WO2016029571A1

WO2016029571A1 - Corrosion-resistant heat-pump type horizontal double-pipe heat exchanger

Info

Publication number: WO2016029571A1
Application number: PCT/CN2014/091764
Authority: WO
Inventors: 陈顺龙; 王勇; 鲁一; 卢开兰
Original assignee: 泰州市沪江特种设备有限公司
Priority date: 2014-08-27
Filing date: 2014-11-20
Publication date: 2016-03-03

Abstract

Disclosed is a corrosion-resistant heat-pump type horizontal double-pipe heat exchanger, adopting a horizontal type structure as the installation mode, and comprising a corrosion prevention block (1), an end shield, an outer sleeve pipe plate, a composite pipe and a pipe plate, wherein the end shield comprises a first end shield (2) and a second end shield (10), the corrosion prevention block (1) is fixedly connected to the first end shield (2), the pipe plate comprises a first pipe plate (3) and a second pipe plate (9), the first end shield (2) is connected to the first pipe plate (3), the outer sleeve pipe plate comprises a first outer sleeve pipe plate (4) and a second outer sleeve pipe plate (7), the first pipe plate (3) is connected to the first outer sleeve pipe plate (4), the second outer sleeve pipe plate (7) is connected to the second pipe plate (9), the interior of the composite pipe comprises an outer sleeve (5) and an inner heat exchange pipe (6), and the inner heat exchange pipe (6) and the outer sleeve (5) are concentric sleeves. The interior of the heat exchange pipes of the heat exchanger is conveniently washed, increasing the heat exchange efficiency of the outside of the pipes, and oil storing dead corners are avoided.

Description

Corrosion-resistant heat pump type horizontal casing heat exchanger

Technical field

The invention relates to a heat pump refrigeration system, and more particularly to a novel corrosion-resistant heat pump type horizontal casing heat exchanger.

Background technique

The horizontal shell-and-tube heat exchanger has unique structural features: simple processing technology, convenient heat exchange tube cleaning, mature corrosion-resistant heat exchange tubes, liquid storage energy, etc., and thus widely used in various refrigeration systems. However, due to its structure, it cannot solve the oil return problem when it is used as a heat pump system. Therefore, it can only be used as a condenser in a single-cooling refrigeration system; a heat pump refrigeration system can use a dry evaporation (condensation) device, and its structure Similar to the structure of the horizontal shell-and-tube evaporator, the difference is that the refrigerant in the dry evaporation (condensation) flows in the heat exchange tubes, and the cooling medium flows outside the heat exchange tubes. The utility model has the advantages that the refrigerant charging amount is small, the heat exchange tube is prevented from being cracked due to freezing, and the oil return problem is solved, and is widely used in various heat pump refrigeration systems, and the disadvantage is that the processing technology is complicated. It is difficult to clean the outside of the heat exchange tube. It is difficult to change the anti-corrosion treatment of the inside of the shell and the outside of the heat exchange tube. Therefore, the extensive useability of the heat transfer tube is also restricted. The heat pump refrigeration system can also use the casing heat exchanger. High thermal efficiency, simple structure, oil return, etc., but due to its structure, it is troublesome to repair, clean and disassemble. Long-term operation will cause the equipment to be blocked by scale, which will reduce efficiency, increase energy consumption and shorten life. . At present, there is no corrosion-resistant heat pump type horizontal casing heat exchanger at home and abroad.

Summary of the invention

In order to solve the above-mentioned deficiencies, the present invention provides a novel corrosion-resistant heat pump type horizontal casing heat exchanger, whose unique structure and performance fully meet the requirements, and is very suitable for a heat pump system with corrosive cooling medium. use.

In order to achieve the above requirements and objectives, the technical solution adopted by the present invention is as follows:

Corrosion-resistant heat pump type horizontal casing heat exchanger, the installation method adopts a horizontal structure, which is composed of an anti-corrosion block, a cover head, an outer casing tube plate, a composite pipe and a pipe plate from left to right, and the cover head includes a cover head I and the cover head II, the anti-corrosion block is fixedly connected with the cover head I, the tube sheet comprises a tube sheet I and a tube sheet II, the cover head I is connected with the tube sheet I, and the outer sleeve tube sheet comprises a jacket a tube sheet I and an outer tube tube sheet II, the tube sheet I is connected to the outer tube tube sheet I, and the outer sleeve tube sheet II is connected to the tube sheet II, the tube sheet II Connected to the cover head II, one side of the upper end of the outer sleeve tube sheet is provided with a refrigerant inlet, one side of the lower end is provided with a refrigerant outlet, and the cover head II is provided with a cooling medium inlet and a cooling medium outlet, the composite The inner portion of the tube includes an outer sleeve and an inner heat exchange tube, and the outer sleeve is sealingly connected to the outer sleeve tube plate, and the inner heat exchange tube and the outer sleeve are concentric sleeves.

As a preferred embodiment, a pair of feet are provided below the outer casing tube sheet.

The principle of the invention is as follows: the utility model adopts a plurality of concentric composite pipes (outer casing + inner heat exchange pipe) adopting a linear parallel dense arrangement, and a passage for a refrigerant circulation between the outer casing and the inner heat exchange tube, the outer casing The compartment on the tube plate forms a plurality of sealed refrigerant circulation processes; the inner heat exchange tube is sealingly connected to the tube sheet (composite) through the outer tube tube plate, and forms a plurality of channels for the cooling medium with the compartment of the cap.

During the cooling operation, the refrigerant enters the compartment on the outer casing tube plate through the cooling inlet (refrigeration) at the upper end of the outer casing tube, and then flows in the annular gap between the outer casing and the inner heat exchange tube, and the internal heat exchange is carried out during the flow process. The tube transfers heat to the cooling medium, the refrigerant is cooled and condensed, and the refrigerant condensed into a liquid state flows out from the refrigeration outlet (refrigeration) at the lower end of the outer casing tube plate, and acts as a condenser at this time;

During the heating operation, the refrigerant enters the compartment on the outer casing tube plate through the cooling inlet (heat pump) at the lower end of the outer casing tube plate, and then flows in the annular gap between the outer casing and the inner heat exchange tube, and the internal flow is changed during the flow process. The heat pipe absorbs heat in the cooling medium, the refrigerant is heated and evaporated, and the refrigerant evaporated into a vapor state flows out from the refrigeration outlet (heat pump) at the upper end of the outer casing tube, and acts as an evaporator at this time;

The cooling medium always flows in the inner heat exchange tube, and heat is transferred between the cooling medium and the refrigerant through the inner tube wall.

The advantages of the invention are as follows: (a) convenient cleaning in the heat exchange tube; (b) the refrigerant flows in the annular gap, and the inner heat exchange tube adopts a high-efficiency outer spiral multi-head twist tube or an outer spiral ribbed high-efficiency heat transfer tube, which greatly The heat exchange efficiency outside the tube is improved; (c) no dead angle of oil storage ensures the oil return of the system; the structural characteristics of the casing heat exchanger are maintained, and the structural advantages of the horizontal shell-and-tube heat exchanger are also obtained. Its horizontal casing form and excellent corrosion resistance make it a new type of corrosion-resistant heat pump type horizontal casing heat exchanger. Its unique structural properties are more suitable for heat pumps in various environments around the world. Used in refrigeration systems.

DRAWINGS

1 is a schematic view showing the appearance and structure of a corrosion-resistant heat pump type horizontal casing heat exchanger;

Figure 2 is a working principle diagram of a corrosion-resistant heat pump type horizontal casing heat exchanger;

Figure 3 is a cross-sectional view of a corrosion-resistant heat pump type horizontal casing heat exchanger;

Among them: 1, anti-corrosion block; 2, cover I; 3, tube plate I; 4, outer casing tube plate I; 5, outer casing; 6, internal heat exchange tube; 7, outer casing tube plate II; 8, refrigerant Import; 9, tube plate II; 10, cover head II; 11, cooling medium inlet; 12, cooling medium outlet; 13, foot; 14, refrigerant outlet.

Specific implementation method

The invention is further described below in conjunction with the drawings.

As shown in FIG. 1 , the present invention provides a novel corrosion-resistant heat pump type horizontal casing heat exchanger, which adopts a horizontal installation method, and comprises an anti-corrosion block 1, a cover head, an outer casing tube plate, a composite pipe, and a tube plate. The cover head comprises a cover head I2 and a cover head II10. The anti-corrosion block 1 is fixedly connected with the cover head I2. The tube plate comprises a tube plate I3 and a tube plate II9, and the cover head I2 is connected with the tube plate I3. The outer casing tube plate comprises an outer casing tube plate I4 and an outer casing tube plate II7, the tube plate I3 is connected with the outer casing tube plate I4, and the outer casing tube plate II7 is connected with the tube plate II9, The tube plate II9 is connected to the cover head II10. One side of the upper end of the outer tube tube plate is provided with a refrigerant inlet 8, and one side of the lower end is provided with a refrigerant outlet 14, and the cover head II10 is provided with a cooling medium inlet 11 and Cooling medium outlet 12, the inside of the composite pipe comprises an outer sleeve 5 and an inner heat exchange tube 6, the outer sleeve 5 is sealingly connected with the outer sleeve tube plate, and the inner heat exchange tube 6 and the outer sleeve 5 are concentric casing.

As a preferred embodiment, a pair of feet 13 are provided below the outer casing tube sheet.

The inner heat exchange tube of the invention is an outer spiral multi-head twisted tube or an outer spiral ribbed high-efficiency heat transfer tube. For fresh water or ordinary cooling medium, it can be processed with iron, aluminum, brass, copper and other pipes; for sea water or corrosive cooling medium, It can be processed with aluminum brass, B10 white copper, B30 white copper, stainless steel, titanium metal and other pipes.

The cover head of the invention can be processed by using materials such as iron, aluminum and brass for fresh water or ordinary cooling medium; for seawater or corrosive cooling medium, it can be processed by materials such as aluminum bronze, B10 white copper, B30 white copper, stainless steel and titanium metal.

As a preferred embodiment, the outer sleeve is a seamless steel tube.

As a preferred embodiment, the inner heat exchange tube is processed by copper, B10 white copper, and B30 white copper tube.

In a preferred embodiment, the outer casing tube sheet is made of a steel sheet.

As a preferred embodiment, the tube sheet (composite) sheets I and II are composited with a steel sheet or a material resistant to seawater and corrosive cooling medium.

The anti-corrosion block material of the invention is selected according to seawater or corrosive medium, and is allowed to corrode and protect the cover head, the tube sheet and the heat exchange tube in advance.

This case is a new type of corrosion-resistant heat pump type horizontal casing heat exchanger. The key technologies mentioned above are effective in the similar situation. The size and heat exchange capacity of the present invention are not specified in this case. The horizontal casing heat exchanger can be designed into various sizes and heat exchange sizes as needed.

Claims

Corrosion-resistant heat pump type horizontal casing heat exchanger, the installation method adopts a horizontal structure, including an anti-corrosion block (1), a cover head, an outer casing tube plate, a composite pipe, a pipe plate, and the cover head includes a cover head I (2) And the cover head II (10), the anti-corrosion block (1) is fixedly connected with the cover head I (2), the tube sheet comprises a tube sheet I (3) and a tube sheet II (9), the cover head I (2) connected to the tube sheet I (3), the outer sleeve tube sheet comprises an outer sleeve tube sheet I (4) and an outer sleeve tube sheet II (7), the tube sheet I (3) and the outer sleeve The tube sheet I (4) is connected, the outer sleeve tube sheet II (7) is connected to the tube sheet II (9), and the tube sheet II (9) is connected to the cap head II (10), and the outer tube tube is connected One side of the upper end of the plate is provided with a refrigerant inlet (8), and one side of the lower end is provided with a refrigerant outlet (14), and the cover head II (10) is provided with a cooling medium inlet (11) and a cooling medium outlet (12). The inside of the composite pipe comprises an outer casing (5) and an inner heat exchange pipe (6), the outer casing (5) is sealingly connected with the outer casing tube plate, the inner heat exchange pipe (6) and The outer sleeve (5) is a concentric sleeve.
The corrosion-resistant heat pump type horizontal casing heat exchanger according to claim 1, wherein a pair of feet (13) are disposed below the outer casing tube sheet.