CN204286027U - Heat exchanger drying unit - Google Patents

Abstract

The utility model relates to the technical field of heat exchange equipment, and discloses a drying device for a heat exchanger, which comprises an air compressor, a compressed air storage tank, a drying device, an air supply pipe, and an inlet between the air compressor and the compressed air storage tank. The gas ends are connected, the outlet end of the compressed air storage tank is connected to the air inlet of the drying device, the air outlet of the drying device is connected to one end of the air supply pipe through the first flange, and the other end of the air supply pipe passes through The second flange is connected with the concentric flange blind plate, and the concentric flange blind plate is connected with the heat exchanger. The compressed air is fed into the drying equipment for heating, and then the hot compressed air is sent into the heat exchanger through the air supply pipe. The hot compressed air makes the moisture between the plates and inside the equipment vaporized, and the vaporized water vapor is released by the hot air under pressure. Bring out the heat exchanger. The utility model can conveniently and quickly clean the moisture in the heat exchanger, improve the quality of the product, and prolong the service life of the product.

Description

Heat Exchanger Drying Unit

technical field

The utility model relates to the technical field of heat exchange equipment, in particular to a heat exchanger capable of drying plate heat exchangers, plate-shell heat exchangers, welded plate heat exchangers and water accumulated inside equipment. Exchanger drying unit.

Background technique

The application fields of plate heat exchangers, plate-shell heat exchangers, and welded plate heat exchangers are constantly expanding, and the application conditions of plate heat exchangers, plate-shell heat exchangers, and welded plate heat exchangers are also becoming more and more Therefore, how to make the quality of plate heat exchangers, plate-shell heat exchangers, and welded plate heat exchangers meet the application requirements of special fields or special working conditions has become the A new subject of heat exchangers and welded plate heat exchangers.

Plate heat exchangers, plate-shell heat exchangers, and welded plate heat exchangers usually use stainless steel plates. After the equipment is completed, a hydraulic test is required. There is a small amount of water between the plates or in the equipment. Water drops remain on the surface. From the completion of the hydrostatic test to the arrival of the equipment at the site to participate in the start-up of the system, some equipment may be idle for a long time as spare parts. During this period, the accumulated water between the plates or in the equipment may form on the surface of the plates. Spotted rust causes the local thickness of the plate to be thinned, affecting the quality and service life of the product. Due to the special structure of plate heat exchangers, plate-shell heat exchangers, and welded plate heat exchangers, it is usually impossible to clean the residual moisture before the equipment leaves the factory.

Utility model content

The purpose of this utility model is to provide a heat exchanger drying device to solve the problem that the residual water in the product cannot be discharged in time after the heat exchanger completes the hydraulic test, which will affect the product quality and service life.

In order to solve the problems of the technologies described above, the technical solution adopted by the utility model is:

A heat exchanger drying device, which includes an air compressor, a compressed air storage tank, a drying device, and an air supply pipe, the air compressor is connected to the intake end of the compressed air storage tank, and the compressed air The air outlet of the air storage tank is connected to the air inlet of the drying device, the air outlet of the drying device is connected to one end of the air supply pipe through the first flange, and the other end of the air supply pipe is One end is connected to the concentric flange blind plate through the second flange, and the concentric flange blind plate is connected to the heat exchanger.

As a further improvement of the utility model, the air supply pipe is a metal hose.

As a further improvement of the utility model, the air outlet of the drying device is provided with a temperature measuring device.

As a further improvement of the utility model, the temperature measuring device is a temperature sensor.

The utility model is mainly applied to plate heat exchangers, plate-shell heat exchangers and welded plate heat exchangers.

The working principle of the utility model is: the compressed air is fed into the drying equipment by the compressed air storage tank to heat the compressed air, and then the hot compressed air is sent into the heat exchanger through the air supply pipe, and the hot compressed air makes the gap between the plates And the moisture inside the equipment is vaporized, and the vaporized water vapor is taken out of the heat exchanger by the hot air under pressure.

The beneficial effects of the utility model are:

(1) The utility model vaporizes the residual moisture in the heat exchanger in time through the heated compressed air and takes it out of the heat exchanger, avoiding the corrosion of the heat exchange plate by the residual liquid, improving the product quality and prolonging the service life of the product ;

(2) A concentric flange blind plate is used at the connection end of the device and the heat exchanger. Concentric flange blind plates of different diameters can be replaced according to actual needs, so that the diameter of the concentric flange blind plate is the same as that of the heat exchanger nozzle. The diameters are compatible, and the treatment of residual moisture is performed on heat exchangers of different specifications;

(3) The air supply pipe is a metal hose, and the position of the air supply pipe can be adjusted at will according to the positions of the drying device and the heat exchanger, which is convenient for use;

(4) A temperature sensor is installed at the air outlet of the drying device, which can be set according to the temperature of the required hot compressed air and realize remote control.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is a schematic diagram of the air supply pipe structure;

In the figure: 1. Air compressor, 2. Compressed air storage tank, 3. Drying equipment, 4. Air supply pipe, 5. First flange, 6. Second flange, 7. Concentric flange blind plate, 8. Temperature measuring device.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is described in further detail.

A heat exchanger drying device as shown in Figure 1 and Figure 2, which includes an air compressor 1, a compressed air storage tank 2, a drying device 3, an air supply pipe 4, an air compressor 1 and a compressed air storage tank 2 is connected to the air inlet end, the air outlet end of the compressed air storage tank 2 is connected to the air inlet of the drying device 3, and the air outlet of the drying device 3 is connected to one end of the air supply pipe 4 through the first flange 5 , the other end of the air supply pipe 4 is connected to the concentric flange blind plate 7 through the second flange 6, and the concentric flange blind plate 7 is connected to the heat exchanger; wherein the air supply pipe 4 is a metal hose, and the drying device The gas outlet of 3 is provided with temperature sensor as temperature measuring device 8.

When the utility model works on the heat exchanger, start the air compressor 1 to provide compressed air for the compressed air storage tank 2, then start the drying device 3 to heat the compressed air to the set temperature, and the hot compressed air passes through the air supply pipe 4 It is sent to the heat exchanger and flows in the heat exchanger. The hot compressed air vaporizes the moisture between the plates and inside the heat exchanger. When the air pressure in the heat exchanger reaches a certain target, open the outlet valve of the heat exchanger. The vaporized moisture is continuously carried out of the heat exchanger.

The utility model can conveniently and quickly clean the moisture in the heat exchanger, improve the quality of the product, and prolong the service life of the product.

Claims (4)

1. A heat exchanger drying device, characterized in that it includes an air compressor (1), a compressed air storage tank (2), a drying device (3), and an air supply pipe (4). The machine (1) is connected to the inlet end of the compressed air storage tank (2), and the outlet end of the compressed air storage tank (2) is connected to the inlet port of the drying device (3), so The air outlet of the drying device (3) is connected to one end of the air supply pipe (4) through the first flange (5), and the other end of the air supply pipe (4) is connected through the second flange (6 ) is connected with the concentric flange blind plate (7), and the concentric flange blind plate (7) is connected with the heat exchanger. 2. The heat exchanger drying device according to claim 1, characterized in that: the air supply pipe (4) is a metal hose. 3. The heat exchanger drying device according to claim 1 or 2, characterized in that: the air outlet of the drying device (3) is provided with a temperature measuring device (8). 4. The heat exchanger drying device according to claim 3, characterized in that: the temperature measuring device (8) is a temperature sensor.