Conversion kit for a support frame, a support frame and an integrated vacuum system mounted in a support frame

The invention claimed is: 1. A kit for converting a support frame for an integrated vacuum system from a static to a movable support frame, the kit comprising: at least one frame lifting mechanism configured to be mounted within the support frame, the at least one frame lifting mechanism comprising: a movable element configured to be movably mounted to the support frame and comprising at least one support portion extending from a lower surface of the movable element when the movable element is mounted to the support frame; an extendible member configured to extend between the movable element and a static member mounted on the support frame, the extendible member being configured to be movable between a compressed state and an extended state; wherein the movable element is configured to be mounted to the support frame such that on extension of the extendible member the movable element is pushed downwards and the at least one support portion moves below a base of the support frame and provides a lifting force to the support frame. 2. The kit according to claim 1 , further comprising the static member, the static member being configured to be rigidly attached to the support frame. 3. The kit according to claim 1 , wherein the movable element comprises two support portions, the two support portions comprising rods extending vertically downwards from a lower surface of the movable element when the movable element is mounted to the support frame. 4. The kit according to claim 1 , wherein the movable element comprises a cross member configured to extend substantially horizontally when mounted to the support frame, an upper surface of the cross member abutting with the extendible member. 5. The kit according to claim 1 , further comprising at least one sleeve member configured to attach to the base and to extend vertically upwards from the base, the at least one sleeve member being configured to receive and guide the at least one support portion. 6. The kit according to claim 1 , wherein the movable element further comprises a prop pivotably mounted to the movable element such that when the movable element is mounted to the support frame, the prop can pivot between a substantially horizontal and a substantially vertical position, the prop being configured to extend between the movable element and the static member when the extendible member is extended and the prop is pivoted to the substantially vertical position. 7. The kit according to claim 1 , wherein the extendible member comprises a drive mechanism for driving the extendible member between the compressed state and the extended state. 8. The kit according to claim 7 , wherein the extendible member comprises a hydraulic jack. 9. The kit according to claim 1 , further comprising at least one biasing element configured to be mounted between the static member and the movable element and configured to bias the movable element towards the static member. 10. The kit according to claim 1 , comprising two frame lifting mechanisms. 11. A kit according to claim 10 , wherein the kit further comprises bracing means for mounting between frame legs of the support frame. 12. A support frame for mounting an integrated vacuum system, the support frame comprising: a base comprising a substantially rectangular cross section; at least four legs extending from each corner of the base; cross pieces extending between the at least four legs; a kit mounted to the support frame, the kit comprising: at least one frame lifting mechanism configured to be mounted within the support frame, the at least one frame lifting mechanism comprising: a movable element configured to be movably mounted to the support frame and comprising at least one support portion extending from a lower surface of the movable element when the movable element is mounted to the support frame; an extendible member configured to extend between the movable element and a static member mounted on the support frame, the extendible member being configured to be movable between a compressed state and an extended state; wherein the movable element is configured to be mounted to the support frame such that on extension of the extendible member the movable element is pushed downwards and the at least one support portion moves below a base of the support frame and provides a lifting force to the support frame. 13. The support frame according to claim 12 , comprising two frame lifting mechanisms, wherein the two frame lifting mechanism are mounted to the support frame on opposing sides of the support frame and within an outer envelope of the support frame. 14. The support frame according to claim 13 , wherein the two frame lifting mechanisms are mounted to the support frame such that the extendible mechanisms of the two frame lifting mechanism are located in line with the centre of gravity between the two sides of the support frame that the lifting mechanisms are not mounted adjacent to. 15. The support frame according to claim 12 , wherein the base of the support frame comprises at least one passage extending through the base, and a sleeve extending around and vertically upwards from an upper opening of each of the at least one passage, the sleeve being configured to receive and guide the at least one support portion. 16. An integrated vacuum system, the integrated vacuum system comprising a plurality of components including a plurality of vacuum pumps; and control circuitry, the plurality of components being mounted on a support frame comprising: a base comprising a substantially rectangular cross section; at least four legs extending from each corner of the base; cross pieces extending between the at least four legs; a kit mounted to the support frame, the kit comprising: at least one frame lifting mechanism configured to be mounted within the support frame, the at least one frame lifting mechanism comprising: a movable element configured to be movably mounted to the support frame and comprising at least one support portion extending from a lower surface of the movable element when the movable element is mounted to the support frame; an extendible member configured to extend between the movable element and a static member mounted on the support frame, the extendible member being configured to be movable between a compressed state and an extended state; wherein the movable element is configured to be mounted to the support frame such that on extension of the extendible member the movable element is pushed downwards and the at least one support portion moves below a base of the support frame and provides a lifting force to the support frame. 17. The integrated vacuum system of claim 16 , wherein the support frame comprises two frame lifting mechanisms, wherein the two frame lifting mechanism are mounted to the support frame on opposing sides of the support frame and within an outer envelope of the support frame. 18. The integrated vacuum system of claim 17 , wherein the two frame lifting mechanisms are mounted to the support frame such that the extendible mechanisms of the two frame lifting mechanism are located in line with the centre of gravity between the two sides of the support frame that the lifting mechanisms are not mounted adjacent to. 19. The integrated vacuum system of claim 16 , wherein the base of the support frame comprises at least one passage extending through the base, and a sleeve extending around and vertically upwards from an upper opening of each of the at least one passage, the sleeve being configured to receive and gui