CN204421694U - Can the titanium tube heat exchanger of effective improving heat exchanging efficiency - Google Patents

Abstract

The utility model discloses a titanium tube heat exchanger capable of effectively improving heat exchange efficiency, comprising a shell and a top cover at the top of the shell to form a sealed cavity, the top of the shell is provided with a water outlet pipe and a water flow switch located on the water outlet pipe , the bottom of the housing is provided with a water inlet pipe, and the housing is provided with an inner titanium coil connected to the refrigerant outlet protruding from the housing and an outer titanium coil surrounding the inner titanium coil connected to the refrigerant inlet protruding from the housing , the diameter of the inner titanium coil is smaller than the diameter of the outer titanium coil. This titanium tube heat exchanger, which can effectively improve the heat exchange efficiency, sets the heat exchange tubes connecting the refrigerant inlet and the refrigerant outlet as titanium coils with different diameters, so that when the refrigerant gas enters the heat release, the outer titanium coil with a large diameter The coil can reduce the pressure of the heat pump system, and when the refrigerant liquid flows out, the inner titanium coil with a small diameter can ensure sufficient heat exchange, thereby effectively improving the heat exchange efficiency of the titanium tube heat exchanger. This utility model is used for titanium tube heat exchangers heater field.

Description

Titanium tube heat exchanger that can effectively improve heat exchange efficiency

technical field

The utility model relates to the field of heat exchange devices, in particular to a titanium tube heat exchanger that can effectively improve heat exchange efficiency.

Background technique

In the past, the inner and outer titanium coils of titanium tube heat exchangers usually used large-diameter titanium tubes with equal diameters, but in general, the heat transfer efficiency of small-diameter titanium tubes is higher than that of large-diameter titanium tubes. High efficiency, if large-diameter titanium tubes are used for heat exchange, it will not only affect the heat exchange efficiency, but also increase the production cost.

Utility model content

In order to solve the above problems, the utility model provides a titanium tube heat exchanger that can effectively improve heat exchange efficiency.

The technical scheme that the utility model solves its technical problem adopts is:

The titanium tube heat exchanger that can effectively improve heat exchange efficiency includes a shell and a top cover that forms a sealed cavity at the top of the shell. The top of the shell is equipped with a water outlet pipe and a water flow switch on the water outlet pipe. The bottom of the shell There is a water inlet pipe, and the shell is provided with an inner titanium coil connected to the refrigerant outlet protruding from the shell and an outer titanium coil surrounding the inner titanium coil connected to the refrigerant inlet protruding from the shell. The inner titanium coil The pipe diameter is smaller than the pipe diameter of the outer titanium coil.

As a further improvement of the technical solution of the utility model, a water inlet channel with the bottom connected to the water inlet pipe is provided in the housing, and a compartment concentric with the housing is provided between the outer titanium coil and the inner titanium coil, and the compartment is connected to the water inlet. An inner channel is formed between the channels, and an outer channel is formed between the compartment and the shell.

As a further improvement of the technical solution of the utility model, a base is provided at the bottom of the housing, and the base is located at the bottom of the water inlet pipe.

Beneficial effects of the utility model: the titanium tube heat exchanger, which can effectively improve the heat exchange efficiency, sets the heat exchange tubes connecting the refrigerant inlet and the refrigerant outlet as titanium coils with different diameters, so that when the refrigerant gas enters the exothermic , The large-diameter outer titanium coil can reduce the pressure of the heat pump system, and when the refrigerant liquid flows out, the small-diameter inner titanium coil can ensure sufficient heat exchange, thereby effectively improving the heat exchange efficiency of the titanium tube heat exchanger.

Description of drawings

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

Fig. 1 is a schematic diagram of the overall structure of an embodiment of the utility model.

Detailed ways

Referring to Figure 1, the utility model is a titanium tube heat exchanger that can effectively improve heat exchange efficiency, including a shell 8 and a top cover 4 that is located at the top of the shell 8 to form a sealed cavity, and the top of the shell 8 is provided with an outlet pipe 1 And the water flow switch 2 located on the water outlet pipe 1, the bottom of the housing 8 is provided with a water inlet pipe 10, and the housing 8 is provided with an inner titanium coil 11 connected to the refrigerant outlet 3 protruding from the housing 8 and surrounding it. The titanium coil 11 is connected to the outer titanium coil 12 which is connected to the refrigerant inlet protruding from the casing 8 , and the diameter of the inner titanium coil 11 is smaller than that of the outer titanium coil 12 .

This titanium tube heat exchanger, which can effectively improve the heat exchange efficiency, sets the heat exchange tubes connecting the refrigerant inlet and the refrigerant outlet 3 as titanium coils with different diameters, so that when the refrigerant gas enters and releases heat, the outer tube with a large diameter The titanium coil 12 can reduce the pressure of the heat pump system, and when the refrigerant liquid flows out, the small-diameter inner titanium coil 11 can ensure sufficient heat exchange, thereby effectively improving the heat exchange efficiency of the titanium tube heat exchanger.

As a preferred embodiment of the present utility model, the housing 8 is provided with a water inlet channel 5 whose bottom communicates with the water inlet pipe 10, and a compartment concentric with the housing 8 is provided between the outer titanium coil 12 and the inner titanium coil 11. 81 , the inner channel 6 is formed between the compartment 81 and the water inlet channel 5 , and the outer channel 7 is formed between the compartment 81 and the housing 8 .

As a preferred embodiment of the present invention, a base 9 is provided at the bottom of the housing 1 , and the base 9 is located at the bottom of the water inlet pipe 10 .

The high-temperature refrigerant gas first enters the outer titanium coil 12 through the refrigerant inlet, and then enters the inner titanium coil 11 to exchange heat with the cold water entering through the water inlet pipe 10. outflow, and the cold water after the heat exchange becomes hot water, and flows out through the outlet pipe 1.

High-temperature refrigerant gas first enters the outer titanium coil 12 for heat exchange, which is a process of converting high-temperature refrigerant gas into liquid. The use of large-diameter outer titanium coil 12 can effectively reduce the pressure of the heat pump system and reduce operating energy consumption; after liquefaction The high-temperature refrigerant liquid enters the small-diameter inner titanium coil 11, because the small-diameter inner titanium coil 11 has high heat exchange efficiency, which can ensure sufficient heat exchange and improve heat exchange efficiency.

Of course, the present invention is not limited to the above-mentioned embodiments. Those skilled in the art can also make equivalent modifications or replacements without violating the spirit of the present utility model. These equivalent modifications or replacements are all included in the claims of this application. within the limited range.

Claims (3)

1. A titanium tube heat exchanger that can effectively improve heat exchange efficiency, characterized in that it includes a shell (8) and a top cover (4) that forms a sealed cavity at the top of the shell (8), the shell The top of (8) is provided with an outlet pipe (1) and a water flow switch (2) located on the outlet pipe (1), and the bottom of the housing (8) is provided with a water inlet pipe (10), and the housing (8) is equipped with an inner titanium coil (11) connected to the refrigerant outlet (3) protruding from the shell (8) and surrounding the inner titanium coil (11) and protruding from the shell (8). The refrigerant inlet is connected to the outer titanium coil (12), and the diameter of the inner titanium coil (11) is smaller than the diameter of the outer titanium coil (12). 2. The titanium tube heat exchanger capable of effectively improving heat exchange efficiency according to claim 1, characterized in that: the shell (8) is provided with a water inlet channel (5) whose bottom communicates with the water inlet pipe (10) ), the outer titanium coil (12) and the inner titanium coil (11) are provided with a compartment (81) concentric with the casing (8), and the compartment (81) is connected to the water inlet channel (5 ) forms an internal passage (6), and an external passage (7) is formed between the compartment (81) and the housing (8). 3. The titanium tube heat exchanger capable of effectively improving heat exchange efficiency according to claim 1 or 2, characterized in that: the bottom of the shell (1) is provided with a base (9), and the base (9) Located at the bottom of the inlet pipe (10).