TH15885B - Evaporator with a number of pipes - Google Patents

Abstract

DC60 (03/10/46) The refrigerant evaporator is created by stacking a number of pipe elements and a flat tube element. The passage of the refrigerant at Two, in the flat pipe elements are positioned close to the outlet pipe. Most cooling In the passage of the second refrigerant Some teeth are created by the way that The teeth will protrude from the flat sheet that is connected to the metal plate. To create Assemble the flat pipe The second pass of the refrigerant is separated into a pass. Of the refrigerant with a smaller size, as such, the flow area of the The cooling effect of the second refrigerant pass is less than that of the other refrigerant, ie, the resistance to the flow of the refrigerant through. The second refrigerant is greater than that of the other refrigerant passages, so the refrigerant will be prevented from flowing into the refrigerant passageway. Two of the flat pipe elements A refrigerant evaporator is created by stacking a number of pipe elements and a flat tube element. The passage of the refrigerant at Two, in the flat pipe elements are positioned close to the outlet pipe. Most cooling In the passage of the second refrigerant Some teeth are created by the way that The teeth will protrude from the flat plate connected to the metal plate. To create Assemble the flat pipe The second pass of the refrigerant is separated into a pass. Of the refrigerant with a small amount, as this the flow area of the The cooling capacity of the second refrigerant is less than that of the other refrigerant, ie, the refrigerant flow resistance of the pass. The second refrigerant is greater than that of the other refrigerant passages, therefore the refrigerant is prevented from flowing into the refrigerant passageway. Two of the flat pipe elements

Claims (9)

1.Refrigerant evaporator Which contains the following components A number of pipes that are arranged in parallel To form the refrigerant passageway, each of the pipes of a number of pipes is formed by a pair of metal plates connected facing each other. The inlet tank section is provided at the bottom end of each such pipe. For distributing the refrigerant through the said refrigerant passageway The inlet tank section is provided at the end of each such outlet pipe for refrigerant receiving and refrigerant outlet pipe connected to one end of the tank section at the outlet. Of at least one such refrigerant was placed in the area Close to the outlet pipe of the said refrigerant There will be spokes being built for reducing Area of refrigerant flow in the aforementioned refrigerant passageway 2.Refrigerant evaporator According to claim 1, that the spokes are created in at least one such refrigerant pass, placed in the outlet side of the The refrigerant instead is at the center of the tank at the aforementioned outlet in its longitudinal direction. 3.Refrigerant evaporator According to claim 1, which part of the tank at the channel It is placed at the top end of each such pipe to allow refrigerant to flow upward within the refrigerant pass. 4.Refrigerant evaporator According to claim 1, the spokes are created in the refrigerant passageway, placed at a location close to the refrigerant outlet pipe. Most such 5.Refrigerant evaporator According to claim 1, which the spokes will be extended From the flat plate connected to the said metal plate For assembly as a refrigerant passageway with reduced refrigerant flow area. 6.Refrigerant evaporator Which contains the following components A number of pipes that are arranged in parallel In which there is a passage of the cleaning agent The refrigerant inlet side and the outlet side of the refrigerant are created, where each pipe of a number of such pipes is formed by a pair of metal plates facing each other. The upper inlet tank is provided at the upper end of each such pipe, which is in contact with the refrigerant through the said inlet. The tank at the bottom inlet was arranged at The bottom end of each such pipe that contacts Through the inlet side of the refrigerant The upper outlet tank is provided at the top end of each such pipe, which is in contact with the refrigerant through the outlet. The lower outlet tank is provided at the lower end of each such pipe, which is in contact with the refrigerant through the outlet. The refrigerant inlet pipe is connected to the end of the tank section at the bottom inlet as For bringing the refrigerant into the tank at the inlet below it The refrigerant outlet pipe is connected to the end of the upper outlet section where the refrigerant flows out of the upper outlet section. The first separator pad is provided in the tank section at the bottom inlet for The refrigerant passes through the said inlet into a group of reagents. The cooling channel in the first group And the second inlet refrigerant passageway, a second separator plate, provided in the upper outlet tank section, for separating the aforementioned refrigerant passageway into Transport group The first group of outlet cooling And the passage group of the refrigerant on the channel side Exit the second group and the refrigerant passageway. For making the tank section at the bottom entry Contact with the tank section at the above outlet, among which refrigerant passages above the outlet port that make up The refrigerant passage group at the first outlet group is in the refrigerant passageway. At least one such outlet. Which is placed in close proximity to the outlet pipe of the said refrigerant Spokes are created for reducing the area in the material flow. Cooling inside such pipes 7.Refrigerant evaporator According to claim 6, the spokes are created in the refrigerant passageway. At least one path is placed in the outlet pipe of the said refrigerant instead of At the center of the refrigerant passage group at the first outlet group 8.Refrigerant evaporator According to claim 6, the spokes will be created. In the way of the refrigerant outlet side Which is placed near the outlet pipe Of most such refrigerants 9. Refrigerant evaporator According to claim 6, the refrigerant inlet pipe is connected to the end of the tank section at the bottom inlet through the accumulator on the side of the inlet and outlet of the said refrigerant. Will be connected to the end of the tank section at the outlet Above mentioned, through the outlet's accumulator