Abstract: A sand stairway for a sand-spreading system of a rail vehicle has a stairway housing with a sand compartment for providing sliding spreading sand. A blow-out duct discharges spreading sand from the stairway housing. First and second nozzle inserts are releasably inserted into first and second receiving holes of a nozzle flange of the stairway housing above the sand compartment. The nozzle inserts are produced separately from the stairway housing. The first nozzle insert produces an air jet directed into the sand compartment and swirls up spreading sand. The second nozzle insert produces an air jet directed into the blow-out duct and swirls up spreading sand. A sand-spreading system for a rail vehicle has a sand stairway for the compressed-air-controlled metering of the discharged spreading sand. The novel sand stairway has increased flexibility and can be set up without great effort for using different types of spreading sand.

Abstract: A suction nozzle insert is provided for arranging in a storage container of a sand discharge device of a rail vehicle, through which compressed air can flow in succession through a nozzle, an injection chamber, a venturi pipe and then a sand feed pipe, wherein the injection chamber and the venturi pipe are located in a first hollow chamber, and furthermore at least one suction channel which connects the storage container with the injection chamber is provided in the housing of the suction nozzle insert, wherein the housing has a second hollow chamber which is arranged between the compressed air pipe and the nozzle, and at least one at least partially closable air channel is provided between this second hollow chamber and the first hollow chamber, wherein the air channel inlet lies in the second hollow chamber and the air channel outlet lies in the first hollow chamber.