Claims
- 1. A mechanism for releasably locking two or more objects which comprises:
- (a) a base having a plurality of transverse ridges, each ridge defining a ridge hole such that the ridge holes are axially aligned with one another, the base being mountable to one of the objects;
- (b) a flange dimensioned to fit closely between two of the ridges, the flange defining a flange hole axially alignable with and of equal diameter to the ridge holes, the flange being mountable to another of the objects;
- (c) a pin axially translatable in the holes of the ridges and flange so that the flange is connectable to the base, the pin having a bias in a given axial direction;
- (d) a means for effecting a change in the bias on the pin, the effecting means being movable relative to the pin so as to permit a change in bias on the pin without moving the pin relative to the base, the change in bias including the possibility of a change in direction of bias only, a change in strength of bias only or a change in both direction and strength of bias.
- 2. The locking mechanism of claim 1 wherein the flange defines a flat base engagement surface, the base engagement surface being faceable against the section of the base connecting two of the ridges, whereby the flange is fixedly connectable to the base.
- 3. The mechanism of claim 2 further comprising a handle connected normally to the pin.
- 4. The mechanism of claim 1 wherein the flange defines a rounded surface concentric with the axis of the pin so that the flange is pivotable about the pin.
- 5. The mechanism of claim 1 wherein the effecting means further comprises:
- (a) a protruding member on the pin;
- (b) a coil spring on the pin between two of the ridges, the protruding member extending between the coils of the spring such that rotation of the spring translates the spring relative to the pin.
- 6. The mechanism of claim 5 wherein the base defines two locking slots between the two ridges, one slot situated immediately adjacent to one of the two ridges, another slot spaced from the other of the two ridges, the protruding member engageable with the slots.
- 7. The mechanism of claim 1 wherein the biasing means further comprises:
- (a) a dowel protruding outwardly unequal distances from diametrically opposite sides of the pin;
- (b) a coil spring concentric with the pin between two of the ridges, the dowel protruding between the coils of the spring such that rotation of the spring translates the spring relative to the pin;
- (c) the base defining a locking slot between the two ridges.
- 8. The locking mechanism of claim 1 wherein the biasing means further comprises:
- (a) a dowel insertable through the pin, the dowel protruding outwardly equidistantly from diametrically opposite sides of the pin;
- (b) an coil spring concentric with the pin and compressed between the dowel and one of the ridges, whereby axial translation of the pin from an engaged position to a disengaged position further compresses the spring;
- (c) a pin nub key protruding normally from the pin's cylindrical surface near one end of the pin;
- (d) the flange and each ridge defining a keyway at the perimeter of their respective through holes, the keyways being axially aligned with each other and dimensioned to permit passage of the pin nub key;
- (e) the two ridges each defining a keystop grooved into the perimeter of its respective through hole, each keystop being angularly connected to the keyway and dimensioned to retain securely the pin nub key so that the pin may be locked in either the engaged or disengaged position.
- 9. The mechanism of claim 4 further comprising a handle connected at one end of the pin normally to the pin axis whereby the handle facilitates axial translation and rotation of the pin.
- 10. The mechanism of claim 9 wherein the effecting means further comprises:
- (a) a dowel insertable through the pin, the dowel protruding outwardly equidistantly from diametrically opposite sides of the pin;
- (b) a coil spring concentric with the pin between the two ridges, the dowel protruding between the coils of the spring such that rotation of the spring in one direction moves the spring relative to the pin, so that the bias on the pin toward an engaged position is increased and rotation of the spring in the opposite direction moves the spring relative to the pin so that the bias on the pin toward a disengaged position is increased.
- 11. The mechanism of claim 10 wherein the base defines two locking slots asymmetrically situated between two of the ridges, one slot situated immediately adjacent to one ridge, the other slot spaced from another ridge and towards the one slot, the dowel protruding into the one slot when the pin is locked in an engaged position, the dowel protruding into the other slot when the pin is locked in a disengaged position.
- 12. The positive locking mechanism of claim 9 wherein the biasing means further comprises:
- (a) a dowel insertable into and firmly fastenable within a hole defined by the pin, the dowel protruding outwardly an equal distance from the diametrically opposite sides of the pin;
- (b) a coil spring concentric with the pin between the dowel and one of the ridges, wherein axial translation of the pin form an engaged position to a disengaged position further compresses the spring;
- (c) a pin nub key protruding normally from the pin's cylindrical surface near an opposite end of the pin;
- (d) the flange and each ridge defining a keyway grooved into the perimeter of their respective holes, the keyways being axially aligned and dimensioned to permit passage of the pin nub key;
- (e) the two ridges each defining a keystop grooved into the perimeter of its respective hole, each keystop being angularly connected to the keyway and dimensioned to securely retain the pin nub key, whereby the pin may be locked in either the engaged or disengaged position.
- 13. The mechanism of claim 1 wherein changing the bias on the pin increases the bias on the pin in one axial direction and thereby increases the bias on the pin toward an engaged position where the flange is locked to the base.
- 14. The mechanism of claim 13 wherein the effecting means is moveable relative to the pin so as to change the bias of the pin in the opposite axial direction, whereby the pin is biased away from the engaged position.
GOVERNMENT INTEREST
The invention described herein may be manufactured, used, and licensed by or for the Government for governmental purposes without payment to me of any royalty thereon.
US Referenced Citations (9)
Foreign Referenced Citations (4)
Number |
Date |
Country |
92786 |
Sep 1871 |
FRX |
266960 |
Aug 1929 |
ITX |
3776 |
Jan 1890 |
GBX |
6325 |
Mar 1914 |
GBX |