The present application relates to a compression latch. More particularly, the present application relates to a compression latch capable of folding down in each of the locked and unlocked positions and coupling with a hinged body without the need for a separate housing.
Compression latches are a common mechanism for latching a door shut, especially on marine vehicles. For example, compression latches are commonly used to selectively maintain a boat door or hatch in a closed position. One example of such a latch is shown in U.S. Pat. No. 6,953,209, depicted herein as
The latch 1100 of
Moreover, due to the design of the housing 1105, when installed in a hatch, it does not create a flush appearance, thus causing the housing 1105 to extend from the planar surface of the hatch, not only affecting the aesthetics of the hatch, but also creating a projection that can cause physical harm, for example, to those walking on a desk boat by stubbing a toe or stepping on the latch housing.
The present application discloses a compression latch adapted to fold down in both the locked and unlocked positions and compress a washer when in the closed position to minimize leaking potential. The latch can be coupled directly to a door or hatch, and does not require a separate housing which is then coupled to the door or hatch. The present invention reduces leak points, allows greater customizability, creates a flush appearance, and reduces the possibility of injury.
The compression latch of the present application includes a shaft adapted to penetrate an aperture disposed in a recess of a hinged body. A handle is pivotably coupled to the shaft and adapted to be disposed in the recess on a first side of the hinged body. A first cam is disposed on the shaft opposite the handle and adapted to be disposed on a second side of the hinged body. The first cam is adapted to be selectively rotated between locked and unlocked positions in response to rotation of the handle.
A body is disposed on the shaft between the first cam and the hinged body, and a cap is disposed on the shaft between the first cam and the body. A bias member is disposed on the shaft between the body and the cap and adapted to bias the body toward the second side of the hinged body. In response to the handle being pivoted to an upright position, the shaft is adapted to be biased in a downwardly direction and the first cam is adapted to be rotated between the locked and unlocked positions.
The latch may also include one or more upper washers adapted to be circumferentially disposed on the shaft between the handle and the hinged body. The upper washers may include a first washer disposed proximal to the hinged body, a second washer disposed proximal to the handle, and a third washer disposed between the first and second washers. The first washer may be a sealing washer, the second washer may be a wear washer, and the third washer may be adapted to prevent over compression of the first washer.
A trim ring may also be coupled to the hinged body above the recess. The trim ring may include an aperture or opening to allow the handle to be pivoted between the upright position and a folded down position. The trim ring may include a locking tab extending into the recess. In this aspect, the handle may also include a handle lock. The handle lock may include a lock cylinder extending through the handle and a second cam adapted to extend into the recess when the handle is in the folded down position. The second cam is adapted to engage the locking tab in a handle locked position and be disengaged from the locking tab in a handle unlocked position.
For the purpose of facilitating an understanding of the subject matter sought to be protected, there are illustrated in the accompanying drawings embodiments thereof, from an inspection of which, when considered in connection with the following description, the subject matter sought to be protected, its construction and operation, and many of its advantages should be readily understood and appreciated.
It should be understood that the comments included in the notes as well as the materials, dimensions and tolerances discussed therein are simply proposals such that one skilled in the art would be able to modify the proposals within the scope of the present application.
While the devices, methods and systems disclosed herein are susceptible to embodiments in many different forms, there are shown in the drawings, and herein described in detail, certain embodiments of the devices, methods and systems with the understanding that the present disclosure is to be considered as an exemplification of the principles of the devices, methods and systems and is not intended to limit the broad aspects to the embodiments illustrated.
The present application discloses a compression latch that can be folded down in both the locked and unlocked positions. The latch is adapted to compress one or more washers when in the closed position. The latch can couple directly to a hinged body such as a door or hatch, and does not require a separate housing that is coupled to the hinged body. The present invention reduces leak points, creates a flush installation on a hatch, and allows greater customizability. By folding down in both the locked and unlocked positions, the latch reduces the possibility of injury where a user could trip or otherwise injure himself/herself on an outwardly-extending latch.
As shown in
In an embodiment, upper washer 102b is disposed on the upper washer 120c, and the upper washer 120a is disposed on the upper washer 120b. The upper washer 120b may be a nylon washer that is cup-shaped having a cavity in a bottom of the upper washer 120b to receive the upper washer 120c (for example, as illustrated in
A first cam 130 can be coupled to the shaft 110 by an upper nut 135 and a lower nut 140, and when rotated, can cooperatively releasably couple the hinged body H to a base B (illustrated in
As shown in
The shaft 110 can include a first portion 110a proximate the handle 105 and a second portion 115b opposite the first portion 110a and proximate the first cam 130. The first portion 110a can have a smooth finish and, as discussed above, can include a hole 170 for receiving the pin 165 of the joint 115. The second portion 110b can include threads that couple with the upper nut 135 and lower nut 140 or any other threaded body. Unthreaded bodies can also be disposed along the second portion 110b, such as the upper washers 120a-120c and lower washer 125, or any other structure.
A bias member 175 can be provided along the shaft 110, and can bias the cap 150 against the body 145 to push the lower washer 125 against the hinged body H and form a substantially water-tight seal. The cap 150 may also be prevented from sliding down on the shaft 110 by a nut. The bias member 175 may also cause the cap 150 to be pushed against the nut to cause the shaft 110 to be shifted downwardly when the handle 105 is in the upstanding position. As shown, the bias member 175 is a coil spring, but any structure capable of imparting bias can be implemented without departing from the spirit and scope of the present application. For example, the bias member 175 can be a leaf spring or any other biasing structure.
At this stage, the hinged body H is not yet capable of being opened from the base B because the first cam 130 is positioned just below the base B. Accordingly, the handle 105 can be rotated, which then rotates the first cam 130 away from the base B and allows the hinged body H to be lifted, as shown in
In an embodiment, moving the handle 105 to the unlocked, folded-down position does not compress the bias member 175 like when the handle 105 is moved into the locked, folded-down position. As shown in
Referring to
In an embodiment, the handle 105 of the latch 100 may be modified to include a handle locking feature. For example, referring to
In the locked position, the handle lock 200 prevents the handle 205 from being lifted and the latch 100 being moved to the unlocked position. To move the handle lock 200 from the locked position to an unlocked position, a user inserts a key into a key hole 225 and rotates the key (for example, about 90 degrees) to cause the second cam 215 to rotate away from the locking tab 220, as illustrated in
Referring to
The trim ring 180 and the handle lock 200 provide additional security by allowing the handle 205 to be locked and unlocked by a key. This prevents unauthorized opening of the hinged body H by someone other than the user holding the key.
The above structure provides latches 100 and 200 that can be integral with the hinged body H and therefore do not require a separate housing that the latches 100 and 200 are disposed within. This structure provides several advantages, compared to the structure requiring a housing, for example, as disclosed in
The matter set forth in the foregoing description and accompanying drawings is offered by way of illustration only and not as a limitation. While particular embodiments have been shown and described, it will be apparent to those skilled in the art that changes and modifications may be made without departing from the broader aspects of applicants' contribution. The actual scope of the protection sought is intended to be defined in the following claims when viewed in their proper perspective based on the prior art.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 61/822,532, filed May 13, 2013, and entitled Compression Latch, the content of which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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61822532 | May 2013 | US |