CN101901626B - Portable electronic device - Google Patents

Abstract

The invention relates to a portable electronic device which comprises a shell, a rotating element, a pin joint unit and a magnet set. The shell comprises a carrying seat and an electronic element, the carrying seat is slidably arranged in the shell, and the electronic element is arranged on the carrying seat. The pivoting unit is pivoted with the shell and the rotating element. The magnet set comprises a first magnet, a second magnet and a third magnet. The first magnet and the second magnet are arranged on the rotating element, and the magnetism of the first magnet is different from that of the second magnet. The third magnet is arranged on the shell and the magnetism of the third magnet is the same as that of one of the first magnet and the second magnet. When the rotating element rotates relative to the shell, the magnet group generates a magnetic attraction force or a magnetic repulsion force, so that the electronic element is led into or out of the shell.

Description

portable electronic device

technical field

The present invention relates to a portable electronic device, and in particular to a portable electronic device which utilizes the magnetic attraction force and the magnetic repulsion force of a magnet group to lead in or lead out electronic components.

Background technique

The functional components of the portable electronic device, such as the memory in the flash drive, often need to be electrically connected with other electronic devices to share or transmit data with each other. Therefore, most portable electronic devices are provided with exposed electrical connection ports, and a protective cover can be used to cover the exposed electrical connection ports. When the portable electronic device is not in use, the protective cover can protect An electrical connection port of a portable electronic device.

However, the protective cover and the portable electronic device are separated from each other. When the portable electronic device is to be electrically connected with other electronic devices, the protective cover needs to be removed, so it is easy to lose. In addition, the housing of the protective cover and the housing of the portable electronic device are respectively provided with corresponding locking points for locking each other when the protective cover covers the electrical connection port. However, the design of these locking points is mostly very simple, resulting in that the protective cover will be detached or lost when it is slightly impacted.

Contents of the invention

The purpose of the present invention is to provide a portable electronic device, which can store electronic components, such as electrical connection ports, into the housing for protection through magnetic force and simple rotation without using additional protective components to cover the electrical connection port.

According to an aspect of the present invention, a portable electronic device is provided. The portable electronic device includes a casing, a rotating element, a pivot unit and a magnet group. The casing has an opening, and the casing includes a carrier and an electronic component. The carrier is slidably arranged in the casing, and the electronic components are arranged on the carrier. The pivot unit is pivotally connected to the housing and the rotating element. The magnet group includes a first magnet, a second magnet and a third magnet. The first magnet and a second magnet are arranged on one of the carrier and the rotating element, and the magnetic properties of the first magnet and the second magnet are different. The third magnet is arranged on the other of the casing and the rotating element, and the magnetism of the third magnet is the same as that of one of the first magnet and the second magnet. When the rotating element rotates relative to the housing, the magnet group generates a magnetic attraction force or a magnetic repulsion force, so that the electronic components are introduced into or exported from the housing.

According to another aspect of the present invention, a portable electronic device is provided. The portable electronic device includes a casing, a rotating element, a pivot unit and a magnet group. The casing has a second side wall and an opening, and the casing includes a carrier, which is slidably arranged in the casing, and the electronic components are arranged on the carrier. The pivot unit is pivotally connected to the housing and the rotating element. The magnet group includes a first magnet, a second magnet and a third magnet. The first magnet and the second magnet are arranged on one of the carrier and the second side wall, and the magnetic properties of the first magnet and the second magnet are different. The third magnet is disposed on the other side of the carrier and the second side wall, and the magnetism of the third magnet is the same as that of one of the first magnet and the second magnet. Wherein, when the rotating element rotates relative to the housing, the magnet group generates a magnetic attraction force or a magnetic repulsion force, so that the electronic components are introduced into or exported from the housing.

Description of drawings

In order to make the above content of the present invention more obvious and understandable, the following preferred embodiments are described in detail in conjunction with the accompanying drawings, wherein:

FIG. 1 is an internal perspective view of a portable electronic device according to a first embodiment of the present invention.

FIG. 2 is an internal perspective view of the flash drive after the rotating element of FIG. 1 is rotated by 180 degrees.

FIG. 3 is an internal perspective view of the flash drive viewed along the direction V1 in FIG. 2 .

FIG. 4A is an internal perspective view of the flash drive after the rotating element of FIG. 2 is rotated by 180 degrees.

FIG. 4B is an internal perspective view of the flash drive viewed along the direction V2 in FIG. 4A.

FIG. 5 is a perspective view of the interior of the portable electronic device shown in FIG. 1 with shock absorbers.

FIG. 6 is an internal perspective view of the flash drive according to the second embodiment of the present invention.

FIG. 7 is an internal perspective view of the portable electronic device shown in FIG. 6 with shock absorbers.

FIG. 8 is an internal perspective view of the flash drive according to the third embodiment of the present invention.

FIG. 9 is an internal perspective view of the flash drive after the rotating element of FIG. 8 is rotated by 180 degrees.

FIG. 10A is an internal perspective view of the flash drive according to the fourth embodiment of the present invention.

FIG. 10B is a schematic diagram of the electronic components in FIG. 10A being led out of the housing.

FIG. 11 is a schematic diagram showing that the flash drive in FIG. 1 further includes a fourth magnet.

Detailed ways

first embodiment

Please refer to FIG. 1 , which is an internal perspective view of a portable electronic device according to a first embodiment of the present invention. Here, the portable electronic device is illustrated by taking a commonly used electronic storage device—a flash drive (memory disk) as an example. As shown in FIG. 1 , the flash drive 100 includes a casing 102 , a rotating part 104 (rotating part), a pivot unit 130 , a magnet set 174 and a connecting rod 108 . The housing 102 includes a base 106 and an electronic component 124 . Wherein, the magnet set 174 includes a first magnet 174(1), a second magnet 174(2) and a third magnet 174(3). The rotating element 104 is connected to the casing 102 through the pivot unit 130 , so that the casing 102 and the rotating element 104 are rotatably connected to each other without being separated. The connecting rod 108 connects the pivot unit 130 and the carrier 106 .

The electronic component 124 is located on the carrier 106 and is adapted to move out of the housing 102 from the opening 122 of the first side wall 118 of the housing 102 . In detail, in this embodiment, the electronic components 124 of the flash drive 100 can be slid inside the storage case 102 for protection and can also be exported outside the case 102 for electrical operation. The electronic component 124 is, for example, an electrical connection port having a Universal Serial Bus (USB) interface.

Please continue to refer to FIG. 1, the electronic component 124 is located on the carrier 106, and the carrier 106 is slidably disposed in the housing 102 and its sliding direction S is substantially perpendicular to the second side wall 116 of the housing 102, wherein the second The two sidewalls 116 are opposite to the first sidewall 118 .

As shown in FIG. 1 , the pivot unit 130 includes a pivot 136 and a first connecting portion 138 and a second connecting portion 140 opposite to each other. The pivot 136 passes through the through hole 120 on the second side wall 116 , and the first end 142 and the second end 144 of the pivot 136 are fixedly connected to the first connecting portion 138 and the second connecting portion 140 respectively. The first connecting portion 138 is located in the casing 102 and abuts against the second side wall 116 , while the second connecting portion 140 is located in the rotating element 104 and fixedly connected with the rotating element 104 . In this way, the casing 102 and the rotating element 104 will not be separated from each other, and when the rotating element 104 is rotated, the pivot unit 130 and the connecting rod 108 fixed thereto will also be driven along with it.

The first end 126 of the connecting rod 108 is fixedly connected to the first connecting portion 138 . Therefore, when the rotating element 104 is rotated, the pivot unit 130 fixedly connected to the rotating element 104 can drive the connecting rod 108 to rotate. It is worth mentioning that the second end 128 of the connecting rod 108 is movably connected to the carrier 106 so that when the connecting rod 108 rotates, the carrier 106 will not rotate accordingly. Therefore, when the rotating element 104 is rotated, the carrier 106 and the third magnet 174 ( 3 ) on the carrier 106 will not be driven to rotate. In this way, the first magnet 174(1) can be selectively made to correspond to the third magnet 174(3), or the second magnet 174(2) can be made to correspond to the third magnet 174(3) through the rotation of the rotating element 104. ).

In addition, the first magnet 174(1) and the second magnet 174(2) are both disposed inside the rotating element 104, and the first magnet 174(1) and the second magnet 174(2) are disposed adjacent to the housing 102 of the rotating element 104. An inner surface 176 of . The third magnet 174 ( 3 ) is disposed on a surface 178 of the carrier 106 facing the rotating element 104 . In this embodiment, the polarity of the first magnet 174(1) is, for example, the same as that of the third magnet 174(3), and opposite to that of the second magnet 174(2). In this embodiment, the polarities of the first magnet 174(1) and the third magnet 174(3) are, for example, N poles, and the polarities of the second magnet 174(2) are, for example, S poles. Therefore, when the rotating element 104 and the housing 102 rotate relative to the N pole of the first magnet 174 (1) and the N pole of the third magnet 174 (3), the third magnet 174 (3) and the first magnet 174 (1) generates a magnetic repulsion force F2 (not shown in FIG. 1 ), through which the magnetic repulsion force F2 can drive the carrier 106 to slide in a direction away from the second side wall 116, and then make the electronic component 124 pass through the opening 122 And it is exported to the casing 102 . When the rotating element 104 rotates relative to the housing 102 until the second magnet 174(2) corresponds to the third magnet 174(3), a magnetic field is generated between the third magnet 174(3) and the second magnet 174(2). The suction force F1 , whereby the magnetic suction force F1 can drive the carrier 106 to slide towards the direction close to the second side wall 116 , so as to guide the electronic component 124 into the housing 102 (as shown in FIG. 1 ).

In this FIG. 1, the first magnet 174(1), the second magnet 174(2) and the third magnet 174(3) are all substantially at the same distance D from the rotation axis L of the rotating element 104, and the first magnet The central angle between 174(1) and the second magnet 174(2) relative to the rotation axis L is substantially 180 degrees. In this way, when the rotating element 104 and the housing 102 rotate 180 degrees relative to each other, the electronic component 124 is driven by the magnetic attraction force F1 or the magnetic repulsion force F2 to be automatically introduced into the housing 102 or exported out of the housing 102 .

Please refer to FIG. 2 , which is an internal perspective view of the flash drive when the rotating element in FIG. 1 is rotated 180 degrees. When the rotating element 104 is rotated by 180 degrees, the first magnet 174(1) is also rotated to a position corresponding to the third magnet 174(3). Since the N pole of the first magnet 174(1) at this time corresponds to the N pole of the third magnet 174(3), a magnetic repulsion force is generated between the first magnet 174(1) and the third magnet 174(3). F2. The magnetic repulsion force F2 pushes the carrier 106 and the electronic component 124 away from the second side wall 116 , so that the electronic component 124 is led out of the casing 102 . Furthermore, when the user wants to electrically connect the electronic component 124 to an external device (not shown), as long as the rotating component 104 is rotated from the position shown in FIG. 1 to the position shown in FIG. 2 , then The electronic component 124 is led out of the casing 102 by the magnetic repulsion force F2, so that the electronic component 124 can be electrically connected to an external device.

A sliding part may be provided in the flash drive 100 to guide the sliding of the electronic component 124 so that the electronic component 124 can be led out of the housing 102 through the opening 122 more precisely according to a fixed sliding direction. In addition, the flash drive 100 may also be provided with a limiting portion 170 , which is, for example, a structure protruding from the casing 102 . Furthermore, when the carrier 106 is actuated by the above-mentioned magnetic attraction force, it will be restricted by the limiting portion 170 , thereby regulating the length of the electronic component 124 protruding from the housing 102 .

Please refer to FIG. 3 again, which shows an internal perspective view of the flash drive viewed along the direction V1 in FIG. 2 . The casing 102 also includes a first stop portion 132, and the connecting rod 108 also includes a second stop portion 134, when the N pole of the first magnet 174(1) is opposite to the N pole of the third magnet 174(3). , the carrier 106 will be pushed out along the direction S1 by the magnetic repulsion force F2, and the second stopper 134 on the connecting rod 108 will pass through the first stopper 132 on the housing 102 along the direction S1, and the second stopper The position of 134 after passing through the first stop portion 132 is shown in FIG. 3 . At this time, the first stop portion 132 has a function of stopping movement of the second stop portion 134 .

The stopping force of the first stop portion 132 against the second stop portion 134 is sufficient to resist the resistance of the electronic component 124 connected to the external device, so that the electronic component 124 can be electrically connected to the external device smoothly.

The material of the first stop portion 132 can be designed as a flexible hard material, such as plastic. Wherein, the first stop portion 132 has a first slope 148 , and the second stop portion 134 has a second slope 150 . When the second stopper 134 intends to pass the first stopper 132 along the direction S1, the second stopper 134 will slightly touch the first stopper 132, so a little force is required to pass the first stopper Section 132. And the magnetic repulsion F2 of this embodiment is enough to make the second stopper 134 pass the first stopper 132, so that the second stopper 134 passes the first stopper 132, so that the first stopper 132 stops the first stopper 132 Two stoppers 134 .

In addition, when the electronic component 124 of FIG. 3 is to be accommodated into the casing 102 , it can also be completed by rotating the rotating component 104 . Please refer to FIG. 4A and FIG. 4B. FIG. 4A shows the internal perspective view of the flash drive after the rotating element in FIG. perspective. When the rotating element 104 in FIG. 2 is rotated by 180 degrees, the S pole of the second magnet 174(2) corresponds to the N pole of the third magnet 174(3) to generate a magnetic attraction force F1, as shown in FIG. 4A . The magnetic attraction force F1 guides the electronic component 124 into the housing 102 , as shown in FIG. 1 .

As shown in FIG. 4B , when the second magnet 174 ( 2 ) corresponds to the third magnet 174 ( 3 ), the first stop portion 132 and the second stop portion 134 are staggered from each other, so that when the carrier 106 is subjected to a magnetic attraction force When the F1 is driven into the casing 102 , the carrier 106 and the electronic component 124 can be smoothly accommodated in the casing 102 without being hindered.

In addition, the magnet disposed on the carrier 106 can also be connected to the carrier 106 through an elastic element, so as to buffer the impact. More specifically, please refer to FIG. 5 , which is an internal perspective view of the portable electronic device in FIG. 1 with shock absorbers. The carrier 106 of the flash drive 100 includes an elastic element 156, and one end of the elastic element 156 is fixedly connected to the third magnet 174(3). In this way, when the electronic component 124 is driven into the housing 102 by the magnetic attraction force F1 to make the connecting rod 108 reach its ultimate compression length, the carrier 106 and the electronic component 124 will not be affected by the momentary impact due to the design of the elastic element 156 to buffer the impact. damage due to impact. Therefore, the arrangement of the elastic element 156 has the function of protecting the electronic element 124 .

second embodiment

Please refer to FIG. 6 , which shows an internal perspective view of the flash drive according to the second embodiment of the present invention. The second embodiment follows the element numbers of the first embodiment. Wherein, the difference between the second embodiment and the first embodiment is that the first magnet 114 (1) and the second magnet 114 (2) are arranged on the carrier 106 in the flash drive 200 of the second embodiment, and the third The magnet 114 ( 3 ) is disposed inside the rotating element 104 . Furthermore, in the second embodiment, the first magnet 114 ( 1 ) and the second magnet 114 ( 2 ) are disposed on the surface 178 of the carrier 106 facing the rotating element 104 . The third magnet 114 ( 3 ) is disposed on the inner surface 176 of the rotating element 104 adjacent to the casing 102 .

As shown in Figure 6, the first magnet 114 (1) and the second magnet 114 (2) are separated from the rotation axis L by the same distance D, and the connecting line between the first magnet 114 (1) and the second magnet 114 (2) Through the rotation axis L, the central angle of the first magnet 114 ( 1 ) and the second magnet 114 ( 2 ) with respect to the rotation axis L is substantially 180 degrees. Therefore, when the rotating element 104 and the housing 102 rotate 180 degrees relative to each other, the electronic component 124 is driven by the magnetic attraction or magnetic repulsion, and is automatically introduced into the housing 102 to be protected by the housing 102, or exported out of the housing. body 102 for operation of electronic components 124 .

In addition, the magnet disposed on the carrier 106 can also be connected with the carrier 106 through an elastic element, so as to buffer the impact and prevent the electronic component 124 from being damaged due to the impact caused by the magnetic attraction force F1. For example, please refer to FIG. 7 , which is an internal perspective view of the portable electronic device shown in FIG. 6 with shock absorbers. The holder 164 of the flash drive 202 includes an elastic element 166, and one end of the elastic element 166 is fixedly connected to the second magnet 114(2). In this way, when the electronic component 124 is driven into the casing 102 by the magnetic attraction force F1 to make the connecting rod 108 reach its limit compression length, as shown in FIG. The electronic components 124 will not be damaged by a momentary impact force.

third embodiment

Please refer to FIG. 8 , which shows an internal perspective view of the flash drive according to the third embodiment of the present invention. Part numbering of the elements of the third embodiment follows the numbering of the elements of the first embodiment. Wherein, the difference between the third embodiment and the first embodiment is that the first magnet 110(1) and the second magnet 110(2) of the flash drive 300 are arranged on the inner wall surface 146 of the second side wall 116, and the second The three magnets 110 ( 3 ) are disposed on the base 302 , and the third magnet 110 ( 3 ) is disposed on a surface of the base 302 facing the inner wall surface 146 . In particular, the second end 306 of the connecting rod 304 in this embodiment is fixedly connected to the carrier 302 . In addition, the flash drive 300 includes a third stopper 308 and a fourth stopper 310 , the third stopper 308 is fixed on the housing 314 and has a third slope 312 , the fourth stopper is located on the housing 314 The periphery of the carrier 302 is a slope corresponding to the third slope 312 .

Since the pivot unit 130 , the connecting rod 304 and the carrier 302 are fixedly connected to each other, when the rotating element 104 is rotated, the carrier 302 and the third magnet 110 ( 3 ) are also driven to rotate.

As disclosed in the first embodiment, in this FIG. 8, the first magnet 110(1) and the second magnet 110(2) are at the same distance D from the rotation axis L, and the first magnet 110(1) and the second magnet 110(2) are The connecting line of the second magnet 110(2) passes through the rotation axis L, so that the central angle between the first magnet 110(1) and the second magnet 110(2) relative to the rotation axis L is substantially 180 degrees. Therefore, when the rotating element 104 and the casing 314 rotate 180 degrees relative to each other, the electronic element 124 is driven by magnetic attraction or magnetic repulsion, and is automatically led out to be electrically connected to an external device or introduced into the casing 314 for further Protected by housing 314 .

Please refer to FIG. 9 , which is an internal perspective view of the flash drive after the rotating element of FIG. 8 is rotated 180 degrees. When the rotating element 104 is rotated 180 degrees, the third magnet 110 (3) and the carrier 302 are driven to rotate 180 degrees, so that the N pole of the first magnet 110 (1) and the N pole of the third magnet 110 (3) The poles correspond to generate a magnetic repulsion force F2 , and the magnetic repulsion force F2 guides the electronic component 124 out of the casing 314 . In addition, when the first magnet 110 ( 1 ) corresponds to the third magnet 110 ( 3 ), the third stop portion 308 corresponds to the fourth stop portion 310 . Therefore, when the carrier 106 is pushed out by the magnetic repulsion force F2 , the fourth stop portion 310 is forced to pass the third stop portion 308 on the casing 314 along the direction S1 . After the fourth stopper 310 passes the third stopper 308 , as shown in FIG. 9 , the third stopper 308 acts as a stopper to the fourth stopper 310 . In this way, it is prevented that the electronic component 124 is pushed into the housing 314 during the process of being inserted into the external connector and cannot be electrically connected to the external connector smoothly.

Fourth embodiment

Please refer to FIG. 10A , which is an internal perspective view of the flash drive according to the fourth embodiment of the present invention. The element numbers of the fourth embodiment follow part of the element numbers of the third embodiment. Wherein, the difference between the fourth embodiment and the third embodiment is that the first magnet 112(1) and the second magnet 112(2) of the flash drive 400 of the fourth embodiment are arranged on the side of the carrier 302 facing the inner wall surface 146. A surface 316 , and the third magnet 112 ( 3 ) is disposed on the inner wall surface 146 of the casing 314 .

As disclosed in the third embodiment, the first magnet 112(1) and the second magnet 112(2) have the same distance D from the rotation axis L, and the first magnet 112(1) and the second magnet 112(2) ) passes through the rotation axis L, so that the central angle between the first magnet 112(1) and the second magnet 112(2) relative to the rotation axis L is substantially 180 degrees. Therefore, when the rotating element 104 and the housing 314 rotate 180 degrees relative to each other, the electronic component 124 is driven by the magnetic attraction or magnetic repulsion, and is automatically introduced into the housing 314 to be protected by the housing 314, or exported out of the housing. Body 314 for operation of electronic components 124 .

Please refer to FIG. 10B , which is a schematic view of the electronic components in FIG. 10A leading out from the housing. After the rotating element 104 of Fig. 10A is rotated 180 degrees, the N pole of the first magnet 112 (1) corresponds to the N pole of the third magnet 112 (3) to generate a magnetic repulsion F2, and the magnetic repulsion F2 leads the electronic component 124 out in the housing 314 .

In addition, although the number of magnets in the above embodiment is described as three, in other embodiments, the number of magnets may be more than three. For example, please refer to FIG. 11 , which shows a schematic view of the flash drive in FIG. 1 further including a fourth magnet. The difference between the flash drive 500 and the flash drive 100 is that the flash drive 500 further includes a fourth magnet 174(4). The fourth magnet 174(4) and the third magnet 174(3) are fixed on the casing 102 at the same time, and the magnetism of the fourth magnet 174(4) is different from that of the third magnet 174(3). Thereby, the acting magnetic force is increased, and the speed of leading out and leading in of the electronic component 124 is increased. Similarly, the second embodiment to the fourth embodiment can also be provided with a fourth magnet, and its arrangement method is disclosed in FIG. .

In the portable electronic device disclosed in the above-mentioned embodiments of the present invention, through the rotation of the rotating element, the magnet rotating together with the rotating element is driven to correspond to another magnet with a different magnetism to generate magnetic attraction or magnetic repulsion. In this way, the electronic components can be led into or out of the housing.

To sum up, although the present invention has been disclosed above with preferred embodiments, they are not intended to limit the present invention. Those skilled in the art to which the present invention belongs may make various equivalent changes or substitutions without departing from the spirit and scope of the present invention. Therefore, the scope of protection of the present invention should be defined by the claims.

Claims (20)

1. portable electronic devices is characterized in that comprising:

Housing has opening, and said housing comprises:

Carry seat, be mounted slidably in said housing; And

Electronic component is located on said year seat;

Rotating element;

Hinged unit has first connecting portion and second connecting portion of relative configuration, articulates said housing and said rotating element; And

Group of magnets comprises:

First magnet and second magnet, be located at said year seat and said rotating element one of them, and the magnetic of said first magnet and said second magnet is different; And

The 3rd magnet is located at another of said year seat and said rotating element, and the magnetic of said the 3rd magnet and said first magnet and said second magnet one of them is identical;

When said rotating element rotated with respect to said housing, said group of magnets produced magnetic attraction or magnetic repulsion, so that said electronic component imports said housing or derives from said housing.

2. portable electronic devices according to claim 1 is characterized in that wherein said group of magnets also comprises:

The 4th magnet be arranged on same parts with said the 3rd magnet, and the magnetic of the magnetic of said the 4th magnet and said the 3rd magnet is different.

3. portable electronic devices according to claim 1 is characterized in that also comprising connecting link, and it has the first relative end and second end, and said first end is fixed in said first connecting portion and said second end is connected in said year seat.

4. portable electronic devices according to claim 3; It is characterized in that wherein said first magnet and said second magnet are arranged in the said rotating element; And said the 3rd magnet is arranged at said year seat, and said second end of said connecting link is to be connected in said year seat with respect to the said year rotating mode of seat.

5. portable electronic devices according to claim 3; It is characterized in that wherein said the 3rd magnet is arranged in the said rotating element; And said first magnet and said second magnet are arranged at said year seat, and said second end of said connecting link is to be connected in said year seat with respect to the said year rotating mode of seat.

6. portable electronic devices according to claim 3 is characterized in that wherein said housing comprises first stopper section, and said connecting link comprises second stopper section, and said second stopper section is in order to said first stopper section of backstop.

7. portable electronic devices according to claim 1 is characterized in that wherein said first magnet, said second magnet are identical at a distance of the distance of the rotation axis of said rotating element with said the 3rd magnet.

8. portable electronic devices according to claim 3; It is characterized in that wherein said opening is located at the first side wall of said housing; And said housing has second sidewall relative with said the first side wall, and said second sidewall has perforation, and said hinged unit comprises:

Said first connecting portion and said second connecting portion; Lay respectively in said housing and the said rotating element; Said first end of said first connecting portion and said connecting link is affixed, and said second connecting portion and said rotating element are affixed, and said first connecting portion is in order to against said second sidewall; And

Pivot, the two ends of passing said perforation and said pivot are affixed with said first connecting portion and said second connecting portion respectively.

9. portable electronic devices according to claim 1 is characterized in that wherein said the 3rd magnet is located at said year seat, and seat comprised in said year:

Flexible member, affixed said the 3rd magnet of an end of said flexible member.

10. portable electronic devices according to claim 1 is characterized in that wherein said first magnet and said second magnet are positioned at said year seat, and seat comprised in said year:

Flexible member, affixed said second magnet of an end of said flexible member.

11. a portable electronic devices is characterized in that comprising:

Housing has second sidewall and opening, and said housing comprises:

Carry seat, be mounted slidably in said housing; And

Electronic component is located on said year seat;

Rotating element;

Hinged unit has first connecting portion and second connecting portion of relative configuration, articulates said housing and said rotating element; And

Group of magnets comprises:

First magnet and second magnet, be located at said year seat and said second sidewall one of them, and the magnetic of said first magnet and said second magnet is different; And

The 3rd magnet is located at another of said year seat and said second sidewall, and the magnetic of said the 3rd magnet be same as said first magnet and said second magnet one of them;

Connecting link, affixed each other with above-mentioned hinged unit and above-mentioned year seat;

Wherein, when said rotating element rotated with respect to said housing, said group of magnets produced magnetic attraction or magnetic repulsion, so that said electronic component imports said housing or derives from said housing.

12. portable electronic devices according to claim 11 is characterized in that wherein said group of magnets also comprises:

The 4th magnet be arranged on same parts with said the 3rd magnet, and the magnetic of the magnetic of said the 4th magnet and said the 3rd magnet is different.

Said second end is fixed in said year seat 13. portable electronic devices according to claim 11 is characterized in that also comprising connecting link, has the first relative end and second end, and said first end is fixed in said first connecting portion.

14. portable electronic devices according to claim 13 it is characterized in that wherein said first magnet and said second magnet are arranged at said second sidewall, and said the 3rd magnet is arranged at said year seat.

15. portable electronic devices according to claim 13; It is characterized in that wherein said the 3rd magnet is arranged on said second sidewall; And said first magnet and said second magnet are arranged at said year seat, and said second end of said connecting link is fixed in said year seat.

16. portable electronic devices according to claim 11 is characterized in that wherein said housing comprises the 3rd stopper section, seat comprised the 4th stopper section in said year, and said the 3rd stopper section is in order to said the 4th stopper section of backstop.

17. portable electronic devices according to claim 11 is characterized in that wherein said first magnet, said second magnet are identical at a distance of the distance of the rotation axis of said rotating element with said the 3rd magnet.

18. portable electronic devices according to claim 13 is characterized in that wherein said second sidewall has perforation, said hinged unit comprises:

Said first connecting portion and said second connecting portion; Lay respectively in said housing and the said rotating element; Said first end of said first connecting portion and said connecting link is affixed, and said second connecting portion and said rotating element are affixed, and said first connecting portion is in order to against said second sidewall; And

Pivot, the two ends of passing said perforation and said pivot are affixed with said first connecting portion and said second connecting portion respectively.

19. portable electronic devices according to claim 11 is characterized in that wherein said the 3rd magnet is positioned at said year seat, seat comprised in said year:

Flexible member, affixed said the 3rd magnet of an end of said flexible member.

20. portable electronic devices according to claim 11 is characterized in that wherein said first magnet and said second magnet are positioned at said year seat, seat comprised in said year:

Flexible member, affixed said second magnet of an end of said flexible member.

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