Thermostatic expansion device and air conditioning loop comprising such a thermostatic expansion device

The invention claimed is: 1. A device ( 5 ) for expanding a refrigerant fluid, comprising: a first expansion device inlet ( 8 ); a first expansion device outlet ( 9 ) connected to the first expansion device inlet ( 8 ) by a first refrigerant fluid circulation channel ( 11 ), wherein the first refrigerant fluid circulation channel ( 11 ) comprises an upstream part ( 22 ) in communication with a downstream part ( 25 ) by a first communication duct ( 18 ); a second expansion device inlet ( 12 ); a second expansion device outlet ( 13 ) connected to the second expansion device inlet ( 12 ) by a second refrigerant fluid circulation channel ( 14 ); and means ( 15 ) for regulating expansion of the refrigerant fluid comprising a first needle valve ( 16 ) housed inside the upstream part ( 22 ) of the first refrigerant fluid circulation channel ( 11 ) and a means ( 23 ) for measuring an evaporator inlet refrigerant fluid pressure (Pe) taken at the first expansion device outlet ( 9 ), wherein the first needle valve ( 16 ) is connected by a first linking rod ( 19 ) to a thermostatic sensor ( 17 ) in communication with the second refrigerant fluid circulation channel ( 14 ), wherein the means ( 23 ) for measuring an evaporator inlet refrigerant fluid pressure (Pe) comprises a support plate ( 33 ) housed inside the upstream part ( 22 ) of the first refrigerant fluid circulation channel ( 11 ), and wherein the support plate ( 33 ) has a lower surface ( 36 ) in contact with a stressing member ( 21 ) and is connected to the first needle valve ( 16 ) by a second linking rod ( 34 ). 2. The device ( 5 ) as claimed in claim 1 , wherein the support plate ( 33 ) is mounted to be able to slide inside a sleeve ( 37 ). 3. The device ( 5 ) as claimed in claim 1 , wherein the stressing member ( 21 ) is a spring. 4. The device ( 5 ) as claimed in claim 1 , wherein the thermostatic sensor ( 17 ) includes a flexible membrane ( 20 ). 5. A device ( 5 ) for expanding a refrigerant fluid, comprising: a first expansion device inlet ( 8 ); a first expansion device outlet ( 9 ) connected to the first expansion device inlet ( 8 ) by a first refrigerant fluid circulation channel ( 11 ), wherein the first refrigerant fluid circulation channel ( 11 ) comprises an upstream part ( 22 ) in communication with a downstream part ( 25 ) by a first communication duct ( 18 ); a second expansion device inlet ( 12 ); a second expansion device outlet ( 13 ) connected to the second expansion device inlet ( 12 ) by a second refrigerant fluid circulation channel ( 14 ); and means ( 15 ) for regulating expansion of the refrigerant fluid comprising a first needle valve ( 16 ) housed inside the upstream part ( 22 ) of the first refrigerant fluid circulation channel ( 11 ) and a means ( 23 ) for measuring an evaporator inlet refrigerant fluid pressure (Pe) taken at the first expansion device outlet ( 9 ), wherein the first needle valve ( 16 ) is connected by a first linking rod ( 19 ) to a thermostatic sensor ( 17 ) in communication with the second refrigerant fluid circulation channel ( 14 ), wherein the means ( 23 ) for measuring the evaporator inlet refrigerant fluid pressure (Pe) taken at the first expansion device outlet ( 9 ) comprises a second needle valve ( 38 ) housed in the upstream part ( 22 ) of the first refrigerant fluid circulation channel ( 11 ), and wherein the second needle valve ( 38 ) is carried by a support rod ( 40 ) in communication with a plate ( 42 ) in contact with a return member ( 41 ). 6. The device ( 5 ) as claimed in claim 5 , wherein the thermostatic sensor ( 17 ) includes a flexible membrane ( 20 ).