Abstract: A valve stem structure disposed at a rim of a tire of a vehicle for connecting to an electronic tire pressure monitoring device in the tire is provided. The valve stem structure includes a tube, an air core, and a conducting wire. The tube has a first inlet, a first outlet communicating with an inner space of the tire, and a second outlet. The air core is switchably disposed at the first inlet, and a compressed air is injected into the tire via the first inlet and the first outlet by switching the air core. The conducting wire is disposed in the tube, and an end of the conducting wire extends out of the tube via the second outlet to be electrically connected to the electronic tire pressure monitoring device. A power source charges the electronic tire pressure monitoring device via the conducting wire.

Abstract: A valve stem structure disposed at a rim of a tire of a vehicle for connecting to an electronic tire pressure monitoring device in the tire is provided. The valve stem structure includes a tube, an air core, and a conducting wire. The tube has a first inlet, a first outlet communicating with an inner space of the tire, and a second outlet. The air core is switchably disposed at the first inlet, and a compressed air is injected into the tire via the first inlet and the first outlet by switching the air core. The conducting wire is disposed in the tube, and an end of the conducting wire extends out of the tube via the second outlet to be electrically connected to the electronic tire pressure monitoring device. A power source charges the electronic tire pressure monitoring device via the conducting wire.

Abstract: A device is provided to assist a golfer in keeping the golf grip of their clubs dry if they are compelled to lay a club on the ground. In particular, a disk-like member is adapted to be received on the shaft of a golf club in such a way that when the golf club is laid down on the ground, the disk-like member prevents the golf grip from contacting the ground, and thereby helps to keep the grip dry.

Abstract: A shock absorbing trailer hitch generally includes a socket adapted to lock onto a ball connected to the towing vehicle. The socket is connected to a lower support member which supports the bottom of a shock absorbing assembly. An inner tube extends up from the socket and lower tube through the shock absorbing assembly. The upper portion of the shock absorbing assembly is connected to an upper support member that is connected to the towed vehicle. A bearing is secured to the upper tube that slidably but non-rotatably receives the upper portion of the inner tube. The shock absorbing assembly includes rubber springs that absorb the forces experienced by the trailer hitch.