Apparatus and methods pertaining to a moveable well construction apparatus to be electrically energized via an electrical power transmission path extending between a stationary power source and the moveable well construction apparatus. The path comprises cables and connectors. A system comprises a detector operable for generating information indicative of whether the path is properly installed. The system permits the path to be electrically energized when the detector-generated information indicates the path is properly installed, and prevents the path from being electrically energized when the detector-generated information indicates the path is not properly installed.

Latches are disclosed. One latch includes a housing, a cap, a bushing, and a ball. The housing is configured for engagement to the panel. The housing has a longitudinal axis and defines an aperture along the longitudinal axis. The aperture includes a cutout area. The cap and the bushing are mounted within the aperture for rotation about the longitudinal axis. The cap comprises an outer surface including a drive projection and a cutout area. The bushing comprises an upper surface and a sidewall positioned between the cap and the housing. The sidewall defines a drive surface positioned to contact the drive projection of the cap and an opening. The ball is positioned within the opening of the bushing. The ball is configured to be positioned at least partially within the cutout area of the housing or the cutout area of the cap.

Latches are disclosed. One latch includes a housing, a cap, a bushing, and a ball. The housing is configured for engagement to the panel. The housing has a longitudinal axis and defines an aperture along the longitudinal axis. The aperture includes a cutout area. The cap and the bushing are mounted within the aperture for rotation about the longitudinal axis. The cap comprises an outer surface including a drive projection and a cutout area. The bushing comprises an upper surface and a sidewall positioned between the cap and the housing. The sidewall defines a drive surface positioned to contact the drive projection of the cap and an opening. The ball is positioned within the opening of the bushing. The ball is configured to be positioned at least partially within the cutout area of the housing or the cutout area of the cap.

A trapped key interlock system is disclosed. A pair of hollow tubular casings located one inside the other and each having a series of elongate slots are used. When the lock is in a locked condition the elongate slots are aligned as inner and outer pairs with engaging members extending through the pairs of slots is preventing rotational movement of the tubular casings relative to each other. The engaging members are biased towards this locked condition. On insertion of the correctly coded key the engaging members are caused to move against the biasing force out of engagement with the slots in the outer tubular casing thereby allowing the inner tubular casing to rotate relative to the outer tubular casing and moving the lock to an unlocked condition.

A trapped key interlock system is disclosed. A pair of hollow tubular casings located one inside the other and each having a series of elongate slots are used. When the lock is in a locked condition the elongate slots are aligned as inner and outer pairs with engaging members extending through the pairs of slots is preventing rotational movement of the tubular casings relative to each other. The engaging members are biased towards this locked condition. On insertion of the correctly coded key the engaging members are caused to move against the biasing force out of engagement with the slots in the outer tubular casing thereby allowing the inner tubular casing to rotate relative to the outer tubular casing and moving the lock to an unlocked condition.

Electronic locks can provide improved security over mechanical locks. Despite the improved security of electronic locks, there may be occasions where it is desirable to replace the electronic lock. Replacing an electronic lock can be expensive and challenging, particularly if the electronic lock is being replaced by a different electronic lock produced by a different manufacturer. The present disclosure relates to an electronic lock with a replaceable lock core that enables replacing the electronic lock core with a new electronic lock core without needing to replace the entire electronic lock. Further, through use of access controls managed by the electronic lock and electronic key combination, and the unique mechanical configurations disclosed herein, it is possible to replace an electronic lock core without compromising security of a device or location secured by the electronic lock.

Electronic locks can provide improved security over mechanical locks. Despite the improved security of electronic locks, there may be occasions where it is desirable to replace the electronic lock. Replacing an electronic lock can be expensive and challenging, particularly if the electronic lock is being replaced by a different electronic lock produced by a different manufacturer. The present disclosure relates to an electronic lock with a replaceable lock core that enables replacing the electronic lock core with a new electronic lock core without needing to replace the entire electronic lock. Further, through use of access controls managed by the electronic lock and electronic key combination, and the unique mechanical configurations disclosed herein, it is possible to replace an electronic lock core without compromising security of a device or location secured by the electronic lock.

A programmable electronic lock (1) comprising at least one electronic key (10) engageable in an electronic lock (1) and configured to allow the opening and/or closing of a shutter (100) by means of too a security code; a containment body (20) which can be mounted on the shutter (100); a block (30), which includes reversible locking/unlocking means (32) able to be electrically actuated and configured to determine a clamping condition or a disengagement condition. The electronic lock (1) comprises reversible locking/unlocking means (32) having a shaped element (32a) rotatable so as to determine, in a first position, a mechanical interference between the block (30) and the containment body (20), so as to prevent a relative movement therebetween, and, in a second position, a condition of no mechanical interference between the block (30) and the containment body (20), so as to allow a relative movement between said block (30) and the containment body (20).

A programmable electronic lock (1) comprising at least one electronic key (10) engageable in an electronic lock (1) and configured to allow the opening and/or closing of a shutter (100) by means of too a security code; a containment body (20) which can be mounted on the shutter (100); a block (30), which includes reversible locking/unlocking means (32) able to be electrically actuated and configured to determine a clamping condition or a disengagement condition. The electronic lock (1) comprises reversible locking/unlocking means (32) having a shaped element (32a) rotatable so as to determine, in a first position, a mechanical interference between the block (30) and the containment body (20), so as to prevent a relative movement therebetween, and, in a second position, a condition of no mechanical interference between the block (30) and the containment body (20), so as to allow a relative movement between said block (30) and the containment body (20).

Apparatus and methods pertaining to a moveable well construction apparatus to be electrically energized via an electrical power transmission path extending between a stationary power source and the moveable well construction apparatus. The path comprises cables and connectors. A system comprises a detector operable for generating information indicative of whether the path is properly installed. The system permits the path to be electrically energized when the detector-generated information indicates the path is properly installed, and prevents the path from being electrically energized when the detector-generated information indicates the path is not properly installed.