CN209605628U - Corrosion-proof heat exchanger and heat pump system - Google Patents

Abstract

The utility model discloses a kind of corrosion-proof heat exchanger and heat pump system, corrosion-proof heat exchanger include for refrigerant the steel wherein to circulate shell, more be intervally arranged in the shell and supply water circulate wherein with refrigerant carry out heat exchange titanium heat exchanger tube, be mounted on shell at least one end for the composite plate of shell seal；Composite plate includes by the opposite steel plate being complex as a whole of explosive welding and titanium plate；The connecting hole that heat exchanger tube is equipped with perforation to steel plate is corresponded in titanium plate；Steel plate is towards shell and is sealedly connected on the port of shell；The both ends of heat exchanger tube are a tight fit in respectively in the connecting hole of composite plate, are connect with titanium plate.The corrosion-proof heat exchanger of the utility model, it is realized the composite plate made of titanium plate and steel plate and is connected to form one structure with the shell of heat exchanger and titanium heat exchanger, it can be used in high chloride ion environment, it is suitable for the heat exchange of seawater and fresh water and refrigerant, long service life and stabilization reduce maintenance cost.

Description

Corrosion-proof heat exchanger and heat pump system

Technical field

The utility model relates to technical field of heat exchange more particularly to a kind of corrosion-proof heat exchangers and heat pump system.

Background technique

The indoor pool water surface can evaporate a large amount of vapor, need to dehumidify in time, otherwise can corrode finishing, building structure, mesh It is preceding that compression cycle type refrigeration principle is mostly used to carry out cool-down dehumidification greatly.However, amount of heat can be discharged during cool-down dehumidification, It how to be dehumidifying bring one into swimming pool water by the heat recovery for leading to the problem of release.

In compression cycle type refrigeration, single-stage vapor compression refrigeration system is by refrigeration compressor, condenser, evaporator and section Valve four basic element of character composition is flowed, is sequentially connected with pipeline between them, forms a closed system, refrigerant is in systems It constantly circulates, generating state variation carries out heat with the external world and exchanges.Liquid refrigerant absorbs cooled in evaporator Object heat after, be vaporized into low-temp low-pressure steam, by compressor sucking, be compressed into after the steam of high pressure-temperature be discharged into it is cold Condenser, within the condenser to cooling medium (water or air) heat release, be condensed into highly pressurised liquid, be low-pressure low-temperature through throttle valve throttling Refrigerant, be again introduced into evaporator heat absorption vaporization, achieve the purpose that circularly cooling.In this way, refrigerant is in systems by steaming Four hair, compression, condensation, throttling basic processes complete a refrigeration cycle.

In refrigeration systems, evaporator, condenser, compressor and throttle valve are essential four big in refrigeration system Part, evaporator is the equipment for conveying cooling capacity in this, and refrigerant realizes refrigeration in the heat for wherein absorbing object to be cooled.Compression Machine is heart, plays a part of sucking, compression, conveying refrigerant vapour.Condenser is exothermic equipment, will be in evaporator The heat of absorption passes to cooling medium together with the heat that compressor work is converted and takes away.

Condenser is one kind of heat exchanger, is the high temperature that will be discharged in process section, high-pressure medium is cooling or is condensed into liquid Body and externally exothermic equipment, are one of the key equipments in refrigeration system.Common cooling medium is water and air.According to cold But (solidifying) medium and heat transfer mechanism difference, can be divided into air-cooled type, water-cooled and vaporation-type.It can according to heat-transfer area shape and structure To be divided into tubular type, board-like and other structures.

The material of condenser (heat exchanger) is generally based on carbon steel, stainless steel and copper, and wherein the tube sheet of carbon steel material is being made For cooler in use, corrosion leakage often occurs in the weld seam of its tube sheet and tubulation, leakage, which enters cooling water system, be will cause Pollute the waste of environment and material.Tube sheet part is contacted with industrial colling when use, and impurity, salt in industrial colling Class, gas, microorganism can all constitute the corrosion to tube sheet and weld seam.Studies have shown that industry water either fresh water or seawater, all The oxygen of various ions and dissolution is had, wherein the concentration of chloride ion and oxygen changes, and plays an important role to corrosion of metal.

Therefore, it is necessary to researching and developing one kind is suitable for seawater and fresh water, it can the heat exchanger used in high chloride ion environment.

Utility model content

The technical problem to be solved by the present invention is to, one kind is provided and is suitable for seawater and fresh water, it can be in high chloride ion Corrosion-proof heat exchanger and heat pump system used in environment.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of corrosion-proof heat exchanger is provided, including with In refrigerant the steel wherein to circulate shell, more be intervally arranged in the housing and supply water circulate wherein with refrigerant It carries out the heat exchanger tube of the titanium of heat exchange, be mounted on the shell at least one end for the composite plate of the shell seal；

The composite plate includes by the opposite steel plate being complex as a whole of explosive welding and titanium plate；Institute is corresponded in the titanium plate State the connecting hole that heat exchanger tube is equipped with perforation to the steel plate；

The steel plate is towards the shell and is sealedly connected on the port of the shell；Distinguish at the both ends of the heat exchanger tube It is a tight fit in the connecting hole of the composite plate, is connect with the titanium plate.

Preferably, the corrosion-proof heat exchanger further includes the end of the shell is arranged in and connect with the composite plate One end cap；

The first end cover is equipped with inlet and outlet；The water inlet, heat exchanger tube are connected to be formed with outlet water phase Watering cycle disengaging and the water stream channel that heat exchange is carried out with refrigerant.

Preferably, the corrosion-proof heat exchanger includes two composite plates, and two composite plates are separately positioned on described The opposite end of shell；The both ends of the heat exchanger tube are a tight fit in respectively in the connecting hole of two composite plates, with the titanium Plate connection；

The corrosion-proof heat exchanger further includes second end cover, and the first end cover and second end cover are separately positioned on the shell Two ends and connected respectively with the corresponding composite plate；

The interior space of the second end cover is connected with the heat exchanger tube, is formed after supplying water outflow heat exchanger tube to turn back to flow back to and be changed Water flow in heat pipe is turned back space.

Preferably, the first partition component is equipped between the first end cover and the corresponding composite plate, by described first The water outlet that the interior space of end cap is at least divided into the water inlet end being connected with the water inlet, is connected with the water outlet；

The second partition component is equipped between the second end cover and the corresponding composite plate, it will be in the second end cover Water flow turn back space separate at least two water flow return portions.

Preferably, first partition component includes first partition and second partition, the first partition and second partition Interval is arranged and multiple connecting holes in the corresponding composite plate is divided into three groups, respectively first group of connecting hole, second group Connecting hole and third group connecting hole；

The first partition is disposed around the periphery of the water inlet and corresponding first group of connecting hole, make the water inlet and First group of connecting hole is connected to form the water inlet end；

The second partition is disposed around the periphery of the water outlet and corresponding second group of connecting hole, make the water outlet and Second group of connecting hole is connected to form the water outlet；

Space phase in third group connecting hole and corresponding first end cover between the first partition and second partition Connection forms the round-trip portion being isolated with the water inlet end and water outlet；

After water is from the water inlet end into the heat exchanger tube connecting with first group of connecting hole, pass through a water of the second end cover Stream return portion flows into the heat exchanger tube connecting with third group connecting hole, turns back in the round-trip portion and flows back to the another of the second end cover One water flow return portion, then turn back the heat exchanger tube for flowing into and being connect with second group of connecting hole from another water flow return portion, by described Flow out the first end cover in water outlet.

Preferably, second partition component includes that multiple connecting holes in the corresponding composite plate are divided into first group The third partition of connecting hole and second group of connecting hole；

The part connecting hole of first group of connecting hole is opposite with first group of connecting hole in the water inlet end to be overlapped, another part Connecting hole is opposite with the part connecting hole of third group connecting hole in the round-trip portion to be overlapped；

Another part connecting hole phase of the part connecting hole of second group of connecting hole and third group connecting hole in the round-trip portion To coincidence, the connecting hole in another portion is opposite with second group of connecting hole in the water outlet to be overlapped.

Preferably, the third partition include V-shaped plate, two end plates connecting respectively with the V-shaped board ends；

One side of something of the V-shaped plate and the coincidence opposite with the part of the first partition of an end plate of connection, it is another The end plate is opposite with the part of the second partition to be overlapped.

Preferably, the corrosion-proof heat exchanger further includes first be sealed between the first end cover and corresponding composite plate Sealing ring, the second sealing ring being sealed between the second end cover and corresponding composite plate；

First partition component is corresponded on first sealing ring equipped with the first sealing rib；On second sealing ring Corresponding second partition component is equipped with the second sealing rib.

Preferably, the first end cover includes the first cover closed at one end, the open end for being connected to first cover And the first end plate in mating connection with the corresponding composite plate；The inlet and outlet are provided with first cover Closed end on.

Preferably, the second end cover includes the second cover closed at one end, the open end for being connected to second cover And second end plate in mating connection with the corresponding composite plate.

Preferably, the side of the shell is equipped with the refrigerant inlet and refrigerant exit for being respectively used to refrigerant disengaging.

The utility model also provides a kind of heat pump system, including condenser, and the condenser includes at least more than one Corrosion-proof heat exchanger described in one.

The corrosion-proof heat exchanger of the utility model realizes the shell with heat exchanger the composite plate made of titanium plate and steel plate It is connected to form one structure, can be used in high chloride ion environment with titanium heat exchanger, be suitable for seawater and fresh water and refrigerant Heat exchange, long service life and stabilization reduce maintenance cost.

The corrosion-proof heat exchanger of the utility model is applied in heat pump system, suitable for the cool-down dehumidification to indoor pool, together When the heat of generation and water be subjected to heat exchange, realize the recycling of heat.

Detailed description of the invention

Below in conjunction with accompanying drawings and embodiments, the utility model is described in further detail, in attached drawing:

Fig. 1 is the schematic perspective view of the corrosion-proof heat exchanger of an embodiment of the present invention；

Fig. 2 is the cut-away section structural schematic diagram of the corrosion-proof heat exchanger of an embodiment of the present invention；

Fig. 3 is the end construction decomposition diagram of the corrosion-proof heat exchanger of an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of corrosion-proof heat exchanger shown in Fig. 3 in another direction；

Fig. 5 be corrosion-proof heat exchanger A-A shown in Fig. 2 to the schematic diagram of the section structure；

Fig. 6 is the schematic diagram of the section structure of corrosion-proof heat exchanger B-B direction shown in Fig. 2；

Fig. 7 is the structural schematic diagram of condenser in the heat pump system of an embodiment of the present invention.

Specific embodiment

For a clearer understanding of the technical features, objectives and effects of the utility model, now control attached drawing is detailed Illustrate specific embodiment of the present utility model.

As shown in Figure 1, 2, the corrosion-proof heat exchanger 100 of an embodiment of the present invention, including shell 10, more heat exchanger tubes 20 And at least one composite plate 30.Composite plate 30 is mounted at least one end of shell 10, and shell 10 is closed.More heat exchanger tubes 20 It is intervally arranged in shell 10, both ends are pierced into respectively and are connected in composite plate 30.It is flowed wherein inside shell 10 for refrigerant Logical, 20 private water supply of heat exchanger tube is circulated wherein to carry out heat exchange with refrigerant.

Wherein, shell 10 selects seamless welding steel pipe, can bear higher operating pressure compared to conventional PVC shell, can It exchanges heat for high water temperature.Shell 10 is equipped with refrigerant inlet 11 and refrigerant exit 12, is respectively used to refrigerant disengaging.Preferably, cold Matchmaker's import 11 and refrigerant exit 12 are arranged on the opposite end of shell 10, are respectively facing different directions, for example, one upward, separately One downward.

Heat exchanger tube 20 is made of titanium tube, has many advantages, such as that light weight, mechanical performance are superior, resistance to corrosion is strong, therefore It can circulate wherein for seawater or fresh water etc. in heat exchanger tube 20 and carry out heat exchange.

In the present embodiment, shell 10 is the steel pipe of both ends open, and composite plate 30 is set there are two being respectively fitting into shell 10 At both ends, by two port closeds of shell 10.

Composite plate 30 includes the steel plate 31 and titanium plate 32 that opposite composite joint is integrated.Steel plate 31 and titanium plate 32 pass through quick-fried Fried welding manner welds to form one, stable structure.Wherein, for steel plate 31 for connecting with shell 10, titanium plate 32 is used for heat exchanger tube 20 connections, are attached, compatibility is good, stable structure after connection using same metal.

Two composite plates 30 are separately positioned on the opposite end of shell 10, and with steel plate 31 towards shell 10.Steel plate 31 connect with the port sealing of shell 10, thus by the port closed of shell 10；Titanium plate 32 is then located at steel plate 31 backwards to shell 10 Side.The shape of composite plate 30 can be the various shapes such as polygon, circle, and perimeter dimensions are greater than the diameter of 10 port of shell, So as to cooperate in 10 port of shell and by port closed.

With reference to Fig. 2,3, the connecting hole 33 that heat exchanger tube 20 is equipped with perforation to steel plate 31 is corresponded in titanium plate 32.Heat exchanger tube 20 is worn In shell 10, both ends are a tight fit in respectively in the connecting hole 33 of two composite plates 30, are connect with titanium plate 32.Specifically, it exchanges heat One end of pipe 20 is pierced into composite plate 30 by connecting hole 33, reaches titanium plate 32 after passing through steel plate 31 along connecting hole 33, and lead to It crosses the modes such as welding to connect with titanium plate 32, so that the end of heat exchanger tube 20 is fastened in titanium plate 32.

External screw thread can be set in two ends of heat exchanger tube 20, and internal screw thread is arranged in the connecting hole 33 of composite plate 30, thus It the end of heat exchanger tube 20 can be by screw threads for fastening in connecting hole 33.To avoid leakage, the end of heat exchanger tube 20 and connecting hole 33 Between can also further pass through weld seam seal.

In addition, the entire axial sides of heat exchanger tube 20 can also be respectively provided with external screw thread, the heat exchange area of heat exchanger tube 20 is increased, Its coefficient of heat transfer can be 1.5-2.4 times of the smooth heat exchanger tube in the surface of same specification.

Further, as shown in Figure 1, 2, the corrosion-proof heat exchanger 100 of the utility model further includes being separately positioned on shell 10 Both ends and the first end cover 40 and second end cover 50 that are connect with two composite plates 30.First end cover 40 and second end cover 50 are outside At the both ends of shell 10, interior space is connected with heat exchanger tube 20 respectively, increases stream course, facilitates water repeatedly round-trip wherein, mentions The high heat exchange efficiency with refrigerant.

The inner surface of first end cover 40 and second end cover 50 can be coated with epoxy resin erosion resistant coating, play etch-proof work With.

First end cover 40 is equipped with water inlet 401 and water outlet 402, and the two is separately.Water inlet 401, heat exchanger tube 20, Two end caps 50 and out saliva 402 are connected to form watering cycle disengaging and the water stream channel with refrigerant progress heat exchange.Water source Water by water inlet 401 enter heat exchanger tube 20, to 50 direction of second end cover flow, in flow process with the refrigerant in shell 10 Carry out heat exchange；It after reaching second end cover 50, is turned back in second end cover 50 into heat exchanger tube 20, further along heat exchanger tube 20 to the One end cap, 40 direction is flowed, and heat exchange is carried out with the refrigerant in shell 10 again in flow process, finally from first end cover 40 Water outlet 402 flow out.

As shown in figure 3, first end cover 40 may include the first cover 41 closed at one end, the opening for being connected to the first cover 42 The first end plate 42 at end.Water inlet 401 and water outlet 402 are provided on the closed end of the first cover 41.42 conduct of first end plate Flange is in mating connection with corresponding composite plate 30.It, can be tight by bolt etc. when first end plate 42 is connect with composite plate 30 Gu component 43 is realized.

The range that the connecting hole 33 in composite plate 30 connecting with first end cover 40 is distributed is located at 41 periphery of the first cover In the range of covering.

The interior space of second end cover 50 is connected with heat exchanger tube 20, is formed after supplying water outflow heat exchanger tube 20 to turn back and flows back to heat exchange Water flow in pipe 20 is turned back space.As shown in figure 4, second end cover 50 may include the second cover 51 closed at one end, be connected to Second end plate 52 of the open end of two covers 51.Second end plate 52 is used for and corresponding 30 company of matching of composite plate as flange It connects.When second end plate 52 is connect with composite plate 30, it can be realized by the fastening assemblies such as bolt 53.

The range that the connecting hole 33 in composite plate 30 connecting with second end cover 50 is distributed is located at 51 periphery of the second cover In the range of covering.

In conjunction with Fig. 3,4, in order to avoid being stayed between first end cover 40 and composite plate 30, between second end cover 50 and composite plate 30 Having the gap leads to leakage, the corrosion-proof heat exchanger of the utility model further include be sealed in first end cover 40 and corresponding composite plate 30 it Between the first sealing ring 60, the second sealing ring 70 for being sealed between second end cover 50 and corresponding composite plate 30.

First sealing ring 60 is looped around the periphery of multiple connecting holes 33 in corresponding composite plate 30.Second sealing ring 70 is surround The periphery of multiple connecting holes 33 in corresponding composite plate 30.

In order to further increase the heat exchange efficiency between water and refrigerant, water can be driven more in shell 10 along heat exchanger tube 20 It is secondary round-trip.In order to realize the multiple round-trip heat exchange of water, partition component can be set in first end cover 40 and second end cover 50, Water stream channel multiple turn back has been divided into.

As in Figure 3-5, the first partition component 80 is equipped between first end cover 40 and corresponding composite plate 30, by first end The water outlet that the interior space of lid 40 is at least divided into the water inlet end being connected with water inlet 401, is connected with water outlet 402, thus Inflow and outflow at first end cover 40 can be spaced, not lumped together.

In the present embodiment, the first partition component 80 includes first partition 81 and second partition 82, first partition 81 and second The interval of partition 82, which is arranged, is simultaneously divided into three groups for multiple connecting holes 33 in the composite plate 30 connecting with first end cover 40, and respectively the One group of connecting hole, 331, second groups of connecting holes 332 and third group connecting hole 333.Each group include at least two or more company Connect hole 33.

First partition 81 is disposed around the periphery of water inlet 401 and corresponding first group of connecting hole 331, makes 401 He of water inlet First group of connecting hole 331 is connected to form water inlet end.Second partition 82 is disposed around water outlet 402 and corresponding second group of connecting hole 332 periphery makes water outlet 402 be connected to form water outlet with second group of connecting hole 332.Third group connecting hole 333 is located at the Between one partition 81 and second partition 82, and third group connecting hole 333 is connected with space in corresponding first end cover 40, shape At the round-trip portion being isolated with water inlet end and water outlet.The both ends of first partition 81 are attached on the inner wall of first end cover 40. The both ends of second partition 82 are attached on the inner wall of first end cover 40.

After water enters water inlet end from water inlet 401, the is flowed to along the heat exchanger tube 20 connecting with first group of connecting hole 331 In two end caps 50, and it can turn back and flow to round-trip portion along the heat exchanger tube 20 connecting with third group connecting hole 333, be rolled over from round-trip portion It backflows into second end cover 50, then turns back from second end cover 50 and flowed to along the heat exchanger tube 20 being connect with second group of connecting hole 332 The water outlet of first end cover 40, so that water can 2 flowing and refrigerant progress heat exchanges back and forth in shell 10.

Corresponding first partition component 80, is equipped with the second partition component 90 between second end cover 50 and corresponding composite plate 30, By the water flow in second end cover 50 turn back space separate at least two water flow return portions, respectively with the water inlet at first end cover 40 End, water outlet and round-trip portion are connected by heat exchanger tube 20.

In the present embodiment, the second partition component 90 includes third partition 91, the composite plate that will be connect with second end cover 50 Multiple connecting holes 33 on 30 are divided into two groups, respectively first group of connecting hole 334 and second group of connecting hole 335.First group of connection Hole 334 and second group of connecting hole 335 are located in two water flow return portions.

In conjunction with Fig. 5, Fig. 6, the part connecting hole of first group of connecting hole 334 at second end cover 50 and in water inlet end first Group connecting hole 331 is opposite to be overlapped, the in another part connecting hole of first group of connecting hole 334 at second end cover 50 and round-trip portion The part connecting hole of three groups of connecting holes 333 is opposite to be overlapped.The part connecting hole of second group of connecting hole 335 at second end cover 50 with Another part connecting hole of third group connecting hole 333 is opposite in round-trip portion is overlapped, and the in the connecting hole and water outlet in another portion Two groups of connecting holes 332 are opposite to be overlapped.The connecting hole 33 of each pair of coincidence is separately connected the opposite of each corresponding heat exchanger tube 20 Both ends.

In conjunction with the first partition component 80 and the second partition component 90, water enters from water inlet end and connects with first group of connecting hole 331 After the heat exchanger tube 20 connect, the heat exchanger tube connecting with third group connecting hole 333 is flowed by a water flow return portion of second end cover 50 20, it turns back in round-trip portion and flows back to another water flow return portion of second end cover 50, then turn back and flow into from another water flow return portion The heat exchanger tube 20 connecting with second group of connecting hole 332 flows out first end cover 40 by water outlet.

Specifically, in the present embodiment, as shown in Figure 5, Figure 6, third partition 91 may include V-shaped plate, respectively with the V-shaped What board ends connected；Two end plates connect with the inner wall of second end cover 50 respectively.One side of something of third partition 91 and one end of connection Plate is opposite with the part of first partition 81 to be overlapped, and another end plate is opposite with the part of second partition 82 to be overlapped.

Again as shown in Figure 3,4, corresponding first partition component 80, the first sealing ring 60 are equipped with the first sealing rib 61.The There are two one sealing rib 61 is set, extend the shape setting that shape respectively corresponds first partition 81 and second partition 82.Corresponding the Two compartment component 90, the second sealing ring 70 are equipped with the second sealing rib 71, the extension shape of the second sealing rib 71 corresponding the The shape of three partitions 91 is arranged.

In the corrosion-proof heat exchanger of other embodiments, shell 10 can also be steel pipe closed at one end, that the other end is open.It is compound Plate 30 is one, and the open end of shell 10 is closed.First end cover 40 is connect with composite plate 30.Heat exchanger tube 20 can be U-shaped titanium Pipe is arranged in shell 10, and the both ends of heat exchanger tube 20 are a tight fit in respectively in the connecting hole 33 of composite plate 30.Composite plate 30 On multiple connecting holes 33 can be divided into and respectively correspond two groups of water inlet 401 and water outlet 402, one end tight fit of heat exchanger tube 20 In the connecting hole 33 of corresponding water inlet 401, the other end is a tight fit in the connecting hole 33 of corresponding water outlet 402.Water is from first The water inlet 401 of end cap 40 enters in heat exchanger tube 20, in heat exchanger tube 20 flowing and with the refrigerant heat exchange in shell 10, along Heat exchanger tube 20 is flowed in 10 inside turn of shell to 402 direction of water outlet, is finally flowed out from the water outlet 402 of first end cover 40.

As shown in fig. 7, the heat pump system of an embodiment of the present invention, including condenser 200, condenser 200 include extremely A few above-mentioned corrosion-proof heat exchanger 100.

Heat pump system further includes by the sequentially connected refrigeration compressor of pipeline, evaporator and throttle valve etc., condenser 200 It is connected between refrigeration compressor and throttle valve, forms a closed system.

The heat pump system of the utility model is suitable for the cool-down dehumidification of indoor pool, while the heat of generation being passed through cold Condenser 200 and water carry out heat exchange, realize the recycling of heat.

The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is applied directly or indirectly in Other related technical areas are also included in the patent protection scope of the utility model.

Claims (11)

1. a kind of corrosion-proof heat exchanger, which is characterized in that the corrosion-proof heat exchanger (100) includes for refrigerant in the steel wherein to circulate The shell (10) of system, more be intervally arranged in the shell (10) and supply water and wherein circulating to carry out heat exchange with refrigerant The heat exchanger tube (20) of titanium is mounted on the shell (10) at least one end for the shell (10) closed composite plate (30)；

The composite plate (30) includes by the opposite steel plate (31) being complex as a whole of explosive welding and titanium plate (32)；The titanium plate (32) connecting hole (33) that the heat exchanger tube (20) are equipped with perforation to the steel plate (31) is corresponded on；

The steel plate is towards the shell (10) and is sealedly connected on the port of the shell (10)；The heat exchanger tube (20) Both ends are a tight fit in respectively in the connecting hole (33) of the composite plate (30), are connect with the titanium plate (32).

2. corrosion-proof heat exchanger according to claim 1, which is characterized in that the corrosion-proof heat exchanger (100) further includes setting End in the shell (10) and the first end cover (40) that is connect with the composite plate (30)；

The first end cover (40) is equipped with water inlet (401) and water outlet (402)；The water inlet (401), heat exchanger tube (20) Be connected the water stream channel to form watering cycle disengaging and carry out heat exchange with refrigerant with water outlet (402).

3. corrosion-proof heat exchanger according to claim 2, which is characterized in that the corrosion-proof heat exchanger includes two described compound Plate (30), two composite plates (30) are separately positioned on the opposite end of the shell (10)；The two of the heat exchanger tube (20) End is a tight fit in respectively in the connecting hole (33) of two composite plates (30), is connect with the titanium plate (32)；

The corrosion-proof heat exchanger (100) further includes second end cover (50), and the first end cover (40) and second end cover (50) are respectively Two ends in the shell (10) are set and are connected respectively with the corresponding composite plate (30)；

The interior space of the second end cover (50) is connected with the heat exchanger tube (20), forms outflow heat exchanger tube (20) of supplying water and rolls over afterwards The water flow in heat exchanger tube (20) is flowed back into turn back space.

4. corrosion-proof heat exchanger according to claim 3, which is characterized in that the first end cover (40) and corresponding described multiple The first partition component (80) are equipped between plywood (30), the interior space of the first end cover (40) is at least divided into and the water inlet Water inlet end that mouthful (401) are connected, the water outlet being connected with the water outlet (402)；

The second partition component (90) are equipped between the second end cover (50) and the corresponding composite plate (30), by described second Water flow in end cap (50) turn back space separate at least two water flow return portions.

5. corrosion-proof heat exchanger according to claim 4, which is characterized in that first partition component (80) include first every Plate (81) and second partition (82), the first partition (81) and the setting of second partition (82) interval simultaneously will be corresponding described compound Multiple connecting holes on plate (30) are divided into three groups, respectively first group of connecting hole (331), second group of connecting hole (332) and third Group connecting hole (333)；

The first partition (81) is disposed around the periphery of the water inlet (401) and corresponding first group of connecting hole (331), makes institute Water inlet (401) is stated to be connected to form the water inlet end with first group of connecting hole (331)；

The second partition (82) is disposed around the periphery of the water outlet (402) and corresponding second group of connecting hole (332), makes institute Water outlet (402) is stated to be connected to form the water outlet with second group of connecting hole (332)；

Third group connecting hole (333) and corresponding first end cover between the first partition (81) and second partition (82) (40) interior space is connected, and forms the round-trip portion being isolated with the water inlet end and water outlet；

After water is from the water inlet end into the heat exchanger tube (20) connecting with first group of connecting hole (331), pass through the second end cover (50) a water flow return portion flows into the heat exchanger tube (20) connecting with third group connecting hole (333), turns back in the round-trip portion Another water flow return portion of the second end cover (50) is flowed back to, then turns back and flows into and second group of connection from another water flow return portion The heat exchanger tube (20) of hole (332) connection flows out the first end cover (40) by the water outlet.

6. corrosion-proof heat exchanger according to claim 5, which is characterized in that second partition component (90) includes that will correspond to The composite plate (30) on multiple connecting holes (33) be divided into first group of connecting hole (334) and second group of connecting hole (335) Third partition (91)；

The part connecting hole of first group of connecting hole (334) is opposite with first group of connecting hole (331) in the water inlet end to be overlapped, separately A part of connecting hole is opposite with the part connecting hole of third group connecting hole (333) in the round-trip portion to be overlapped；

Another part of third group connecting hole (333) connects in the part connecting hole of second group of connecting hole (335) and the round-trip portion The opposite coincidence in hole is connect, the connecting hole in another portion is opposite with second group of connecting hole (332) in the water outlet to be overlapped.

7. corrosion-proof heat exchanger according to claim 6, which is characterized in that the third partition (91) includes V-shaped plate, divides Two end plates not connected with the V-shaped board ends；

One side of something of the V-shaped plate and the coincidence opposite with the part of the first partition (81) of an end plate of connection, it is another The end plate is opposite with the part of the second partition (82) to be overlapped.

8. corrosion-proof heat exchanger according to claim 4, which is characterized in that the corrosion-proof heat exchanger (100) further includes sealing The first sealing ring (60) between the first end cover (40) and corresponding composite plate (30) is sealed in the second end cover (50) the second sealing ring (70) between corresponding composite plate (30)；

First partition component (80) is corresponded on first sealing ring (60) equipped with the first sealing rib (61)；Described second Second partition component (90) is corresponded on sealing ring (70) equipped with the second sealing rib (71).

9. corrosion-proof heat exchanger according to claim 3, which is characterized in that the first end cover (40) includes closed at one end First cover (41), the open end for being connected to first cover (41) and in mating connection with the corresponding composite plate (30) First end plate (42)；The water inlet (401) and water outlet (402) are provided on the closed end of first cover (41)；

The second end cover (50) includes the second cover (51) closed at one end, the open end for being connected to second cover (51) And second end plate (52) in mating connection with the corresponding composite plate (30).

10. -9 described in any item corrosion-proof heat exchangers according to claim 1, which is characterized in that the side of the shell (10) is set There are the refrigerant inlet (11) and refrigerant exit (12) for being respectively used to refrigerant disengaging.

11. a kind of heat pump system, which is characterized in that including condenser (200), the condenser (200) includes at least one power Benefit requires the described in any item corrosion-proof heat exchangers of 1-10 (100).