A module or fitting for applying and controlling the application of a liquid, gas, vapor, or spray, in an embodiment for applying a lubricant to the neck guides of an air conveyance line configured to slidingly move containers supported on the neck guides, the modules comprising a housing section having a lubricant reservoir formed therein, and a container support section, and defining a slot for securing the fittings to a neck guide support rail in a position interspersed along the air conveyor rails with the neck guides, with the container support surface in alignment with the neck guide support surface, and channels formed in the modules for dispensing the on the container support surface in close proximity to the container support flanges which are slidingly supported.

A lubrication system for a roller chain. The lubrication system provides a lubricant reservoir, at least one piston pump, and synchronization means. The synchronization means has engaging means dedicated to mechanically mesh with roller chain in motion, and actuating means fastened in motion with the synchronization means the actuating means being in constant mechanical cooperation with a piston pump.

The bottom tier (24) of a conveyor belt (22) arranged in a spiral stack (26) is supported by and driven by inner and outer drive chains (28) and (30). The inner and outer drive chains are supported on and ride along support rails (32) and (34). The inner and outer drive chains are driven by a drive system (35) composed of inner and outer drive systems (36) and (38), each including a drive motor with a drive gear engaged with the inner and outer drive chains. Each of the motors is controlled by a separate variable frequency drive unit (114) and (116) which in turn are controlled by a control system (44). The control system (44) also controls the operation of a lubrication system (40) that supplies lubricant to the drive chains.

The bottom tier (24) of a conveyor belt (22) arranged in a spiral stack (26) is supported by and driven by inner and outer drive chains (28) and (30). The inner and outer drive chains are supported on and ride along support rails (32) and (34). The inner and outer drive chains are driven by a drive system (35) composed of inner and outer drive systems (36) and (38), each including a drive motor with a drive gear engaged with the inner and outer drive chains. Each of the motors is controlled by a separate variable frequency drive unit (114) and (116) which in turn are controlled by a control system (44). The control system (44) also controls the operation of a lubrication system (40) that supplies lubricant to the drive chains.

A transport system for containers in the beverage industry, with a first container conveyor including a conveyor belt for conveying the containers, and a lubrication system including an applicator for applying a lubricant to the conveyor belt of the first container conveyor, wherein the transport system comprises a second container conveyor with a further conveyor belt for conveying the containers, and the lubrication system includes a mobile robot which has the applicator arranged thereon and a floor-supported undercarriage, for applying the lubricant in an automated selectively to the conveyor belt of the first container transporter or the conveyor belt of the second container conveyor.

A drive device configured to drive a container transporting device for transporting a container is provided. The drive device includes a motor which generates power, a brake configured to brake a movement generated by the power of the motor, and a speed reducer which has an output shaft connected to a driven portion of the container transporting device, includes a lubricant enclosed therein, and is configured to decelerate the power of the motor and transmit the decelerated power to the output shaft, in which the speed reducer, the brake, and the motor are disposed in this order from above in a vertical direction, a first seal member configured to block the lubricant is provided between the speed reducer and the brake, and the brake includes an accommodation chamber which accommodates a leaked lubricant in a case where the lubricant enclosed in the speed reducer leaks past the first seal member.

A lubrication system for a roller chain. The lubrication system provides a lubricant reservoir, at least one piston pump, and synchronization means. The synchronization means has engaging means dedicated to mechanically mesh with roller chain in motion, and actuating means fastened in motion with the synchronization means the actuating means being in constant mechanical cooperation with a piston pump.

A drive device configured to drive a container transporting device for transporting a container is provided. The drive device includes a motor which generates power, a brake configured to brake a movement generated by the power of the motor, and a speed reducer which has an output shaft connected to a driven portion of the container transporting device, includes a lubricant enclosed therein, and is configured to decelerate the power of the motor and transmit the decelerated power to the output shaft, in which the speed reducer, the brake, and the motor are disposed in this order from above in a vertical direction, a first seal member configured to block the lubricant is provided between the speed reducer and the brake, and the brake includes an accommodation chamber which accommodates a leaked lubricant in a case where the lubricant enclosed in the speed reducer leaks past the first seal member.

A lubricant distributor of a lubrication system configured to lubricate one or more components of a passenger conveyor is provided including a housing having an input opening, a plurality of output openings and a shaft opening. A valve stem including a bore and a plurality of lubricant outlets is generally arranged within the shaft opening. The bore is configured to fluid couple the input opening to each of the lubricant outlets. Each lubricant outlet is associated with and configured to provide lubricant to at least one of the plurality of output openings at a distinct position of the valve stem. The lubrication system may include multiple lubricant distributors connected by a lubrication fluid circuit having a pump, motor and lubricant source.

A conveyor lubricating system includes a lubricant feed line, a lubricant applicator including a lubricant flow regulator and a lubricant brush, and a cantilevered support arm including a first rigid member and a second rigid member connected together by a pivoting joint. The lubricant flow regulator is fluidly connected to the lubricant feed line and the lubricant brush is fluidly connected to the lubricant flow regulator. The lubricant brush includes bristles and a manifold to distribute the conveyor lubricant across a width of the lubricant brush. The first rigid member is secured to the lubricant applicator at an end opposite the pivoting joint and the second rigid member is secured to a stationary support such that the second rigid member is cantilevered over a conveyor and such that the lubricant brush contacts the conveyor. An associated method of applying conveyor lubricant to a conveyor is also provided.