TH34184B - Evaporator - Google Patents

Abstract

The DC60 (15/08/44) evaporator consists of a pair of horizontally located top and bottom tank headers. being facing each other at a certain distance, a group of heat exchanger tubes are arranged. To the side of the evaporator are two rows, front and back. and each pipe will Connect the top header tank and the bottom header tank respectively at the top and bottom ends of that section so that they are connected to the tank. and vertically separated partition walls were provided. inside the top header tank and extends to the side of the evaporator in order to create a channel The header is divided into sections. for allowing the refrigerant to flow through a pair of pipes The front and rear heat exchange each pair next to each other in opposite directions. The inlet is provided for the liquid-vapor mixture refrigerant in the inner chamber. The back head is divided into sections. on the side of the evaporator which from this part of the air that is cooled will flow out after passing between the heat exchange tubes to make the channel In the back of the head that is divided into sections. It acts as a channel in the inflow header. of the refrigerant An outlet is provided for the refrigerant which is made vaporizes in a compartment in the front head that is divided into sections on the side of An evaporator where the air to be cooled flows between the heat exchange tubes. to make the box in the front header split into sections Serves a channel in the header that contains refrigerant outflow The evaporator has a cavity opening ratio of 3 to 30%, a value obtained by dividing the total cross-sectional area of the refrigerant passageway. in one heat exchanger tube with the horizontal cross-sectional area of the channel in the header Refrigerant inflow to the heat exchanger tubes in the cavity in the header with inflow and along the openings of the heat exchanger tubes in it The evaporator consists of a pair of horizontally mounted header tanks above and below. being facing each other at a certain distance, a group of heat exchanger tubes are arranged. To the side of the evaporator are two rows, front and back, and each pipe will Connect to the top header bucket and bottom header bucket respectively at the top and bottom ends of that section to connect to the bucket. and vertically separated partition walls were provided. inside the top header tank and extends to the side of the evaporator in order to create a channel The header is divided into sections. For making the refrigerant flow through a pair of pipes. The next front and rear heat exchangers are in opposite directions. The inlet is provided for the liquid-vapor mixture refrigerant in the inner chamber. The rear section is divided into sections on the sides of the evaporator, which from this section in the air. to be cooled will flow out after passing between the heat exchange tubes to make the channel In the segmented rear header acts as a channel in the inflow header. of the refrigerant An outlet is provided for the refrigerant which is made vaporized in a cavity in the front head section that is divided into sections on the sides of An evaporator where the air to be cooled flows between the heat exchange tubes. To make a field in the front sectioned header function as a field in the containing header. refrigerant outflow The evaporator has a cavity opening ratio of 3 to 30%, a value obtained by dividing the total cross-sectional area of the refrigerant passageway. In one heat exchanger tube with the horizontal cross-sectional area of the channel in the header there is Refrigerant inflow to the heat exchanger tubes in the cavity in the header with inflow and along the openings of the heat exchanger tubes in it

Claims (7)

1. an evaporator consisting of a pair of cylinder heads that are horizontally above and below that are Facing each other at a certain distance, groups of heat exchanger tubes are arranged sideways. Of the evaporator in a row on both front and back And each pipe is connected to the header tank The top and bottom header tanks, respectively, at the top and bottom ends of that section, in the presence of connection to the tank and the single-sheet vertical separator wall arranged within one header tank; and Cast off to the side of the evaporator In order to create a field in the header that is divided into sections For the cooling line to flow through a pair of front and rear heat exchanger tubes that Next to each pair in opposite directions, with inlet provided for the refrigerant that It is a liquid-vapor mixture in a cavity in the rear header that is divided into sections on the side of the evaporator where the cooled air flows after passing between the heat exchanger tubes. Hot to make a hole in the back header that is divided into sections, serving as a hole in the header with Refrigerant inlet and outlet are provided for refrigerant which is Evaporates into a channel in the front header that is divided into sections On the side of the evaporator Where the cooled air flows between the heat exchanger tubes to make a cavity in the header The segmented front serves as a cavity in the header where the detergent flows out. Chilled from the evaporator has an opening ratio of 3 to 30%, which is the value obtained by dividing. The total cross-sectional area of the channel passes the refrigerant in one heat exchanger. The horizontal cross-sectional area of the channel in the header where the refrigerant inflow to the exchange tube. Heat in the cavity in the head with the inflow and along the openings of the heat exchanger tubes in it 2. Evaporator according to claim 1, which has an opening ratio of 3 to 20%. 3. Evaporator according to claim 1 which has an opening ratio of 4 to 10%. 4. Evaporator according to claim 1, where the front and rear heat exchanger tubes Next in each pair of heat exchanger tubes arranged in two rows in front. And the back is made into a single unit by providing a joint between them. 5. Evaporator according to claim 1 where each heat exchanger tube will It consists of a flat tube consisting of a pair of left and right walls. Which each wall has a surface Flat outside And a number of reinforced walls that connect the left and right walls. And spanned along the length of the pipe The reinforced walls are spaced from each other by Preset distance Flat pipes have parallel refrigerant passages within that section. And having a width from left to right that is less than the front-to-back width of that section, at least one left and right wall is arranged on the inner surface of that section with an overhang. Several for producing turbulent flows in the refrigerant flowing through the pipes. 6. Evaporator according to claim 5, where each reinforced wall has a channel. Multiple connections for holding parallel refrigerant channels connected to each other. 7. Evaporator according to claim 5, with the flat tube having a width from left to right 0.75 to 1.5 mm.