A method and apparatus for servicing a shock absorber on a landing gear assembly of an aircraft in a weight-on-wheels state is disclosed. The shock absorber includes at least one chamber containing both hydraulic fluid and a gas in fluid communication with each other. The apparatus includes a source
A method and apparatus for servicing a shock absorber on a landing gear assembly of an aircraft in a weight-on-wheels state is disclosed. The shock absorber includes at least one chamber containing both hydraulic fluid and a gas in fluid communication with each other. The apparatus includes a source of gas and a source of hydraulic fluid. The amount of hydraulic fluid in the chamber is corrected, preferably such that the chamber is then filled with a known amount of degassed hydraulic fluid. The process may be at least semi-automatically performed, for example under the control of a control unit. By delivering a pre-set mass of gas into the chamber, there is no need to rely on a measure of gas pressure or H-dimension (h) when servicing the shock absorber, and more accurate servicing of a shock absorber may thus be provided.
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1. A portable apparatus for servicing a shock absorber on a landing gear assembly of an aircraft when the aircraft is in a weight on wheels configuration, the shock absorber comprising at least one chamber containing both hydraulic fluid and a gas in fluid communication with each other, wherein the
1. A portable apparatus for servicing a shock absorber on a landing gear assembly of an aircraft when the aircraft is in a weight on wheels configuration, the shock absorber comprising at least one chamber containing both hydraulic fluid and a gas in fluid communication with each other, wherein the apparatus comprises: a source of gas, a source of hydraulic fluid, and a gas delivery system for delivering a pre-set mass of gas into the shock absorber, the gas delivery system including a tank that is arranged both to receive gas from the shock absorber and to deliver gas to the shock absorber. 2. An apparatus according to claim 1, wherein the tank has a variable volume. 3. An apparatus according to claim 2, wherein the apparatus includes an actuator which is arranged to effect a change in the volume of the variable volume tank. 4. An apparatus according to claim 1, wherein the apparatus comprises a control unit configured to control the delivery by the gas delivery system of the pre-set mass of gas into the shock absorber. 5. An apparatus according to claim 4, wherein the control unit is configured to receive an input from an input device that reads data associated with the shock absorber in order to ascertain, from a look-up table, the pre-set mass of gas to be delivered into the shock absorber. 6. An apparatus according to claim 4, wherein the control unit is also configured to control one or more of the following: receiving of gas into the tank, exhausting of gas from the chamber, degassing of dissolved gas from the hydraulic fluid in the chamber, and adding an amount of hydraulic fluid so that a target level of fluid in the chamber is obtained. 7. An apparatus according to claim 1, wherein the apparatus further comprises a vacuum pump for exhausting gas from said at least one chamber. 8. An apparatus according to claim 7, wherein the apparatus includes a fluid trap for collecting hydraulic fluid that may flow out of the chamber as the gas is exhausted from the shock absorber. 9. An apparatus according to claim 1, wherein the apparatus further comprises a pump for delivering hydraulic fluid to the shock absorber from the reservoir. 10. An apparatus according to claim 1, wherein the apparatus is provided on a single servicing cart, which is arranged to transport all of the parts of the apparatus to and from an aircraft in a weight on wheels state. 11. An apparatus according to claim 1, wherein the apparatus includes one or more collars, each collar being arranged to stop contraction of a particular type of shock absorber and being able to sustain the compressive loads of the same magnitude as those sustained by the shock absorber in the weight-on-wheels state. 12. An apparatus for servicing a shock absorber on a landing gear assembly of an aircraft, the shock absorber comprising at least one chamber containing both hydraulic fluid and a gas in fluid communication with each other, wherein the apparatus is provided on and in the form of a portable cart, the apparatus comprises a vacuum pump configured for degassing dissolved gas from hydraulic fluid in a chamber of the shock absorber, the apparatus comprises a source of hydraulic fluid for supplying hydraulic fluid to the chamber, the apparatus comprises a source of gas for replacing the gas in the chamber, and the apparatus comprises a gas delivery system which includes a control unit and a tank that is arranged both to receive gas from the shock absorber and to deliver gas to the shock absorber, the gas delivery system is configured to deliver a pre-set mass of gas into the shock absorber under the control of the control unit, and the control unit also controlling the receiving of gas from the shock absorber into the tank, controlling the degassing of dissolved gas from the hydraulic fluid in the chamber, and controlling the supplying of hydraulic fluid so that a target level of fluid in the chamber is obtained. 13. An apparatus according to claim 12, wherein the apparatus further comprises a hydraulic fluid trap which is associated with the vacuum pump and which traps hydraulic fluid when the vacuum pump degasses dissolved gas from hydraulic fluid in the chamber of the shock absorber.
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