Methods and systems are shown lubricating a cylindrical bore. In one example, a lubrication system comprises a piston-shaped bore lubricator with a plunger portion including a soft, porous material arranged in an external groove at a distal end of the plunger portion, the groove including holes through which a lubricant is ejected into the soft, porous material as the plunger portion is positioned in a bore. A proximal end of the piston-shaped plunger includes threads for coupling a squeezable lubricant source bottle, where the lubricant is ejected through the felt via an actuation of the squeezable bottle, or by gravity, or via a different kind of dispenser. An outside diameter of the piston may be adjusted to fit an interior diameter of the bore, and a size of the holes may be adjusted to increase or decrease a flow rate of the lubricant.

A hose lubricating assembly includes a handle that has an interior space therein. A reservoir is positioned in the interior space and the reservoir contains a fluid lubricant. A tube is coupled to the handle such that the tube is in fluid communication with the reservoir and the tube receives the fluid lubricant. The tube is selectively inserted between a hose and a stem that the hose is coupled to. Thus, the fluid lubricant is released between the hose and the stem for removing the hose from the stem. A plunger unit is movably coupled to the handle and the plunger unit selectively urges the fluid lubricant outwardly through the tube. A valve is movably positioned within the handle and the valve is in fluid communication with the reservoir. The valve is selectively opened and closed for inhibiting and facilitating the fluid lubricant to be released from the reservoir.

A hose lubricating assembly includes a handle that has an interior space therein. A reservoir is positioned in the interior space and the reservoir contains a fluid lubricant. A tube is coupled to the handle such that the tube is in fluid communication with the reservoir and the tube receives the fluid lubricant. The tube is selectively inserted between a hose and a stem that the hose is coupled to. Thus, the fluid lubricant is released between the hose and the stem for removing the hose from the stem. A plunger unit is movably coupled to the handle and the plunger unit selectively urges the fluid lubricant outwardly through the tube. A valve is movably positioned within the handle and the valve is in fluid communication with the reservoir. The valve is selectively opened and closed for inhibiting and facilitating the fluid lubricant to be released from the reservoir.

Methods and systems are shown lubricating a cylindrical bore. In one example, a lubrication system comprises a piston-shaped bore lubricator with a plunger portion including a soft, porous material arranged in an external groove at a distal end of the plunger portion, the groove including holes through which a lubricant is ejected into the soft, porous material as the plunger portion is positioned in a bore. A proximal end of the piston-shaped plunger includes threads for coupling a squeezable lubricant source bottle, where the lubricant is ejected through the felt via an actuation of the squeezable bottle, or by gravity, or via a different kind of dispenser. An outside diameter of the piston may be adjusted to fit an interior diameter of the bore, and a size of the holes may be adjusted to increase or decrease a flow rate of the lubricant.

A servo press machine includes an eccentric shaft, a connecting rod, a slide, an eccentric shaft-side sliding surface, a connecting rod-side sliding surface, an oil supply port, and a supply mechanism. The oil supply port opens on the eccentric shaft-side sliding surface or the connecting rod-side sliding surface, and supplies a lubricant between the eccentric shaft-side sliding surface and the connecting rod-side sliding surface. The supply mechanism supplies the lubricant to the oil supply port. The eccentric shaft-side sliding surface is formed on the eccentric shaft that is rotationally driven by a servomotor. The oil supply port is formed on the connecting rod-side sliding surface of the connecting rod that moves upward and downward due to the rotational driving of the eccentric shaft.

The present invention relates to a lubricant applicator for applying lubricant to a fastener. The applicator includes engagement means for engaging with and applying lubricant to the fastener. The engagement means typically includes an absorbent felt liner. The applicator further includes a dispenser for dispensing lubricant to the engagement means.

The present invention relates to a lubricant applicator for applying lubricant to a fastener. The applicator includes engagement means for engaging with and applying lubricant to the fastener. The engagement means typically includes an absorbent felt liner. The applicator further includes a dispenser for dispensing lubricant to the engagement means.

A treadmill lubrication system and method is provided. In a preferred embodiment, the lubrication system comprises a spray bottle with a nozzle including an extended tube through which a silicone-based lubricant may be sprayed. The extended tube of the nozzle is designed to be inserted underneath the belt of a treadmill with the tube having a length sufficient to reach the treadmill components that require lubrication. The extended tube is preferably constructed from a material that provides enough rigidity to prevent significant bending and/or kinking of the tube, while still allowing for enough flexibility that the tube can be inserted underneath the belt of a treadmill without breaking or snapping in half.

A treadmill lubrication system and method is provided. In a preferred embodiment, the lubrication system comprises a spray bottle with a nozzle including an extended tube through which a silicone-based lubricant may be sprayed. The extended tube of the nozzle is designed to be inserted underneath the belt of a treadmill with the tube having a length sufficient to reach the treadmill components that require lubrication. The extended tube is preferably constructed from a material that provides enough rigidity to prevent significant bending and/or kinking of the tube, while still allowing for enough flexibility that the tube can be inserted underneath the belt of a treadmill without breaking or snapping in half.

A dispensing device for storing and dispensing oils and other viscous liquids is provided. The device comprises an elongate body member and a dispensing tip. The dispensing tip comprises a valve member that is biased toward a closed position to prevent unwanted egress of device contents. In order to dispense device contents, a force is applied to the contents within the device, and that force is transmitted to the valve member to urge the valve member toward a temporary open position and allow contents to be dispensed.