Device for dispensing jets of cryogenic fluid, including a plenum chamber

The invention claimed is: 1. A device for dispensing one or more jets of cryogenic fluid, comprising a fluid-feed pipe supplying one or more fluid-dispensing nozzles arranged downstream of the said pipe, the fluid-feed pipe having a cross section of fluid flow with a first diameter (d) wherein at least one plenum chamber arranged between the fluid-feed pipe and the fluid-dispensing nozzle or nozzles, while being fluidically connected to the said fluid-feed pipe and to the fluid-dispensing nozzle or nozzles, each at least one plenum chamber having a cross section of fluid flow having a second diameter (D) greater than the first diameter (d) of the cross section of fluid flow of the fluid-feed pipe, wherein the fluidic connection between the fluid-feed pipe and the at least one plenum chamber is configured to make the fluid flow less turbulent, wherein a nozzle-holder tool connected to the end of the fluid-feed pipe by means of a connection, the said nozzle-holder tool supporting the at least one plenum chamber arranged between the nozzle-holder tool and the fluid-dispensing nozzle or nozzles. 2. The device according to claim 1 , wherein the at least one plenum chamber has a cross section of flow of fluid with the second diameter (D) of between 2 and 6 mm. 3. The device according to claim 1 , wherein the at least one plenum chamber has a length (L) between 20 and 100 mm. 4. The device according to claim 1 , wherein the at least one plenum chamber is formed by a material suited to cryogenic temperatures. 5. An installation for treating by means of one or more cryogenic fluid jets, comprising a source of fluid at cryogenic temperature and under high pressure fluidically connected to a fluid-feed pipe supplying one or more nozzles dispensing in one or more jets of fluid at cryogenic temperature and under high pressure, wherein it further includes a device according to claim 1 . 6. A working method using one or more cryogenic fluid jets dispensed by means of a device according to claim 1 , in order by means of one or more pressurized cryogenic fluid jets, to perform a surface treatment, scouring, cleaning or descaling of a material. 7. The working method according to claim 6 , wherein the cryogenic fluid jet or jets dispensed by the fluid-dispensing nozzle or nozzles have a temperature of below −140° C. and a pressure of at least 300 bar. 8. The working method according to claim 6 , wherein the cryogenic fluid used is liquid nitrogen. 9. A device for dispensing one or more jets of cryogenic fluid, comprising a fluid-feed pipe supplying one or more fluid-dispensing nozzles arranged downstream of the said pipe, the fluid-feed pipe having a cross section of fluid flow with a first diameter (d) wherein at least one plenum chamber arranged between the fluid-feed pipe and the fluid-dispensing nozzle or nozzles, while being fluidically connected to the said fluid-feed pipe and to the fluid-dispensing nozzle or nozzles, each at least one plenum chamber having a cross section of fluid flow having a second diameter (D) greater than the first diameter (d) of the cross section of fluid flow of the fluid-feed pipe, wherein the fluidic connection between the fluid-feed pipe and the at least one plenum chamber is configured to make the fluid flow less turbulent, further comprising a nozzle-holder tool provided with means for rotating the said nozzle-holder tool around the axis of the fluid-feed pipe so as to confer a circular movement on the fluid-dispensing nozzle or nozzles. 10. The device according to claim 9 , wherein the at least one plenum chamber has a cross section of flow of fluid with the second diameter (D) of between 2 and 6 mm. 11. The device according to claim 9 , wherein the at least one plenum chamber has a length (L) between 20 and 100 mm. 12. The device according to claim 9 , wherein the at least one plenum chamber is formed by a material suited to cryogenic temperatures.