This application claims priority of Taiwanese Application No. 102103517, filed on Jan. 30, 2013.
1. Field of the Invention
The invention relates to a cover module, more particularly to a cover module having automatic opening and closing functions.
2. Description of the Related Art
A connector device of an existing electronic device usually includes a socket connector installed within a housing of the electronic device, and a plug connector plugged into the socket connector from an outer side of the housing. The plug connector can be removably inserted into the socket connector through a connecting hole provided in the housing. To prevent dust from entering the housing via the connecting hole that may cause damage to the electronic device, a dustproof cover module is provided on the housing for openably closing the connecting hole. The connecting hole is opened only when the plug connector is to be plugged into the socket connector. Through this, the effects of preventing dust from entering the housing and maintaining an aesthetic appearance of the housing can be achieved.
However, the existing dustproof cover module is very inconvenient to use because it needs to be manually opened or closed. That is, when a user wants to connect the connector device, he/she has to free one of his/her hands first to open the dustproof cover module, and then uses his/her other hand to grasp the plug connector for plugging into the socket connector. This is not only inconvenient, but also time consuming. In addition, he/she has to see and confirm the position of the dustproof cover module prior to opening the dustproof cover module, so that it is necessary for the user to move his/her line of sight which may result in an ongoing operation of the electronic device being forcedly interrupted.
Moreover, the housing of the electronic device is usually disposed in a narrow and dark space, such as under the table, so that the user often has to go under the table to confirm the position of the dustproof cover module for opening the latter. It can be seen that there is room for improvement for the conventional dustproof cover module.
Therefore, an object of the present invention is to provide a cover module having automatic opening and closing functions.
According to the present invention, a cover module is used for installation in an electronic device. The cover module is opened when a first electronic component having a metal housing made of a magnetic material approaches the cover module. The cover module comprises a housing, a cover unit, a magnetic member, a biasing member and a limiting unit. The housing is provided with a connecting hole communicating with inner and outer portions thereof. The cover unit is disposed in the housing in proximity to the connecting hole, and is movable between a closed position, where the cover unit closes the connecting hole, and an open position, where the cover unit opens the connecting hole. The cover unit includes a cover plate for covering the connecting hole, and a connecting plate connected to the cover plate.
The magnetic member is disposed in the housing. When the first electronic component approaches the connecting hole, the magnetic member is magnetically pulled by the metal housing of the first electronic component to move toward the connecting hole, simultaneously pushing the connecting plate to shift the cover unit from the closed position to the open position. The biasing member is connected to the housing and the connecting plate for biasing the cover unit toward the closed position.
The limiting unit is fixed to the housing and includes a first limiting mechanism. The first limiting mechanism includes a first limiting plate that cooperates with the housing to define a first receiving slot which receives slidably the magnetic member and which restricts sliding movement of the magnetic member therewithin.
The efficiency of the present invention resides in that by providing the movable magnetic member, when the metal housing of the first electronic component approaches the connecting hole, the magnetic member is magnetically pulled to displace, simultaneously pushing the cover unit to move to the open position. Further, through contact of the magnetic member with the connecting plate, when the metal housing of the first electronic component is moved away from the connecting hole, the cover unit is biased by the restoring force of the biasing member to automatically return to the closed position. Hence, the effect of automatically opening and closing the cover module can be achieved.
Other features and advantages of the present invention will become apparent in the following detailed description of the embodiments with reference to the accompanying drawings, of which:
The above-mentioned and other technical contents, features, and effects of this disclosure will be clearly presented from the following detailed description of two embodiments in coordination with the reference drawings.
Before this invention is described in greater detail, it should be noted that similar elements are designated by the same reference numerals throughout the disclosure.
Referring to
The housing 21 is provided with a connecting hole 211 communicating with inner and outer portions thereof for extension of the plug metal casing 11 of the plug connector 1 from the outer portion into the inner portion of the housing 21. The cover unit 22 is disposed in the housing 21 in proximity to the connecting hole 211, and is movable between a closed position, as shown in
The magnetic member 23 is disposed in the housing 21, and is movable toward or away from the connecting hole 211 along a first direction (X1). The magnetic member 23 can push the connecting plate 222 when moved toward the connecting hole 211 so as to shift the cover unit 22 from the closed position to the open position along a second direction (X2) that is perpendicular to the first direction (X1). The first direction (X1) is similar to a plugging/unplugging direction of the plug connector 1.
The biasing member 24 is connected to the housing 21 and the connecting plate 222 for biasing the cover unit 22 toward the closed position along the second direction (X2). In this embodiment, the biasing member 24 is a compression spring that is sleeved on the rod portion 224 and that has one end abutting against the connecting plate 222, and the other opposite end abutting against a blocking plate 212 which is provided in the housing 21. The blocking plate 212 is disposed transversely of the rod portion 224, and has an abutment surface 213 abutting against the other opposite end of the biasing member 24, and a through hole 214 for extension of the rod portion 224 movably therethrough.
The limiting unit 25 includes a first limiting mechanism 251 and a second limiting mechanism 252 both fixed in the housing 21. The first limiting mechanism 251 includes a first main plate 2510 extending along the first direction (X1), two first limiting plates 253 that are connected transversely and respectively to and that extend downwardly and respectively from two opposite ends of the first main plate 2510 which extend along the first direction (X1), and a first stop plate 254 connected transversely to another end of the first main plate 2510 that extends along the second direction (X2) and connected between the first limiting plates 253. The first main plate 2510, the first limiting plates 253, and the first stop plate 254 cooperate with the housing 21 to define a first receiving slot 2511 for receiving slidably the magnetic member 23 and for restricting sliding movement of the same therewithin and along the first direction (X1). The magnetic member 23 is in slidable contact with the first limiting plates 253. The first stop plate 254 is located distal from the connecting hole 211 to stop the magnetic member 23 and to prevent the same from moving too far away from the connecting hole 211.
The second limiting mechanism 252 includes a second main plate 2520 extending along the second direction (X2), a second limiting plate 255 that is disposed transversely of the second main plate 2520 and that extends along the second direction (X2), and a second stop plate 256 that is connected to the second limiting plate 255 and that extends along the first direction (X1). The second main plate 2520, the second limiting plate 255 and the second stop plate 256 cooperate with the housing 21 to define a second receiving slot 2521 for receiving the connecting plate 222 and for restricting movement of the same along the second direction (X2). The second receiving slot 2521 communicates with the first receiving slot 2511. The second stop plate 256 is disposed distal from the connecting hole 211 to stop the connecting plate 222 and prevent the same from moving too far away from the connecting hole 211.
The circuit board 3 is installed in the housing 21. The socket connector 4 is connected electrically to the circuit board 3, and is fixed to the same at a position that is proximate to the connecting hole 211 for removable insertion of the plug connector 1 therein after the plug connector 1 passes through the connecting hole 211. The socket connector 4 includes a socket metal casing 41 that defines a plugging space (not shown) for accommodating the plug metal casing 11 of the plug connector 1.
Referring to
As shown in
The connecting plate 222 abuts against the second stop plate 256 when the cover unit 22 is at the open position, and cooperates with the blocking plate 212 to compress the biasing member 24. When the plug connector 1 is unplugged from the socket connector 4 and is moved away from the connecting hole 211, the magnetic member 23 is no longer subject to the magnetic attraction of the plug metal casing 11 and releases the pushing force against the connecting plate 222. Simultaneously, compression on the biasing member 24 by the connecting plate 222 is released, and due to its restoring force, the biasing member 24 is restored from a compressed state to a non-compressed state, and pushes the connecting plate 222 to move from the second receiving slot 2521 to the first receiving slot 2511 along the second direction (X2). During this time, the cover plate 221 moves along with the connecting plate 222 to cover the connecting hole 211, thereby shifting the cover unit 22 from the open position to the closed position (see
During movement of the connecting plate 222 to its original position in the first receiving slot 2511 through the biasing force of the biasing member 24, the inclined surface 223 of the connecting plate 222 pushes the magnetic member 23 to move away from the connecting hole 211 along the first direction (X1) and return to its initial position, where the magnetic member 23 abuts against the first stop plate 254. Through this, the same steps can be repeated for the next plugging operation of the plug connector 1.
With reference to
K
m
·M
1
·M
2·cos(a)·cos(b)2/L2>Ks·Dm
This is the parameter design requirement of the embodiment under an ideal condition that the frictional force may be ignored.
It should be noted that the socket metal casing 41 is made of a non-magnetic material (e.g., partially stainless steel) in this embodiment. Hence, the magnetic member 23 will not be magnetically attracted to the socket metal casing 41 and will not receive additional magnetic interference when magnetically pulled by the plug metal casing 11. Furthermore, in this embodiment, a portion of the limiting unit 25 is integrally connected to the housing 21, and cooperates with the housing 21 to confine therebetween the magnetic member 23 and the connecting plate 222 to achieve the effect of limiting the displacement direction of the magnetic member 23 and the connecting plate 222. It is well understood that the limiting unit 25 maybe altered according to the shape of the housing 21, that is, it may provide different numbers and shapes of the first and second limiting plates 253, 255, as long as the limiting unit 25 may cooperate with the housing 21 to limit the magnetic member 23 and the connecting plate 222. The limiting unit 25 may also be designed not to cooperate with the housing 21 and may independently limit the magnetic member 23 and the connecting plate 222, as long as the magnetic member 23 and the connecting plate 222 may be limited to move along the first direction (X1) and the second direction (X2), respectively.
Referring to
As the plug connector 1 is moved close to the connecting hole 211, the magnetic member 23 is magnetically pulled by the plug metal casing 11 of the plug connector 1 to move toward the connecting hole 211 along the second direction (X2), and simultaneously pushes the connecting plate 222 to move toward the biasing member 24 and compress the same. During this time, the cover plate 221 moves along with the connecting plate 222 to uncover the connecting hole 211, thereby shifting the cover unit 22 from the closed position to the open position. The effect of opening the connecting hole 211 for insertion of the plug connector 1 therein is thus achieved.
In the foregoing two embodiments, the biasing member 24 is a compression spring that is sleeved on the rod portion 224 of the connecting plate 222. Nevertheless, the biasing member 24 maybe altered to other equivalent component having a resilient biasing force.
In summary, through the presence of the magnetic member 23, when the plug connector 1 approaches the connecting hole 211, the magnetic member 23 is magnetically pulled by the plug connector 1 to displace, simultaneously pushing the cover unit 22 to move to the open position, thereby opening the connecting hole 211 for insertion of the plug connector 1 therein. When the plug connector 1 is unplugged and is moved away from the connecting hole 211, the cover unit 22 can be restored to the closed position through the restoring force of the biasing member 24 so as to cover the connecting hole 211. In such a manner, the effect of automatically closing and opening the cover module 2 can be achieved without having to free an empty hand to perform such operations nor move the line of sight to confirm the position of the cover module 2. Moreover, the user does not have to go into a narrow and dark space, where an electronic device is placed, to operate the cover module 2. Therefore, the object of this invention is realized.
While the present invention has been described in connection with what are considered the most practical embodiments, it is understood that this invention is not limited to the disclosed embodiments but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Date | Country | Kind |
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102103517 | Jan 2013 | TW | national |