Patent Grant
9745780
1. Field of the Invention
The present invention generally relates to a lock. Specifically, the present invention relates to an electric lock.
2. Description of the Prior Art
Diverse locks nowadays are provided and meet different uses and conditions; however, these locks can be generally divided into two categories: mechanical locks and electric locks. The mechanical locks include key locks and combination locks. The electric locks may also be operated by means of key or cypher to proceed the unlock or lock operation. However, the electric lock may further cooperate with other facilities such as sensing, reading, and/or recognition devices so as to provide diverse unlocking, locking or supervising functions.
The media of operating the unlock and lock operation may be different based on the use of the electric lock. For example, possessing a proximity card or a key or knowing the cypher is the possible way to operate the electric lock. When unlocking and locking operations depend upon recognition of biological characteristic, only the specific user(s) is able to perform the unlock or lock operation; in this case, circumstances such as loss of the proximity card or the key or forgetting the cypher which results in inability of unlocking will not happen. Accordingly, the inventor designs a lock and a case which uses the lock, wherein the lock is suitable for a case and has simple unlocking and locking operations.
It is an object of the present invention to provide a lock which provides simple unlocking and locking operations.
It is another object of the present invention to provide a lock which is shockproof and suitable for transport facilities.
The lock of the present invention includes a housing, a fastening element, a stopping element, a first locking mechanism and a second locking mechanism. The fastening element is movable relative to the housing and selectively located at a securing position and a releasing position; the stopping element has a first state and a second state, wherein the stopping element in the first state restricts the fastening element to be in the securing position; the stopping element in the second state releases the fastening element. The first locking mechanism includes a dynamic element and a sensing device. The dynamic element drives the stopping element to change between the first state and the second state. The sensing device senses a signal and controls an action of the dynamic element.
The first locking mechanism of the lock of the present invention may alternatively include a sensing system electrically connected to the dynamic element; signal transmission and recognition in the sensing system controls the action of the dynamic element.
The lock of the present invention includes a second locking mechanism which includes a key-lock lock body disposed in the housing; wherein the fastening element, the stopping element and the dynamic element are disposed in the housing; the fastening element moves relative to the housing and is selectively located at the securing position and the releasing position.
In the lock mentioned above, the signal includes electromagnetic wave, image signal or biological characteristic signal.
The lock mentioned above further includes a power source connected to the sensing device.
In the lock mentioned above, the sensing device produces a sensing area outsides the housing; the signal enters the sensing area; the sensing device receives the signal and controls the action of the dynamic element.
In the lock mentioned above, the sensing device is a radio frequency identification element.
In the lock mentioned above, the radio frequency identification element is a reader; the reader acquires and recognizes a coded signal so as to activate the dynamic element.
In the lock mentioned above, the radio frequency identification element is a tag, wherein the tag carries a code for recognition.
In the lock mentioned above, the radio frequency identification element is powered and transmits a signal of the code.
In the lock mentioned above, the dynamic element is an electromagnetic valve; the electromagnetic valve has a driving shaft, wherein the sensing device controls the driving shaft to extend or retract.
In the lock mentioned above, the stopping element has an axial portion and a plurality of arm portions radiating from the axial portion.
In the lock mentioned above, the stopping element has a rotation axis and a first arm portion; the dynamic element has a driving shaft; the driving shaft extends and pushes the first arm portion to drive the stopping element to rotate.
In the lock mentioned above, the stopping element further has a second arm portion; the second arm portion in the first state contacts the fastening element and restricts the fastening element to be in the securing position; when the driving shaft drives the stopping element to rotate to the second state, the second arm portion releases the fastening element.
In the lock mentioned above, the fastening element includes a connecting arm and a latch disposed asides the connecting arm; one end of the connecting arm contacts the stopping element in the first state; the stopping element in the second state releases the fastening element, and the fastening element moves along the extension direction of the connecting arm to locate at the releasing position.
In the lock mentioned above, the housing further has a trough formed thereon and communicating with an interior of the housing, wherein the latch enters or leaves the trough; the latch stays in the trough when the fastening element is in the securing position.
The lock mentioned above further includes an operating device driving the fastening element to move.
In the lock mentioned above, the operating device is a press-button partially exposed and protruding out of the housing. The operating device is disposed at one end of the connecting arm opposite to the stopping element; the operating device is pressed and pushes the fastening element in the extension direction of the connecting arm.
In the lock mentioned above, the second locking mechanism further includes a driving portion; the driving portion is driven by a key and the key-lock lock body to change the state of the stopping element.
The lock of the present invention includes: a housing, a fastening element, a stopping element, a first locking mechanism, and a second locking element, wherein the fastening element is movable and selectively located at a securing position and a releasing position; the stopping element has a first state and a second state; the stopping element in the first state restricts the fastening element to be in the securing position; the stopping element in the second state releases the fastening element; the first locking mechanism includes a dynamic element and a sensing system; the dynamic element moves with the stopping element and drives the stopping element to change between the first state and the second state; the sensing system is electrically connected to the dynamic element; signal transmission and signal recognition in the sensing system controls the action of the dynamic element; the second locking mechanism includes a key-lock lock body and a driving portion disposed in the housing, wherein the driving portion is driven by a key and the key-lock lock body to change the state of the stopping element. The fastening element, the stopping element and the dynamic element are disposed in the housing; an outcome of the signal transmission and recognition is to activate the dynamic element; the fastening element moves relative to the housing and selectively located at the securing position and the releasing position.
In the lock mentioned above, the sensing system includes a sensing device and a transmitting device; the signal transmission occurs between the sensing device and the transmitting device, wherein the sensing device recognizes the signal.
In the lock mentioned above, the sensing system is a radio frequency identification system including a reader and a tag, wherein the tag carries a code for recognition.
In the lock mentioned above, the reader induces the tag to transmit a signal of the code; the reader acquires and recognizes the signal of the code to activate the dynamic element.
In the lock mentioned above, the reader induces the tag to produce electrical energy and activate the dynamic element.
The case of the present invention includes the above mentioned lock and a case body. The case body has a fastener for opening and closing the case body. The lock is disposed outsides the case body and on a body wall, wherein the housing has a trough formed thereon; the trough communicates with an interior of the housing and corresponds to the fastener. The latch of the fastening element of the lock enters or leaves the trough; the latch stays in the trough when the fastening element is in the securing position.
In the lock mentioned above, the fastener has a through hole and is accommodated in the trough; the latch in the securing position passes through the through hole and retains the fastener in the trough.
In the lock mentioned above, the latch has a guiding face; when the stopping element is in the second state, the fastener is capable of moving along the guiding face, pushes the latch to temporarily leave the securing position and is inserted in the trough; the latch goes back to the securing position and is retained in the trough.
In the lock mentioned above, the fastener is a zip fastener.
The lock of the present invention has the interior locking mechanism activated by signal induction to proceed to locking or unlocking actions. The induction may be contact or contactless inductions; the signal may be electromagnetic wave such as radio wave, visible light or ultrared induction, or image signal such as bar code reading, or recognition of biological characteristic such as fingerprint or iris, but not limited thereto.
In the present invention, a trough 110 is preferably formed on the housing 100 for connection of the article to be secured. For example, one side of the housing 100 has an indent as the trough 110, which communicates with the interior of the housing 100. The fastening element 200 is disposed in the housing 100 and has at least a portion capable of entering or leaving the trough 110 so as to interfere with the article to be secured. That is, when the fastening element 200 enters the trough 110 as shown in
As shown in
In detail, the sensing device 610 is electrically connected to the dynamic element 500. The sensing device 610 senses a signal and controls an action of the dynamic element 500 to accomplish the unlocking and/or locking action. The sensing device 610 preferably has the sensing area P which covers at least an outside portion of the housing 100. The sensing device 610 may include a sensing apparatus, a reading apparatus, a communicating apparatus or a combination thereof and is provided to acquire (and recognize) signal so as to control the dynamic element 500. For example, the sensing device 610 may include a fingerprint reader, a bar code reader, an ultrared sensor and/or a card reader. In addition, the lock 10 may further include a power source which is connected to the sensing device 610. A battery may serve as the power source to supply the necessary power for the lock 10.
Preferably, the sensing device 610 of the embodiment is a radio frequency identification element. Specifically, the radio frequency identification element is a reader; the reader acquires and recognizes a coded signal which enters the sensing area P so as to activate the dynamic element 500. The coded signal may be from portable devices such as a proximity card or a cell phone. That is, in comparison to possessing a key (for key lock) or memorizing an unlocking cypher (for combination lock), user here possesses the portable device such as the proximity card or the cell phone to unlock the lock 10.
In other embodiments, the radio frequency identification element may be a tag carrying a code for recognition. When the tag is powered, it transmits a signal of the code, wherein the tag may be induced by a reader and generate electrical energy so as to activate the dynamic element 500. On the other hand, the signal of the code may be acquired and recognized by such as the reader so as to activate the dynamic element 500. The reader here may be portable device which the user possesses to induce the lock.
The dynamic element 500 is disposed in the housing 100 and can be, for example, an electromagnetic valve or a motor. In the embodiment of the present invention, the dynamic element 500 is an electromagnetic valve having a driving shaft 510, wherein the sensing device 610 controls the driving shaft 510 to extend or retract. For example, when the radio frequency recognition element (i.e. the sensing device 610) acquires the coded signal and recognizes the coded signal as the correct, the radio frequency recognition element activates the driving shaft 510 of the electromagnetic valve to extend. In the present embodiment, the extension of the driving shaft 510 is related to the unlocking operation/action. The activation of the electromagnetic valve lasts for a predetermined period, the driving shaft 510 retracts after the predetermined period until next signal sensing/induction. In the present embodiment, the retraction of the driving shaft 510 is related to the locking operation/action. Alternatively, both extension and retraction of the driving shaft 510 may be activated through signal induction, i.e. the sending device 610 not only senses the signal and activates the driving shaft 510 to extend but also senses a signal/the signal and activates the driving shaft 510 to retract. The predetermined period may depend upon the reaction time of the electromagnetic valve and is related to the specifications for the electromagnetic valve. In addition, predetermined period may be designed based on an operation of the lock 10.
The action of the driving shaft 510 of the dynamic element 500 drives the stopping element 300 to change between the first state shown in
For example, the stopping element 300 has a first arm portion 310. The end of the driving shaft 510 contacts the first arm portion 310. The driving shaft 510 pushes the first arm portion 310 when extending as shown in
In the preferred embodiment of the present invention, the stopping element 300 has an axial portion 390 and a plurality of arm portions radiating from the axial portion 390. The axial portion 390 may have a torsional member (not shown) disposed therein; the stopping element 300 has such as the first arm portion 310 and the second arm portion 320. The first arm portion 310 may be located in the extension direction of the driving shaft 510, wherein the end of the driving shaft 510 contacts the first arm portion 310. The second arm portion 320 is separated/angled away from the first arm portion 310 and an angle between the two arms is between 90 and 180 degree, wherein the second arm portion 320 in the first state contacts the fastening element 200. In addition, the end of the driving shaft 510 preferably contacts a side of the first arm portion 310, and the second arm portion 320 in the first state contacts the fastening element 200 by an end thereof away from the axial portion 390. When the driving shaft 510 extends and pushes the stopping element 300 to rotate, the second arm portion 320 rotates as well and the end thereof leaves away from the fastening element 200 so as to release the fastening element 200, as shown in
The fastening element 200 further includes a connecting arm 220 and a latch 210. The connecting arm 220 is disposed aside the driving shaft 510 and substantially parallel to the driving shaft 510. When the stopping element 300 is in the first state, as shown in
The latch 210 of the fastening element 200 is disposed asides the connecting arm 220. Specifically, one side of the connecting arm 200 may have a supporting structure 250 disposed thereon. The supporting structure 250 is substantially perpendicular to the connecting arm 220. The latch 210 is formed on an end of the supporting structure 250 away from the connecting arm 220. Shape of the latch 210 is not limited; however, the latch 210 preferably has a guiding face. For example, the latch 210 is a short column having the guiding face 215 formed thereon, wherein the guiding face 215 is an inclined plane. The inclining direction of the inclined plane is preferably consistent with the movement direction of the fastening element 200. An elastic member (not shown) may be disposed asides the supporting structure 250 opposite to guiding face 215 and can be pressed such as in the movement direction of the fastening element 200. On the other hand, the trough 110 formed on the housing 100 preferably corresponds to the latch 210. In addition, the latch 210 enters or leaves the trough 110 through the communication of the trough 110 with the interior of the housing 100 so as to interfere with the article to be secured. In detail, when the stopping element 300 is in the second state as shown in
Preferably, the housing 100 preferably has two troughs 110 formed thereon; meanwhile, the fastening element 200 preferably has two latches 210 which correspond to the troughs 110, respectively. In addition, the troughs 110 are arranged in parallel, wherein a line connecting the two troughs 110 is substantially parallel to the extension direction of the connecting arm 220. In addition to the trough 110, an opening 130 is further formed on the housing 100 to expose the operating device 800.
In addition to the first locking mechanism 400a, the present invention further includes a second locking mechanism 400b. An unlocking operation of the second locking mechanism 400b may release the fastening element 200; a locking operation of the second locking mechanism 400b may restrict the fastening element to be in the securing position. The second locking mechanism 400b is, as shown in
For example, the stopping element 300 further has a fourth arm portion 340 which extends in a different extension compared to other arm portions. The second locking mechanism 400b is disposed at a side of the stopping element 300 having the fourth arm portion 340, wherein the driving portion 710 may radiate from one end of the lock body 700. In one embodiment, the key drives the key-lock lock body 700 and the driving portion 710 to rotate, wherein the driving portion 710 draws a fan-shaped area resulted from its rotation. On the other hand, the fourth arm portion 340 may draw an area resulted from the rotation of the stopping element 300, wherein the area drawn by the fourth arm portion 340 may overlap the fan-shaped area. Take the embodiment shown in
The second locking mechanism 400b provides the user with other way of unlocking; on the other hand, the second locking mechanism 400b allows the lock of the present invention suitable for the Customs for security check.
In other embodiments of the present invention, the lock has sensing system which is electrically connected to the dynamic element 500. Signal transmission and recognition in the sensing system controls the action of the dynamic element 500. Further speaking, the sensing system includes a sensing device and a transmitting device; the signal transmission occurs between the sensing device and the transmitting device. The sensing device may include a sensing apparatus, a reading apparatus, a communicating apparatus or a combination thereof and is provided to acquire (and recognize) signal so as to control the dynamic element 500. For example, the sensing device may include a fingerprint reader, a bar code reader, an ultrared sensor and/or a card reader. The transmitting device may include an emitter (emitting such as radio wave or light), image displaying apparatus, communicating apparatus or a combination thereof. The transmitting device is provided for producing/transmitting signal to the sensing device and controlling the dynamic element 500.
Preferably, as shown in
The present invention provides a case for accommodation of articles; the accommodated articles are secured in the case. Preferably, the case is for transportation and is such as a luggage case. As shown in
As the embodiment shown in
When the lock 10 is in the unlocked status, the fastening element 200 in the securing position having the latch 210 located in the trough 110 is moveable to the releasing position; meanwhile, the zip fasteners 950a and 950b may move along the guiding faces 215 of the latch 210 as well as push the latch 210 to temporarily leave away from the securing position so as to be inserted in the trough 110. In addition, when the latch 210 is pushed, the supporting structure 250 moves along with the fastening element 200 and presses the elastic member. The fastening element 200 can move back to the securing position when no force is applied against the elastic member. The fastening element 200 will be back to the securing position when the through hole 9500 of the fastener 950a and 950b are substantially aligned with the latch 210; the latch 210 can pass though the through hole 9500 and let the zip fasteners 950 and 950b stay in the trough 110. When the lock is in the unlocked status, the user may also operate the operating device 800 such as pressing the same so as to drive the fastening element 200 to the releasing position, the latch 210 therefore leaves the trough 110. Accordingly, the zip fastener 950a and 950b are able to be removed from the trough 110. The released zip fasteners is free for opening the case. When the zip fasteners 950a and 950b are accommodated in the trough 110, the latch 210 can pass the through hole 9500 and in the securing position make the fastener 950 be confined in the trough 110.
As mentioned above, the activation of the electromagnetic valve lasts for a predetermined period, the driving shaft 510 retracts after the predetermined period until next signal sensing/induction. In this regard, retraction of the driving shaft 510 lets the first arm portion 310 which is originally pushed by the extending driving shaft 510 be able to rotate back. Accordingly, the second arm portion 320 rotates along with the stopping element 300, back to contact the fastening element 200 and restrict the fastening element 200 to be in the securing position. The lock 10 is therefore locked until next signal sensing/induction to activate the dynamic element 500.
As mentioned above, the present simplifies unlocking and locking operations. In addition, the lock of the present invention is electrical lock. Accordingly, in comparison to the completely mechanical lock, the lock of the present invention is not only smaller and lighter but also suitable for transport facilities due to the tolerance to impact.
Although the preferred embodiments of present invention have been described herein, the above description is merely illustrative. The preferred embodiments disclosed will not limit the scope of the present invention. Further modification of the invention herein disclosed will occur to those skilled in the respective arts and all such modifications are deemed to be within the scope of the invention as defined by the appended claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2014 2 0217406 U | Apr 2014 | CN | national |
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