Pressure equalization valve

The invention claimed is: 1. A brake valve arrangement for a rail brake system configured to control air flow to brake cylinders, the arrangement comprising: a hold membrane valve; and a vent membrane valve, wherein the hold membrane valve and the vent membrane valve each have a control chamber, wherein the hold membrane valve and vent membrane valve are piloted by respective solenoid valves; and a further solenoid valve connected to the control chamber of the vent membrane valve to enable equalization of a pressure across the vent valve membrane with a brake cylinder pressure to decrease a pressure difference across the vent valve membrane. 2. The brake valve of claim 1 , wherein the further solenoid is in fluid communication with the outlet of the hold membrane valve. 3. The brake valve of claim 1 , wherein the further solenoid is in fluid communication with an inlet of the vent solenoid. 4. The brake valve of claim 1 , wherein the further solenoid valve receives the brake cylinder pressure. 5. The brake valve of claim 1 , wherein, to release the brakes in use, the hold valve membrane is held closed by applying a supply pressure to the control chamber of the hold membrane valve and by energising the solenoid valve piloting the hold membrane valve, and wherein the brake pressure in a brake cylinder is vented to atmosphere by exhausting the vent membrane valve control chamber by energising the solenoid valve piloting the vent membrane valve. 6. The brake valve of claim 1 , wherein, in use, to hold the pressure in the brake cylinder following an application of the brakes, the hold membrane is closed by energising the solenoid valve piloting the hold membrane valve enabling application of supply pressure to the hold membrane valve control chamber, pressure across the vent valve membrane is then equalised to the brake cylinder pressure by energising the further solenoid valve. 7. The brake valve of claim 2 , wherein the further solenoid is in fluid communication with an inlet of the vent solenoid. 8. The brake valve of claim 2 , wherein the further solenoid valve receives the brake cylinder pressure. 9. The brake valve of claim 2 , wherein, to release the brakes in use, the hold valve membrane is held closed by applying a supply pressure to the control chamber of the hold membrane valve and by energising the solenoid valve piloting the hold membrane valve, and wherein the brake pressure in a brake cylinder is vented to atmosphere by exhausting the vent membrane valve control chamber by energising the solenoid valve piloting the vent membrane valve. 10. The brake valve of claim 2 , wherein, in use, to hold the pressure in the brake cylinder following an application of the brakes, the hold membrane is closed by energising the solenoid valve piloting the hold membrane valve enabling application of supply pressure to the hold membrane valve control chamber, pressure across the vent valve membrane is then equalised to the brake cylinder pressure by energising the further solenoid valve. 11. The brake valve of claim 3 , wherein the further solenoid valve receives the brake cylinder pressure. 12. The brake valve of claim 3 , wherein, to release the brakes in use, the hold valve membrane is held closed by applying a supply pressure to the control chamber of the hold membrane valve and by energising the solenoid valve piloting the hold membrane valve, and wherein the brake pressure in a brake cylinder is vented to atmosphere by exhausting the vent membrane valve control chamber by energising the solenoid valve piloting the vent membrane valve. 13. The brake valve of claim 3 , wherein, in use, to hold the pressure in the brake cylinder following an application of the brakes, the hold membrane is closed by energising the solenoid valve piloting the hold membrane valve enabling application of supply pressure to the hold membrane valve control chamber, pressure across the vent valve membrane is then equalised to the brake cylinder pressure by energising the further solenoid valve. 14. The brake valve of claim 4 , wherein, to release the brakes in use, the hold valve membrane is held closed by applying a supply pressure to the control chamber of the hold membrane valve and by energising the solenoid valve piloting the hold membrane valve, and wherein the brake pressure in a brake cylinder is vented to atmosphere by exhausting the vent membrane valve control chamber by energising the solenoid valve piloting the vent membrane valve. 15. The brake valve of claim 4 , wherein, in use, to hold the pressure in the brake cylinder following an application of the brakes, the hold membrane is closed by energising the solenoid valve piloting the hold membrane valve enabling application of supply pressure to the hold membrane valve control chamber, pressure across the vent valve membrane is then equalised to the brake cylinder pressure by energising the further solenoid valve. 16. The brake valve claim 5 , wherein, in use, to hold the pressure in the brake cylinder following an application of the brakes, the hold membrane is closed by energising the solenoid valve piloting the hold membrane valve enabling application of supply pressure to the hold membrane valve control chamber, pressure across the vent valve membrane is then equalised to the brake cylinder pressure by energising the further solenoid valve.