A system for remotely controlling and documenting valve lubrication. The system includes an operator unit programmed to communicate with a remote controller unit that actuates the transfer of lubricant to user-selected valves.

A system for remotely controlling and documenting valve lubrication. The system includes an operator unit programmed to communicate with a remote controller unit that actuates the transfer of lubricant to user-selected valves.

The present invention relates to a clipping machine as well as a method for controlling a clipping machine for producing sausage-shaped products by filling a filling material into a tubular or bag-shaped packaging casing, having at least one first drivable component, at least one drive device for driving said at least one first drivable component, a control unit for controlling the operation of said at least one drive device of said at least one first drivable component, and at least a first sensor unit associated with the at least one first drivable component and coupled to the control unit. The clipping machine further comprises a lubricating device including a supply of lubricant and a pump unit, the lubricating device being connected to at least one first lubricating point of the at least one first drivable component of the clipping machine, by a lubricating pipe through which lubricant is delivered to the at least one first lubricating point by the pump unit. The lubricating device being controlled by the control unit, wherein the control unit is adapted to operate the lubricating device according to a predefined lubricating schedule for executing lubricating events to the at least one first drivable component. The control unit is adapted to vary the lubricating schedule upon a signal of the first sensor unit indicating specific operating conditions of the at least one first drivable component.

The present invention relates to a clipping machine as well as a method for controlling a clipping machine for producing sausage-shaped products by filling a filling material into a tubular or bag-shaped packaging casing, having at least one first drivable component, at least one drive device for driving said at least one first drivable component, a control unit for controlling the operation of said at least one drive device of said at least one first drivable component, and at least a first sensor unit associated with the at least one first drivable component and coupled to the control unit. The clipping machine further comprises a lubricating device including a supply of lubricant and a pump unit, the lubricating device being connected to at least one first lubricating point of the at least one first drivable component of the clipping machine, by a lubricating pipe through which lubricant is delivered to the at least one first lubricating point by the pump unit. The lubricating device being controlled by the control unit, wherein the control unit is adapted to operate the lubricating device according to a predefined lubricating schedule for executing lubricating events to the at least one first drivable component. The control unit is adapted to vary the lubricating schedule upon a signal of the first sensor unit indicating specific operating conditions of the at least one first drivable component.

A lubricating oil station having a pump that pumps oil into a bearing shell, wherein the quantity of oil is controlled by designing the pump with control of the rotational speed, the rotational speed being controlled by a control unit.

A lubricating oil station having a pump that pumps oil into a bearing shell, wherein the quantity of oil is controlled by designing the pump with control of the rotational speed, the rotational speed being controlled by a control unit.

A lubrication system for pneumatic machinery includes a lubricant vessel and a lubricant-control valve connected to a drop-dispensing body to discharge a demanded drop of lubricant inside a sealable drip chamber, which has a pressurized-gas inlet and a lubricated-gas outlet. A lubricator-pad assembly includes a lubricator-pad holder securing a lubricator pad to receive the drop of lubricant. Pressurized gas flows through the holder when exiting the drip chamber. A drop detector detects the demanded drop of lubricant. A controller connects to the drop detector and receives an indication that the demanded drop of lubricant has been detected. When a lubrication-demand tracker of the controller determines, based upon time or flow measurement or a combination thereof, that a lubrication threshold is reached, the controller initiates a drop cycle. If a maximum drop time passes before the demanded drop of lubricant is detected, the controller activates a missing-drop cycle.

A lubrication system for pneumatic machinery includes a lubricant vessel and a lubricant-control valve connected to a drop-dispensing body to discharge a demanded drop of lubricant inside a sealable drip chamber, which has a pressurized-gas inlet and a lubricated-gas outlet. A lubricator-pad assembly includes a lubricator-pad holder securing a lubricator pad to receive the drop of lubricant. Pressurized gas flows through the holder when exiting the drip chamber. A drop detector detects the demanded drop of lubricant. A controller connects to the drop detector and receives an indication that the demanded drop of lubricant has been detected. When a lubrication-demand tracker of the controller determines, based upon time or flow measurement or a combination thereof, that a lubrication threshold is reached, the controller initiates a drop cycle. If a maximum drop time passes before the demanded drop of lubricant is detected, the controller activates a missing-drop cycle.

A hydraulic fracturing plan executable by a hydraulic fracturing system to hydraulically fracture a plurality of oil and gas wells. In one or more embodiments, the execution of the hydraulic fracturing plan implements the following steps: communicating fluid to a first well via a manifold and a first valve, the first valve being associated with both the manifold and the first well; and, in response to determining that the fluid communicated via the manifold has satisfied one or more conditions: opening a second valve; communicating fluid to a second well via the second valve; and closing the first valve after opening the second valve.

A hydraulic fracturing plan executable by a hydraulic fracturing system to hydraulically fracture a plurality of oil and gas wells. In one or more embodiments, the execution of the hydraulic fracturing plan implements the following steps: communicating fluid to a first well via a manifold and a first valve, the first valve being associated with both the manifold and the first well; and, in response to determining that the fluid communicated via the manifold has satisfied one or more conditions: opening a second valve; communicating fluid to a second well via the second valve; and closing the first valve after opening the second valve.