Patent Grant
9631398
1. Fields of the Invention
The present invention relates to a lock with a slide for covering the core thereof, and a positioning device for positioning the slide, and more particularly, to a slide for covering the installation recess of the lock.
2. Descriptions of Related Art
The conventional locks generally comprise a housing with a core located therein. A bead system is received in the core and includes multiple recesses and each recess receives multiple beads therein. In order to increase safety, resilient members and duplicate bead units are added in the bead system. The core has a keyhole in which a key can be inserted to arrange the beads to a unlock position so that the core can be rotated.
It is noted that the key hole is exposed and dust, moisture can easily enter the core to cause rusting to the parts in the core because most of the parts are made by metal. The rusted parts may affect rotation of the core. Besides, pebbles and sands may also enter into the core, and some parts in the core has lubricant attached thereto and the pebbles, sands and dust are easily attached to the lubricant to block the movement of the beads such that the lock is difficult to be locked or unlocked.
Furthermore, most of the locks are located outside of houses, such as paddle locks, door locks or vehicle locks, these locks can easily be affected by rain, dust, pebbles and sands and have to be replaced with a lot of money spent.
The present invention intends to provide a lock with a slide for covering the core thereof, and a positioning device for positioning the slide.
The present invention relates to a lock and comprises a housing having an insertion hole and an installation recess defined in the underside thereof. A pivot is located in the insertion hole and has the first end thereof connected with a slide. A spring has the first end thereof connected to the insertion hole, and the second end of the spring is connected to the second end of the pivot. The spring applies a resilient force along the pivoting direction of the slide. When the slide is positioned at a close position, the slide is applied by the resilient force of the spring so as to cover the installation recess. When the slide is positioned at an open position, the slide is applied by a force to overcome the resilient force of the spring, and at least one portion of the slide does not cover the installation recess.
Preferably, the spring has a first leg on the first end thereof, and the insertion hole has a side hole defined therein. The first leg is fixed in the side hole to fix the spring to the insertion hole.
Preferably, the spring has a second leg on the second end thereof, and the pivot has a slot defined in the second end thereof. The second leg is engaged with the slot to fix the spring to the pivot.
Preferably, a driving member is connected to the insertion hole from the top of the housing. The second end of the pivot is connected to the driving member so as to form a positioning hole between the pivot, the driving member and the slot of the pivot. The second leg is located in the positioning hole.
Preferably, the pivot has a flange extending radially therefrom. The flange is located close to the first end of the pivot. The cover contacts the underside of the flange.
Preferably, the pivot has a locking portion formed on the second end thereof. The driving member has a locking hole defined in the first end thereof. The locking portion is connected to the locking hole to connect the pivot to the driving member. The slot is defined axially through the locking portion.
Preferably, the slot is defined in at least one portion of the flange.
Preferably, the driving member has a notch defined in the second end thereof.
Preferably, the insertion hole has a support portion formed in the inside thereof. The support portion includes a through hole which communicates with the insertion hole. The driving member has a contact portion on the second end thereof. The contact portion contacts the support portion.
Preferably, the spring is a torsion spring.
Preferably, the housing has a protrusion protruding from the underside thereof, and the protrusion has a first end face. When the slide is positioned at the close position, one side of the slide contacts the first end face.
Preferably, the protrusion has a second end face which faces the first end face. When the slide is positioned at the open position, another side of the slide that is located opposite to the direction of the resilient force of the spring contacts the second end face.
Preferably, the slide has a wall extending from one side of the slide that is located opposite to the direction of the resilient force of the spring. When the slide is positioned at the close position, the wall of the slide contacts a first side of the housing.
Preferably, the housing has a recessed area defined in the first side thereof. The wall is engaged with the recessed area when the slide is positioned at the close position.
Preferably, the housing has a concavity defined in the underside thereof. A resilient member, a positioning member and a restriction member are received in the concavity. The restriction member has a passage, and the positioning member has a narrowed engaging portion which extends through the passage. When the slide is positioned at the close position, the engaging portion is biased by the resilient member and contacts the slide. When the slide is positioned at the open position, the slide is located away from the engaging portion which protrudes beyond the concavity.
Preferably, the engaging portion is a rounded portion.
Preferably, the installation recess has a core received therein. The core has a keyhole which faces the slide. When the slide is positioned at the open position, the slide does not cover the keyhole.
Preferably, the core is a replaceable core. When the slide is positioned at the open position, the slide does not cover the core.
Preferably, the housing is mounted to a lock body which has a core. The core has a keyhole which is located corresponding to the installation recess and faces the slide. When the slide is positioned at the open position, the slide does not cover the keyhole.
The advantages of the present invention are that the housing can be a lock body to which the core is directly installed. Alternatively, the housing can be mounted to a lock body. The resilient member provides a resilient force in the pivoting direction of the slide so that when the slide is not applied by any foreign force, the slide covers the installation recess by the resilient force to prevent rain or dust from entering the core, so that the lock does not get being rusting, fragile or stocked so as to prolong the life of use. When the user wants to unlock the lock, the use applies a force to the slide to make at least one portion of the slide not cover the keyhole of the core so that a key can conveniently inserted into the keyhole to unlock the lock. If the core is a replaceable core, when the slide is positioned at the open position, the slide does not cover the core which can be conveniently replaced.
By the resilient member, the positioning member and the restriction member, when the slide is located at the open position, the slide is removed from the engaging portion, and the engaging portion protrudes beyond the concavity. When the slide is applied by the second resilient force, one side of the slide is restricted by the engaging portion so that the user does not need to continuously apply a force to the slide. This helps the user to conveniently unlock the lock.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A pivot 2 is located in the insertion hole 11 and has the first end thereof connected with a slide 3.
A spring 4 has the first end thereof connected to the insertion hole 11, and the second end of the spring 4 is connected to the second end of the pivot 2. The spring 4 applies a resilient force along the pivoting direction of the slide 3. In one embodiment, the spring 4 is a torsion spring such as a coil spring to generate the resilient force in the pivoting direction. This is an embodiment and does not restrict the spring of the present invention.
A shown in
In one preferably embodiment, in order to ensure that the second leg 42 is properly engaged with the slot 21, a driving member 5 is connected to the insertion hole 11 from the top of the housing 1. The second end of the pivot 2 is connected to the driving member 5 so as to form a positioning hole 211 between the pivot 2, the driving member 5 and the slot 21 of the pivot 2. The second leg 42 is located in the positioning hole 211.
For the connection between the slide 3, the pivot 2 and the driving member 5, in one embodiment, the pivot 2 has a flange 22 extending radially therefrom. The flange 22 is located close to the first end of the pivot 2. The cover 3 contacts the underside of the flange 22. The pivot 2 has a locking portion 23 formed on the second end thereof. The driving member 5 has a locking hole 51 defined in the first end thereof. The locking portion 23 is connected to the locking hole 51 to connect the pivot 2 to the driving member 5. In one embodiment, the locking portion 23 is threadedly connected to the locking hole 51. The slot 21 is defined axially through the locking portion 23 to securely connect the slide 3, the pivot 2 and the driving member 5 together so that the slide 3 pivots stably.
In one embodiment, the slot 21 is defined in at least one portion of the flange 22, so that the locking portion 23 of the pivot 2 can be completely locked in the locking hole 51. The second leg 42 of the spring is positioned in the slot 21 in the flange 22 so that the locking portion 23 of the pivot 2 does not loose from the locking hole 51 of the driving member 5 due to the pivotable action of the slide 3.
In one embodiment, in order to secure the locking portion 23 of the pivot 2 in the locking hole 51 of the driving member 5, the driving member 5 has a notch 52 defined in the second end thereof, wherein the shape of the notch 52 is designed for being cooperated with a tool such as a screwdriver with a keystone tip.
For the positioning between the insertion hole 11 and the driving member 5, the insertion hole 11 has a support portion 112 formed in the inside thereof. The support portion 112 includes a through hole 113 which communicates with the insertion hole 11. The driving member 5 has a contact portion 53 on the second end thereof, and the contact portion 53 contacts the support portion 112 so that the driving member 5 is positioned in the insertion hole 11.
It is noted that, in one embodiment, the housing 1 is a lock body 7. The lock body 7 has a core 6 and the core 6 has a keyhole 61 which is located corresponding to the installation recess 12 and faces the slide 3. In this embodiment, the housing 1 is mounted to a lock body 7. The lock body 7 has a core 6 and the core 6 has a keyhole 61 which is located corresponding to the installation recess 12 and faces the slide 3. The core 6 is a replaceable core or a fixed core.
As shown in
In another embodiment, the housing 1 does not have the protrusion 13, and the slide 3 has a wall 31 extending from one side thereof and the wall 31 is located opposite to the direction of the resilient force of the spring 4. When the slide 3 is positioned at the close position, the wall 31 of the slide 3 contacts a first side of the housing 1. In order to have an aesthetic appearance for the housing 1, in another embodiment, the housing 1 has a recessed area 14 defined in the first side thereof, and the wall 31 is engaged with the recessed area 14 and does not protrude from the housing 1 when the slide 3 is positioned at the close position. Preferably, the slide 3 has the wall 31, and the housing 1 has the protrusion 13 and the recessed area 14.
As shown in
When the core 6 is a replaceable core, the slide 3 is positioned at the open position, the slide 3 does not cover the core 6 so that the core 6 can be pulled out.
Furthermore, in order to restrict the slide 3 at the open position, in one embodiment, the protrusion 13 has a second end face 132 which faces the first end face 131. When the slide 3 is positioned at the open position, another side of the slide 3 that is located opposite to the direction of the resilient force of the spring 4 contacts the second end face 132.
In order to allow the user to unlock the lock and the slide 3 is automatically positioned at the open position without continuously applying a force to the slide 3, as shown in
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
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