The Arms Power Cleaning Lubrication Coupler and Method enables gun barrel cleaning implements to be rotated by attachment to a chock of a motorized device such as to an electrical or battery powered drill. The coupler includes a body member having a tubular and linear configuration that defines an interior space. A first end of the body member is open and configured to receive and engage a drill chuck of the motorized device. A second end of the body member is open and includes an inner surface that is threaded and operable to receive and engage a cleaning implement such as a brush. In use, the motor may be engaged to rotate the wheel chuck which, in turn, rotates the body member, drill chuck and cleaning implement. The rotating cleaning implement provides enhances cleaning of an inside of a firearm barrel.

A method for manufacturing a firearm cleaning patch includes: providing a sheet of a material; cutting a plurality of hex shaped patches from the sheet of a material; and perforating or marking at least one slit on at least one hex shaped patch. A firearm cleaning patch and a method for cleaning the barrel of a firearm are also described.

A gun oil composition adapted specifically for the needs and requirements of modern firearms. The gun oil composition improves lubricity and gun performance under normal and extreme heat and pressure, minimizes and largely prevents the build-up of carbon and debris fouling on metal and non-metal components of the firearm, and substantially reduces cleaning time, while providing increased protection against environmental components such as dust, dirt and rust. The gun oil composition can include a base oil having at least a high viscosity index, an oil having at least a medium viscosity index with a detergent additive, a low viscosity penetrating oil, and a sulfurized ester.

A gun oil composition adapted specifically for the needs and requirements of modern firearms. The gun oil composition improves lubricity and gun performance under normal and extreme heat and pressure, minimizes and largely prevents the build-up of carbon and debris fouling on metal and non-metal components of the firearm, and substantially reduces cleaning time, while providing increased protection against environmental components such as dust, dirt and rust. The gun oil composition can include a base oil having at least a high viscosity index, an oil having at least a medium viscosity index with a detergent additive, a low viscosity penetrating oil, and a sulfurized ester.

A lubricant for firearms includes a base and nanoparticles dispersed throughout the base. The base may include a hydrocarbon or a mixture of hydrocarbons. The base may be in a liquid form or in a semisolid form. Fat from an animal source, such as porcine fat or, more specifically, bacon fat, may be employed as a hydrocarbon of the base. Fat from an animal source may be rendered or otherwise clarified. The nanoparticles may include nanospheres, which may have an average diameter of about 100 nm or less. The lubricant may also include a hydrocarbon from a vegetable source (e.g., a vegetable oil, etc.), a hydrocarbon from a petrochemical source, and/or a synthetic petrochemical lubricant. The lubricant may include a fragrance to impart it with a desired scent (e.g., a bacon scent, etc.). Methods for lubricating and cleaning metallic surfaces of firearms are also disclosed. In such a method, nanoparticles from a lubricant may be introduced into and retained within microscopic crevices in the metallic surfaces.

A lubricant for firearms includes a base and nanoparticles dispersed throughout the base. The base may include a hydrocarbon or a mixture of hydrocarbons. The base may be in a liquid form or in a semisolid form. Fat from an animal source, such as porcine fat or, more specifically, bacon fat, may be employed as a hydrocarbon of the base. Fat from an animal source may be rendered or otherwise clarified. The nanoparticles may include nanospheres, which may have an average diameter of about 100 nm or less. The lubricant may also include a hydrocarbon from a vegetable source (e.g., a vegetable oil, etc.), a hydrocarbon from a petrochemical source, and/or a synthetic petrochemical lubricant. The lubricant may include a fragrance to impart it with a desired scent (e.g., a bacon scent, etc.). Methods for lubricating and cleaning metallic surfaces of firearms are also disclosed. In such a method, nanoparticles from a lubricant may be introduced into and retained within microscopic crevices in the metallic surfaces.

A method for manufacturing a firearm cleaning patch includes: providing a sheet of a material; cutting a plurality of hex shaped patches from the sheet of a material; and perforating or marking at least one slit on at least one hex shaped patch. A firearm cleaning patch and a method for cleaning the barrel of a firearm are also described.

A firearm and tool oiling chamber comprised of an oil less air compressor, sealed chamber, oil atomizer and air filter. Said system introduces air through the oil atomizer breaking oil down to a fine vapor allowing the vapor to cover all surfaces of firearm or tool. As the vapor enters the chamber, being heavier than air it forces air out through the exhaust line and filter. Any escaping oil is caught in filter. The oil is able to cover all surfaces of firearm or tool and to penetrate into areas that hand oiling does not reach using much less oil than conventional methods.

A firearm and tool oiling chamber comprised of an oil less air compressor, sealed chamber, oil atomizer and air filter. Said system introduces air through the oil atomizer breaking oil down to a fine vapor allowing the vapor to cover all surfaces of firearm or tool. As the vapor enters the chamber, being heavier than air it forces air out through the exhaust line and filter. Any escaping oil is caught in filter. The oil is able to cover all surfaces of firearm or tool and to penetrate into areas that hand oiling does not reach using much less oil than conventional methods.

Disclosed is an automated gun barrel cleaning system (100) and a method thereof for straight hollow cylindrical objects, preferably gun barrels. The system (100) enables scrubbing, mopping, lubrication and wiping of the gun barrel without the need to remove the cleaning device out of the gun barrel during cleaning and to replace the brush or mopping/wiping cloth. The method of cleaning provides a time-stamped cleaning data to monitor the condition of the gun barrel and to estimate quality and effective service life of the gun barrel. The system (100) comprises of a cleaning device 102 connected to a main controller unit 106 wherein the cleaning device 102 includes drive wheel assembly 210, a driven wheel assembly 240, a spray nozzle assembly 260, a vision system 270 and a cleaning assembly 220 providing controlled scrubbing, mopping and wiping functions with controlled supply of pressurized cleaning agent and lubricant oil.