary

1 is a schematic diagram of a portable electronic device according to an embodiment of the present invention. 2 and 3 are schematic views of the portable electronic device in different states, respectively. 4 and 5 are partial schematic views of the portable electronic device in different states, respectively.

100‧‧‧Portable electronic devices

110‧‧‧ body

120‧‧‧ bracket

130‧‧‧First magnetic component

140‧‧‧Second magnetic component

150‧‧‧Input interface

200‧‧‧ platform

C1‧‧‧ center line

E1‧‧‧ first end

E2‧‧‧ second end

E3‧‧‧ side edge

S1‧‧‧ display surface

S2‧‧‧Back

Claims (7)

A portable electronic device includes: a body; a bracket pivotally connected to the body to be rotated relative to the body; at least one first magnetic component having a first magnetic dipole movably disposed on And the at least one second magnetic component has a second magnetic dipole disposed on the bracket, wherein the first magnetic dipole and the second magnetic dipole are in contact with each other when the bracket is closed to the body Correspondingly, a first corresponding state and a second corresponding state are generated as the first magnetic dipole moves within the body, and in the first corresponding state, the first magnetic dipole and the second magnetic couple The poles of opposite poles are attracted to each other to cause the bracket to be closed to the body due to the attraction. In the second corresponding state, the first magnetic pole and the second magnetic dipole have the same magnetic pole. Corresponding to each other and repelling, and the stent is unfolded relative to the body due to the repulsive. The portable electronic device of claim 1, wherein the first magnetic component further comprises: a pushing member movably disposed on the body to protrude or contract into the body, the first magnetic couple The pole and the pushing member are interlocked with each other. The portable electronic device of claim 2, wherein the first magnetic component further comprises: an elastic member disposed in the body and abutting between the body and the first magnetic dipole, The pushing member is forced to be contracted to the body such that the first magnetic dipole deforms the elastic member, and the elastic restoring force of the elastic member is used to drive the first magnetic dipole to push the pushing member out Body. The portable electronic device of claim 1, wherein the bracket is pivotally connected to an axial direction of the body orthogonal to an axial direction in which the first magnetic dipole moves within the body. The portable electronic device of claim 1, wherein the bracket has a first end and a second end, the first end is pivotally connected to the body, and the second magnetic dipole is disposed on the The second end, wherein the first magnetic dipole is located at a side edge of the body opposite to the second magnetic dipole, the body is adapted to press the side edge against a platform to drive the first magnetic couple The pole transitions to the second state to deploy the bracket relative to the body to be adapted to cause the body to stand on the platform by the side edge and the second end. The portable electronic device of claim 1, wherein the at least one first magnetic component comprises a pair of first magnetic components, symmetrically arranged with respect to a center line of the body, and The at least one second magnetic component includes a pair of second magnetic components, the pair of second magnetic components being symmetrically disposed with respect to the centerline of the body when the bracket is closed to the body. The portable electronic device of claim 1, further comprising: a torsion spring disposed at a pivotal connection between the bracket and the body, the torsion spring constantly driving the bracket to be unfolded relative to the body.