CN201926126U - Die sinking titanium tube heat exchanger - Google Patents

Abstract

The utility model discloses a die sinking titanium tube heat exchanger, which is applicable to heat pump equipment such as heat pump water heaters and comprises a casing. A water flow passage and a coolant passage are arranged in the casing, the casing is further provided with a water flow passage inlet, a water flow passage outlet, a coolant passage air inlet and a coolant passage air outlet respectively. The die sinking titanium tube heat exchanger is characterized in that a water flow switch is further mounted on the water flow passage in the casing. By mounting the water flow switch on the water flow passage in the casing of the heat exchanger, a water flow switch additionally arranged on an external water system pipeline is not needed so that the die sinking titanium tube heat exchanger is easy in mounting, and limitation on selection of mounting positions of the heat exchanger due to the water flow switch is avoided, and the heat exchanger has the advantage of simple and reasonable structure.

Description

The die sinking titanium tube heat exchanger

Technical field

The utility model relates to the heat pump technical field of heat exchangers, relates in particular to a kind of die sinking titanium tube heat exchanger that is applicable to heat-pump apparatus.

Background technology

On the existing Teat pump boiler; the capital is provided with heat exchanger (that is: heat exchanger); and traditional heat exchanger structure; generally comprised housing; in housing, be respectively arranged with water stream channel and refrigerant passage; also have the water stream channel entrance and exit on the described housing; and refrigerant passage air intake and gas outlet; refrigerant passage two ends (air intake and gas outlet) are connected expansion valve and compressor respectively; water stream channel is then by the entrance and exit at its two ends and the water system pipeline connection of outside; also be connected with water flow switch on the water system pipeline externally; on guaranteeing the water system pipeline, obtain the suitable discharge; can also guarantee to stop compressor after discharge descends, play very important protective effect.Can accurately work in order to guarantee water flow switch, the straight water pipe that sufficient length must be arranged before and after the water flow switch valve block, therefore, the Teat pump boiler of traditional structure, have the following disadvantages: (1) water flow switch is installed in the outside (water system pipeline) of heat exchanger, and to stay one section long straight tube, and taken a lot of spaces, increased the installation dimension of heat exchanger greatly; Limited by the installation site of water flow switch, also restricted the selection of heat exchanger installation site to a certain extent; (2) on the water system pipeline of heat exchanger outside, also need to be provided with separately adaptive water flow switch interface (that is: installation site), can bring certain trouble to installation.

The utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, and provide a kind of water flow switch is built in die sinking titanium tube heat exchanger on the heat exchanger shell; This kind of heat exchanger can be avoided because of water flow switch limits the selection that install its position, and have simple and reasonable for structure, convenient advantage of installing.

The purpose of this utility model is achieved in that

A kind of die sinking titanium tube heat exchanger, comprise heat exchanger shell, in housing, be respectively arranged with water stream channel and refrigerant passage, also have the water stream channel entrance and exit on the described housing, and refrigerant passage air intake and gas outlet, it is characterized in that, on the water stream channel in the described housing water flow switch is installed also; This kind of die sinking titanium tube heat exchanger, by water flow switch being installed on the water stream channel in the heat exchanger shell, need not again on the water system pipeline externally water flow switch to be set separately, both made things convenient for installation, avoid again because of water flow switch limits the selection that install the heat exchanger position, and have advantage simple and reasonable for structure.

The purpose of this utility model can also adopt following technical measures to solve:

As scheme more specifically, the top of described housing is provided with the water flow switch interface that is connected with water stream channel, and water flow switch is installed on the water flow switch interface; That is: water flow switch can be installed in the top of housing; Certainly, water flow switch also can be installed in other position of housing, as long as can be connected with the water stream channel in the housing; Whole erection is simple and easy, quick, easy, and changes conveniently.

As better scheme, the top of described housing is provided with the water stream channel inlet, and its underpart is provided with the water stream channel outlet, and the water flow switch interface is arranged near the water stream channel outlet other.

As scheme more specifically, described water flow switch interface and housing are Integratively formed, both can guarantee the intensity of water flow switch interface, can satisfy the requirement of production efficiency again.

The beneficial effects of the utility model are:

(1) die sinking titanium tube heat exchanger of the present utility model, by water flow switch being arranged on the water stream channel in the heat exchanger shell, need not again on the water system pipeline externally water flow switch to be set separately, both made things convenient for installation, avoid again because of water flow switch limits the selection that install the heat exchanger position, and have advantage simple and reasonable for structure;

(2) this kind of heat exchanger, because water flow switch interface and housing are whole syndeton, during manufacturing, water flow switch interface and heat exchanger shell can be Integratively formed, both can guarantee the intensity of water flow switch interface, can satisfy the requirement of production efficiency again; Have, water flow switch can directly be connected the water flow switch interface and get final product again, and whole erection is simple and easy, quick, easy, and changes conveniently.

Description of drawings

Fig. 1 is the structural representation of the utility model die sinking titanium tube heat exchanger.

The specific embodiment

As shown in Figure 1, a kind of die sinking titanium tube heat exchanger, comprise heat exchanger shell 1, in housing 1, be respectively arranged with water stream channel 2 and refrigerant passage 3, also have water stream channel inlet 21 and outlet 22 on the described housing 1, and refrigerant passage air intake 31 and gas outlet 32, it is characterized in that, on the water stream channel 2 in the described housing 1 water flow switch 5 is installed also.

The top of described housing 1 is provided with water stream channel inlet 21, its underpart is provided with water stream channel outlet 22, water flow switch interface 4 is arranged near water stream channel outlet 22 other, so as water flow switch 5 directly induced flow export the current at 22 places through it, its accuracy is better.

The specific embodiments of above-mentioned water flow switch 5 can be: be provided with the water flow switch interface 4 that is connected with water stream channel 2 by the top at above-mentioned housing 1, water flow switch interface 4 is Integratively formed with housing 1, during installation, water flow switch 5 can directly be connected water flow switch interface 4 places and get final product, whole erection is simple and easy, quick, easy, and changes conveniently.

Claims (4)

1. die sinking titanium tube heat exchanger, comprise heat exchanger shell (1), in housing (1), be respectively arranged with water stream channel (2) and refrigerant passage (3), also have water stream channel inlet (21) and outlet (22) on the described housing (1), and refrigerant passage air intake (31) and gas outlet (32), it is characterized in that, on the water stream channel (2) in the described housing (1) water flow switch (5) is installed also.

2. according to the described die sinking titanium tube heat exchanger of claim 1, it is characterized in that the top of described housing (1) is provided with the water flow switch interface (4) that is connected with water stream channel (2), water flow switch (5) is installed on the water flow switch interface (4).

3. according to the described die sinking titanium tube heat exchanger of claim 2, it is characterized in that, the top of described housing (1) is provided with water stream channel inlet (21), and its underpart is provided with water stream channel outlet (22), and water flow switch interface (4) is arranged near water stream channel outlet (22) other.

4. according to the described die sinking titanium tube heat exchanger of claim 2, it is characterized in that described water flow switch interface (4) is Integratively formed with housing (1).

Images