Falling film evaporator

What is claimed is: 1. A falling film evaporator used in a refrigeration apparatus, the falling film evaporator comprising: a heat transfer tube bundle with a heat medium channeled to an interior thereof, the heat transfer tube bundle having a plurality of longitudinally extending heat transfer tubes; a tank with the heat transfer tube bundle disposed therein, the tank being provided with a refrigerant inflow port; a liquid refrigerant sprinkling part arranged to drop liquid refrigerant, which is contained in gas/liquid two-phase refrigerant supplied into the refrigerant inflow port, onto the heat transfer tube bundle; a vapor outlet tube extending from an upper part of the tank; a cover having a portion positioned in a location inside the tank and higher than the liquid refrigerant sprinkling part; and an impeding member provided between the liquid refrigerant sprinkling part and the cover at a different position than the vapor outlet tube along the longitudinal direction of the heat transfer tubes, and the impeding member impeding the flow of refrigerant that flows between the liquid refrigerant sprinkling part and the cover and flows in the longitudinal direction of the heat transfer tubes, the impeding member extending downward from a lower surface of the cover. 2. A falling film evaporator used in a refrigeration apparatus, the falling film evaporator comprising: a heat transfer tube bundle with a heat medium channeled to an interior thereof, the heat transfer tube bundle having a plurality of longitudinally extending heat transfer tubes; a tank with the heat transfer tube bundle disposed therein, the tank being provided with a refrigerant inflow port; a liquid refrigerant sprinkling part arranged to drop liquid refrigerant, which is contained in gas/liquid two-phase refrigerant supplied into the tank through the refrigerant inflow port, onto the heat transfer tube bundle; a vapor outlet tube extending from an upper part of the tank; a cover having a portion positioned in a location inside the tank and higher than the liquid refrigerant sprinkling part; and a plurality of impeding member provided between the liquid refrigerant sprinkling part and the cover at a different position than the vapor outlet tube along the longitudinal direction of the heat transfer tubes, and the impeding members impeding the flow of refrigerant that flows between the liquid refrigerant sprinkling part and the cover and flows in the longitudinal direction of the heat transfer tubes, the impeding members being provided in alignment in the longitudinal direction of the heat transfer tubes so as to have a portion in which the impeding members close to the vapor outlet tube in the longitudinal direction of the heat transfer tubes have narrow gaps between each other. 3. A falling film evaporator used in a refrigeration apparatus, the falling film evaporator comprising: a heat transfer tube bundle with a heat medium channeled to an interior thereof, the heat transfer tube bundle having a plurality of longitudinally extending heat transfer tubes; a tank with the heat transfer tube bundle disposed therein, the tank being provided with a refrigerant inflow port; a liquid refrigerant sprinkling part arranged to drop liquid refrigerant, which is contained in gas/liquid two-phase refrigerant supplied into the tank through the refrigerant inflow port, onto the heat transfer tube bundle; a vapor outlet tube extending from an upper part of the tank; a cover having a portion positioned in a location inside the tank and higher than the liquid refrigerant sprinkling part; and a plurality of impeding member provided between the liquid refrigerant sprinkling part and the cover at a different position than the vapor outlet tube along the longitudinal direction of the heat transfer tubes, and the impeding members impeding the flow of refrigerant that flows between the liquid refrigerant sprinkling part and the cover and flows in the longitudinal direction of the heat transfer tubes, the impeding members being provided in alignment in the longitudinal direction of the heat transfer tubes so as to have a portion in which the impeding members close to the refrigerant inflow port in the longitudinal direction of the heat transfer tubes have narrow gaps between each other. 4. The falling film evaporator according to claim 1 , wherein the impeding member is a plate-shaped member having a surface perpendicular to the longitudinal direction of the heat transfer tubes. 5. The falling film evaporator according to claim 2 , wherein the impeding member is a plate-shaped member having a surface perpendicular to the longitudinal direction of the heat transfer tubes. 6. The falling film evaporator according to claim 3 , wherein the impeding member is a plate-shaped member having a surface perpendicular to the longitudinal direction of the heat transfer tubes. 7. The falling film evaporator according to claim 1 , wherein the impeding member is provided on both sides of the vapor outlet tube with respect to the longitudinal direction of the heat transfer tubes. 8. The falling film evaporator according to claim 2 , wherein the impeding member is provided on both sides of the vapor outlet tube with respect to the longitudinal direction of the heat transfer tubes. 9. The falling film evaporator according to claim 3 , wherein the impeding member is provided on both sides of the vapor outlet tube with respect to the longitudinal direction of the heat transfer tubes. 10. The falling film evaporator according to claim 1 , wherein the impeding member has a portion vertically covered by at least 70% between the liquid refrigerant sprinkling part and the cover. 11. The falling film evaporator according to claim 2 , wherein the impeding member has a portion vertically covered by at least 70% between the liquid refrigerant sprinkling part and the cover. 12. The falling film evaporator according to claim 3 , wherein the impeding member has a portion vertically covered by at least 70% between the liquid refrigerant sprinkling part and the cover. 13. The falling film evaporator according to claim 1 , further comprising a header tube provided between the liquid refrigerant sprinkling part and the cover, the header tube having a plurality of refrigerant holes arranged to allow refrigerant to pass through from an inner side toward an outside as seen in the longitudinal direction of the heat transfer tubes, and the header tube being capable of guiding refrigerant flowing in through the refrigerant inflow port in a direction extending along the longitudinal direction of the heat transfer tubes while channeling the refrigerant out via the refrigerant holes; and a one-stage refrigerant tub disposed above the liquid refrigerant sprinkling part, the one-stage refrigerant tub being capable of receiving refrigerant flowing out from the header tube via the refrigerant holes and guiding the refrigerant to the liquid refrigerant sprinkling part, the impeding members being provided at least at a position that is on the outer side of the header tube and that is enclosed by the one-stage refrigerant tub and the cover. 14. The falling film evaporator according to claim further comprising a header tube provided between the liquid refrigerant sprinkling part and the cover, the header tube having a plurality of refrigerant holes arranged to allow refrigerant to pass through from an inner side toward an outside as seen in the longitudinal direction of the heat transfer tubes, and the header tube being capable of guiding refrigerant flowing in through the refrigerant inflow port in a