CN205119572U - Heat exchanger plate and heat pump -type phase transition restrain heat exchange water heater - Google Patents

Abstract

The utility model provides a heat exchanger plate and heat pump -type phase transition restrain heat exchange water heater, heat exchanger plate include condenser member and phase transition suppression heat transfer device, the condenser component with the phase transition suppresses the heat transfer device and closely laminates together in order to form the integral structure. The utility model discloses combine condenser component and phase transition suppression heat transmitter, form a neotype phase transition and restrain the heat exchanger plate, reduced the heat transfer thermal resistance effectively, enlarged heat transfer area for the heat transfer speed and the efficiency of condenser component, effectively reduced the volume of condenser component, reduced the coolant quantity, accelerated the circulation velocity of compressor, reduce the compressor consumption, thereby has improved heat pump water heater's efficiency. Owing to adopted integrated heat exchanger plate, reduced substantially the manufacturing process and reduced the technology complexity, the automatic large -scale production of realization easy more to reduce cost by a wide margin. (U /)

Description

Heat exchanger plate and heat-pump-type phase transformation suppress exchange water heater

Technical field

The utility model relates to field of water heaters, particularly relates to a kind of heat exchanger plate and heat-pump-type phase transformation suppression exchange water heater.

Background technology

Teat pump boiler, by the flowing of flow media in heat exchanger, realizes carrying out heat exchange to the water in water tank.The heat exchange efficiency improving Teat pump boiler is the target that those skilled in the art pursue always.

At present, according to heat exchanger position and the heat exchanger kind of Teat pump boiler, Teat pump boiler can be divided into outer drum tubular type Teat pump boiler, outward around micropassage type Teat pump boiler and interior drum tubular type Teat pump boiler.On the direction of transfer of heat, no matter outer drum tubular type Teat pump boiler or outer around micropassage type Teat pump boiler, the heat of refrigerant is all passed to tank outer wall by coil pipe wall or microchannel wall, and is passed to the water in water tank by tank inner wall.For interior drum tubular type Teat pump boiler, the heat of refrigerant is passed to the water in water tank by coil pipe wall.In said structure, its heat exchange efficiency can because the thermal resistance of contact interface be excessive and the restriction of heat exchange physical dimension and declining, for solving this technical problem, the general method adopting increase heat exchange area, but this is the volume of unavoidable increasing Teat pump boiler or the capacity of reduction Teat pump boiler again, the increasing that simultaneously there is heat exchanger heat exchange area is subject to the restriction of Teat pump boiler compressor operating condition and cannot effectively expands, and cannot reach the object of Low Temperature Difference high efficient heat exchanging.Strengthen the volume of Teat pump boiler in addition, working medium amount certainly will increase, the power consumption of the compressor also increased.

Therefore, be necessary to provide a kind of heat exchanger plate and heat-pump-type phase transformation to suppress exchange water heater, to change above-mentioned defect.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of heat exchanger plate and heat-pump-type phase transformation to suppress exchange water heater, low for solving heat exchanger heat exchange efficiency in prior art, and simple increase heat exchange area can strengthen again Teat pump boiler volume and increase the problem such as crudy and compressor power consumption, significantly to improve heat exchanger heat exchange efficiency, reduce working medium amount, thus alleviate compressor power consumption, meet the demand of Teat pump boiler Low Temperature Difference high energy efficiency.

For achieving the above object and other relevant objects, the utility model provides a kind of heat exchanger plate, described heat exchanger plate comprises condenser component and phase transformation and suppresses Thermal Conduction Equipment, described condenser component and described phase transformation suppress Thermal Conduction Equipment fit tightly together with to form integral structure.

As a kind of preferred version of heat exchanger plate of the present utility model, described heat exchanger plate comprises middle sheet material, the first sheet material and the second sheet material; Described first sheet material, described middle sheet material and described second sheet material are stacked successively, and described first sheet material and described second sheet material lay respectively at the both sides of described middle sheet material, and are combined with each other by rolling process with described middle sheet material;

Be formed with the condensation pipe with certain planform between described middle sheet material and described first sheet material, the two ends of described condensation pipe are formed with opening, and described opening is suitable for being connected with refrigerant source, to use refrigerant at described condensation pipe Inner eycle; Be formed with the closed conduct with certain planform between described middle sheet material and described second sheet material, in described closed conduct, be filled with heat-transfer working medium;

Described middle sheet material, described first sheet material and described condensation pipe form described condensation component jointly; Described middle sheet material, described second sheet material, described closed conduct and the heat-transfer working medium be filled in described closed conduct jointly form described phase transformation and suppress Thermal Conduction Equipment.

As a kind of preferred version of heat exchanger plate of the present utility model, described closed conduct and described condensation pipe are all formed by blowing-up technology, and described first plate surface forms first bulge-structure corresponding with described condensation pipe, described second plate surface forms second bulge-structure corresponding with described closed conduct.

As a kind of preferred version of heat exchanger plate of the present utility model, the shape of described condensation pipe is that two-way enters that two-way returns loop structure, multichannel is entered multichannel and returned loop structure or parallel loop structure.

As a kind of preferred version of heat exchanger plate of the present utility model, the shape of described closed conduct is hexagonal honeycomb shape, circle is cellular, quadrangle is cellular, multiple U-shapeds of head and the tail series connection, rhombus, triangle, annular or wherein any one above any combination.

As a kind of preferred version of heat exchanger plate of the present utility model, the material of described heat exchanger plate is copper, copper alloy, aluminum or aluminum alloy or wherein any one above any combination.

As a kind of preferred version of heat exchanger plate of the present utility model, the surface of described heat exchanger plate is formed with anticorrosive coat.

The utility model also provides a kind of heat-pump-type phase transformation to suppress exchange water heater, and described heat-pump-type phase transformation suppresses exchange water heater to comprise water tank and at least one heat exchanger plate as described in such scheme.

Suppress a kind of preferred version of exchange water heater as heat-pump-type phase transformation of the present utility model, described heat exchanger plate is coated on the outer wall of described water tank, and described second sheet material adheres on the outer wall of described water tank.

Suppress a kind of preferred version of exchange water heater as heat-pump-type phase transformation of the present utility model, described heat exchanger plate is placed in the inside of described water tank.

Suppress a kind of preferred version of exchange water heater as heat-pump-type phase transformation of the present utility model, described heat exchanger plate adheres on the inwall of described water tank.

The utility model also provides a kind of heat-pump-type phase transformation to suppress exchange water heater, described heat-pump-type phase transformation suppresses exchange water heater to comprise water tank, the casing of described water tank is made up of the heat exchanger plate such as described in such scheme, and the outer surface of described second sheet material is the inwall of described water tank.

As mentioned above, heat-pump-type phase transformation of the present utility model suppresses exchange water heater, there is following beneficial effect: condenser component and phase transformation suppress heat transmitter to be combined by the utility model, form a kind of novel phase transformation and suppress heat exchanger plate, significantly reduce heat transfer resistance, expand heat exchange area, accelerate heat transfer rate and the efficiency of condenser component, effectively reduce the volume of condenser component, reduce coolant quantity, accelerate the circulation rate of compressor, reduce compressor power consumption, thus improve the efficiency of Teat pump boiler.Owing to have employed integrated heat exchanger plate, drastically reduce the area manufacturing process and reduce process complexity, being more prone to realize automatic mass production, thus significantly reducing costs.

Accompanying drawing explanation

Fig. 1 is shown as partial cross section's enlarged drawing of the pipe section in the heat exchanger plate provided in the utility model embodiment one.

The shape that Fig. 2 is shown as the condensation pipe in the heat exchanger plate provided in the utility model embodiment one is the structural representation that two-way enters that two-way goes back to the condensation conduit face of loop structure.

The shape that Fig. 3 is shown as the condensation pipe in the heat exchanger plate provided in the utility model embodiment one is the structural representation that four tunnels enter that the condensation conduit face of loop structure is gone back on four tunnels.

The shape that Fig. 4 is shown as the condensation pipe in the heat exchanger plate provided in the utility model embodiment one is the structural representation in the condensation conduit face of parallel loop structure.

The shape of the enclose inside pipeline that Fig. 5 is shown as in the heat exchanger plate provided in the utility model embodiment one is the structural representation in the phase transformation suppression conduit face of hexagonal honeycomb shape.

The shape of the enclose inside pipeline that Fig. 6 is shown as in the heat exchanger plate provided in the utility model embodiment one is the structural representation that circular cellular phase transformation suppresses conduit face.

The shape of the enclose inside pipeline that Fig. 7 is shown as in the heat exchanger plate provided in the utility model embodiment one is the structural representation that the cellular phase transformation of quadrangle suppresses conduit face.

The shape that Fig. 8 is shown as the condensation pipe provided in the utility model embodiment two is the structural representation that two-way enters heat-pump-type phase transformation that heat exchanger plate that two-way returns loop structure is coated on tank outer wall and suppresses exchange water heater.

The shape that Fig. 9 is shown as the condensation pipe provided in the utility model embodiment two is the structural representation that four tunnels are entered heat-pump-type phase transformation that the heat exchanger plate returning loop structure in four tunnels is coated on tank outer wall and suppressed exchange water heater.

The shape that Figure 10 is shown as the condensation pipe provided in the utility model embodiment two is the structural representation that heat-pump-type phase transformation that the heat exchanger plate of parallel loop structure is coated on tank outer wall suppresses exchange water heater.

The heat exchanger plate that Figure 11 is shown as to be provided in the utility model embodiment two is placed in the structural representation of the heat-pump-type phase transformation suppression exchange water heater of water tank inside.

The shape that Figure 12 is shown as the condensation pipe provided in the utility model embodiment three is the structural representation of heat exchanger plate as the heat-pump-type phase transformation suppression exchange water heater of tank box that two-way enters that two-way returns loop structure.

The shape that Figure 13 is shown as the condensation pipe provided in the utility model embodiment three is the structural representation of heat exchanger plate as the heat-pump-type phase transformation suppression exchange water heater of tank box that four tunnels enter that loop structure is returned on four tunnels.

The shape that Figure 14 is shown as the condensation pipe provided in the utility model embodiment three is the heat exchanger plate of parallel loop structure suppresses exchange water heater structural representation as the heat-pump-type phase transformation of tank box.

Element numbers explanation

1 water tank

11 water intake ends

12 water sides

13 tank outer walls

2 heat exchanger plates

21 condensation conduit faces

211 non-pipe sections

212 condensation pipes

213 refrigerants

214 refrigerant inlet

215 refrigerant exits

22 phase transformations suppress conduit face

221 closed conducts

222 technique mouths

223 heat-transfer working mediums

23 first sheet materials

24 middle sheet materials

25 second sheet materials

26 first bulge-structures

27 second bulge-structures

3 welds

Detailed description of the invention

Below by way of specific instantiation, embodiment of the present utility model is described, those skilled in the art the content disclosed by this description can understand other advantages of the present utility model and effect easily.The utility model can also be implemented or be applied by detailed description of the invention different in addition, and the every details in this description also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present utility model.

Refer to Fig. 1 to Figure 14, it should be noted that, the diagram provided in the present embodiment only illustrates basic conception of the present utility model in a schematic way, though only show the assembly relevant with the utility model in diagram but not component count, shape and size when implementing according to reality is drawn, it is actual when implementing, and the kenel of each assembly, quantity and ratio can be a kind of change arbitrarily, and its assembly layout kenel also may be more complicated.

Embodiment one

Refer to Fig. 1, the utility model provides a kind of heat exchanger plate 2, and described heat exchanger plate comprises condenser component and phase transformation and suppresses Thermal Conduction Equipment, described condenser component and described phase transformation suppress Thermal Conduction Equipment fit tightly together with to form integral structure.

Exemplarily, described heat exchanger plate 2 comprises middle sheet material 24, first sheet material 23 and the second sheet material 25; Described first sheet material 23, described middle sheet material 24 and described second sheet material 25 are stacked successively, and described first sheet material 23 and described second sheet material 25 lay respectively at the both sides of described middle sheet material 24, and are combined with each other by rolling process with described middle sheet material 24; The condensation pipe 212 with certain planform is formed between described middle sheet material 24 and described first sheet material 23, the two ends of described condensation pipe 212 are formed with opening, described opening is suitable for being connected with refrigerant source, to use refrigerant 213 at described condensation pipe 212 Inner eycle; Be formed with the closed conduct 221 with certain planform between described middle sheet material 24 and described second sheet material 25, in described closed conduct 221, be filled with heat-transfer working medium 223; Described middle sheet material 24, described first sheet material 23 and described condensation pipe 212 form described condensation component jointly; Described middle sheet material 24, described second sheet material 25, described closed conduct 221 and the heat-transfer working medium 223 be filled in described closed conduct 221 jointly form described phase transformation and suppress Thermal Conduction Equipment.

Exemplarily, described heat-transfer working medium 223 is fluid, and preferably, described heat-transfer working medium 223 can be the mixture of gas or liquid or gas and liquid, and more preferably, in the present embodiment, described heat-transfer working medium 223 is the mixture of liquid and gas.

Exemplarily, described closed conduct 212 and described condensation pipe 221 are all formed by blowing-up technology, and form first bulge-structure 26 corresponding with described condensation pipe 212 on described first sheet material 23 surface, form second bulge-structure 27 corresponding with described closed conduct 221 on described second sheet material 25 surface.The outer surface that surface is formed with described first sheet material 23 of described first bulge-structure 26 is condensation conduit face 21, and the outer surface that surface is formed with described second sheet material 25 of described second bulge-structure 27 is phase transformation suppression conduit face 22.

Exemplarily, the shape of described condensation pipe 212 can return loop structure for two-way enters two-way, also can enter multichannel for multichannel and return loop structure, such as three tunnels are entered that loop structure is returned on three tunnels, four tunnels enter that loop structure is returned on four tunnels, five tunnels are entered five tunnels and returned loop structure, can also be parallel loop structure.

Fig. 2 is the shape of condensation pipe is the structural representation that two-way enters that two-way goes back to the condensation conduit face of loop structure, as shown in Figure 2, the shape of described condensation pipe 212 is that two-way enters two-way to return described condensation pipe 212 that loop structure refers on described condensation conduit face 21 be that two parallel condensation pipes 212 bend and formed; Wherein, the capillary structure of parallel shape is described condensation pipe 212, is non-pipe section 211 between described condensation pipe 212; One end of described condensation pipe 212 is refrigerant inlet 214, and the other end is refrigerant exit 215.

Fig. 3 is the shape of condensation pipe is the structural representation that four tunnels enter that the condensation conduit face of loop structure is gone back on four tunnels, as shown in Figure 3, the shape of described condensation pipe 212 is that four tunnels are entered four tunnels to return described condensation pipe 212 that loop structure refers on described condensation conduit face 21 be that four parallel condensation pipes 212 bend and formed; Wherein, the capillary structure of parallel shape is described condensation pipe 212, is non-pipe section 211 between described condensation pipe 212; One end of described condensation pipe 212 is refrigerant inlet 214, and the other end is refrigerant exit 215.

The structural representation in Fig. 4 to be the shape of condensation pipe be condensation conduit face of parallel loop structure, as shown in Figure 4, the shape of described condensation pipe 212 is that parallel loop structure refers to that many described condensation pipes 212 are formed along the length direction in described condensation conduit face 21 extends in parallel on described condensation conduit face 21; Wherein, the capillary structure of parallel shape is described condensation pipe 212, is non-pipe section 211 between described condensation pipe 212; One end of described condensation pipe 212 is refrigerant inlet 214, and the other end is refrigerant exit 215.

Exemplarily, the shape of described closed conduct 221 can be hexagonal honeycomb shape, circle is cellular, quadrangle is cellular, multiple U-shapeds of head and the tail series connection, rhombus, triangle, annular or wherein any one above any combination.

The phase transformation of Fig. 5 to be the shape of enclose inside pipeline in heat exchanger plate be hexagonal honeycomb shape suppresses the structural representation in conduit face, as shown in Figure 5, described phase transformation suppresses hexagonal portion on conduit face 22 to be divided into non-pipe section 211, around around each hexagon and the structure be interconnected is described closed conduct 221.It should be noted that, because described closed conduct 221 is prepared from by blowing-up technology, so in the process forming described closed conduct 221, described phase transformation suppresses conduit face 22 is formed with technique mouth 222, namely also for filling working medium mouth.Described technique mouth 222 is after the shape of described closed conduct 221 begins to take shape, and described technique mouth 222 is sealed by welding manner, with realize described closed channel 221 not with extraneous conducting.

Fig. 6 is the shape of enclose inside pipeline in heat exchanger plate is the structural representation that circular cellular phase transformation suppresses conduit face, as shown in Figure 6, described phase transformation suppresses circular portion on conduit face 22 to be non-pipe section 211, around each circular periphery and the structure be interconnected is described closed conduct 221.In Fig. 6, above-mentioned Fig. 5 and related description are shown in the existence of technique mouth 222, are not repeated herein.

The shape of the enclose inside pipeline in Fig. 7 heat exchanger plate is the structural representation that the cellular phase transformation of quadrangle suppresses conduit face, as shown in Figure 7, described phase transformation suppresses quadrangular portion on conduit face 22 to be non-pipe section 211, around around each quadrangle and the structure be interconnected is described closed conduct 221.In Fig. 7, above-mentioned Fig. 5 and related description are shown in the existence of technique mouth 222, are not repeated herein.

Exemplarily, the material (i.e. the material of described first sheet material 23, described middle sheet material 24 and described second sheet material 25) of described heat exchanger plate 2 should be the good material of thermal conductivity; Preferably, in the present embodiment, the material of described heat exchanger plate 2 can be all copper, copper alloy, aluminum or aluminum alloy or any one above any combination.

Exemplarily, the surface of described heat exchanger plate 2 is formed with anticorrosive coat, and namely the outer surface of described first sheet material 23 and described second sheet material 25 is formed with anticorrosive coat.Be formed with anticorrosive coat on the surface of described heat exchanger plate 2, the corrosion resistance of described heat exchanger plate 2 can be improved, and then extend the service life of described heat exchanger plate 2.

Exemplarily, the surface of described heat exchanger plate 2 can also be formed with decorative layer.

The operation principle of described heat exchanger plate 2 is: when to flow through the condensation pipe 212 in condensation conduit face 21 of described heat exchanger plate 2 with latent heat by refrigerant, heat is passed to rapidly phase transformation from condensation pipe 212 and suppresses conduit face 22, because phase transformation suppresses the high heat transfer rate in conduit face 22 and the feature of high heat transfer density, making heat be evenly distributed in rapidly whole phase transformation suppresses on conduit face 22, then heat suppresses conduit face 22 to be passed to the medium needing heating by phase transformation again, water for example in embodiment two in water tank, substantially increase the heat exchange efficiency of the heat exchanger section of Teat pump boiler, achieve the object of Low Temperature Difference high energy efficiency.

Heat exchanger plate by suppressing heat transmitter to be combined described condenser component and described phase transformation to be formed a kind of novel phase transformation to suppress in the present embodiment, significantly reduce heat transfer resistance, expand heat exchange area, accelerate heat transfer rate and the efficiency of condenser component, effectively reduce the volume of condenser component, reduce coolant quantity, accelerate the circulation rate of compressor, reduce compressor power consumption, thus improve the Energy Efficiency Ratio of Teat pump boiler.Owing to have employed integrated heat exchanger plate, drastically reduce the area manufacturing process and reduce process complexity, being more prone to realize automatic mass production, thus significantly reducing costs.

Embodiment two

Refer to Fig. 8 to Figure 11, the utility model also provides a kind of heat-pump-type phase transformation to suppress exchange water heater, and described heat-pump-type phase transformation suppresses exchange water heater to comprise water tank 1 and at least one heat exchanger plate 2 as described in embodiment one.Structure and the feature of the structure of described heat exchanger plate 2 and feature and the heat exchanger plate 2 described in embodiment one are identical, specifically refer to embodiment one, are not repeated here.

Exemplarily, as shown in Fig. 8 to Figure 10, described heat exchanger plate 2 is coated on the outer wall 13 of described water tank 1, and described second sheet material 25 adheres on the outer wall 13 of described water tank 1, and namely described phase transformation suppresses conduit face 22 to adhere on the outer wall of described water tank 1.Wherein, the heat-pump-type phase transformation that the heat exchanger plate of Fig. 8 to be the shape of condensation pipe be two-way enters two-way returns loop structure is coated on tank outer wall suppresses the structural representation of exchange water heater, the heat-pump-type phase transformation that the heat exchanger plate of Fig. 9 to be the shape of condensation pipe be four tunnels enter four tunnels return loop structure is coated on tank outer wall suppresses the structural representation of exchange water heater, and the heat-pump-type phase transformation that the heat exchanger plate of Figure 10 to be the shape of condensation pipe be parallel loop structure is coated on tank outer wall suppresses the structural representation of exchange water heater.Described water tank 1 comprises the water intake end 11 and water side 12 that connect its inside.

The method forming described heat-pump-type phase transformation suppression exchange water heater is: described heat exchanger plate 2 surrounding shear after mould molding is removed rim charge, described refrigerant inlet 214, described refrigerant exit 215 welding connecting tube, fill mouth 222 from described working medium and be filled with working medium and sealing, definite shape is cut into according to required dimension of picture, be rolled into outer wall 13 surface that water tank shape is tightly covered in described water tank 1, and welded along weld 3 at described heat exchanger plate 2 two ends, and the surface of described heat exchanger plate 2 is done anticorrosion and decoration process.

Exemplarily, as shown in figure 11, described heat exchanger plate 2 directly can also be placed in the inside of described water tank 1.Directly be built in described water tank 1 after directly one or more described heat exchanger plate 2 can being cascaded, as shown in figure 11; The shape that also described heat exchanger plate 2 can be rolled into described water tank 1 adheres on the inwall of described water tank 1.

The method described heat exchanger plate 2 being directly placed in the inside of described water tank 1 is: described heat exchanger plate 2 surrounding shear after mould molding is removed rim charge, described refrigerant inlet 214, described refrigerant exit 215 welding connecting tube, fill mouth 222 from described working medium and be filled with working medium and sealing, directly be built in described water tank 1 after being cut into definite shape according to required dimension of picture or adhere on the inwall of described water tank 1, and the surface of described heat exchanger plate 2 being done anticorrosion and decoration process.

Embodiment three

Refer to Figure 12 to Figure 14, the utility model also provides a kind of heat-pump-type phase transformation to suppress exchange water heater, described heat-pump-type phase transformation suppresses exchange water heater to comprise water tank 1, the casing of described water tank 1 is made up of the heat exchanger plate 2 such as described in embodiment one, and the outer surface of described second sheet material 25 is the inwall of described water tank 1, the outer surface of described first sheet material 23 is the outer wall of described water tank 1, namely described phase transformation suppression conduit face 22 is the inwall of described water tank 1, and described condensation conduit face 21 is the outer wall of described water tank 1.Structure and the feature of the structure of described heat exchanger plate 2 and feature and the heat exchanger plate 2 described in embodiment one are identical, specifically refer to embodiment one, are not repeated here.Figure 12 is the shape of condensation pipe is the structural representation of heat exchanger plate as the heat-pump-type phase transformation suppression exchange water heater of tank box that two-way enters that two-way returns loop structure, the heat exchanger plate of Figure 13 to be the shape of condensation pipe be four tunnels enter four tunnels return loop structure suppresses the structural representation of exchange water heater as the heat-pump-type phase transformation of tank box, and the heat exchanger plate of Figure 14 to be the shape of condensation pipe be parallel loop structure suppresses the structural representation of exchange water heater as the heat-pump-type phase transformation of tank box.Described water tank 1 comprises the water intake end 11 and water side 12 that connect its inside.

The method forming described heat-pump-type phase transformation suppression exchange water heater is: described heat exchanger plate 2 surrounding shear after mould molding is removed rim charge, described refrigerant inlet 214, described refrigerant exit 215 welding connecting tube, fill mouth 222 from described working medium and be filled with working medium and sealing, definite shape is cut into according to required dimension of picture, directly make described water tank 1, and the surface of described heat exchanger plate 2 is done anticorrosion and decoration process.

In sum, the utility model provides a kind of heat exchanger plate and heat-pump-type phase transformation to suppress exchange water heater, described heat exchanger plate comprises condenser component and phase transformation and suppresses Thermal Conduction Equipment, described condenser component and described phase transformation suppress Thermal Conduction Equipment fit tightly together with to form integral structure.Condenser component and phase transformation suppress heat transmitter to be combined by the utility model, form a kind of novel phase transformation and suppress heat exchanger plate, significantly reduce heat transfer resistance, expand heat exchange area, accelerate heat transfer rate and the efficiency of condenser component, effectively reduce the volume of condenser component, reduce coolant quantity, accelerate the circulation rate of compressor, reduce compressor power consumption, thus improve the efficiency of Teat pump boiler.Owing to have employed integrated heat exchanger plate, drastically reduce the area manufacturing process and reduce process complexity, being more prone to realize automatic mass production, thus significantly reducing costs.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all without prejudice under spirit of the present utility model and category, can modify above-described embodiment or changes.Therefore, such as have in art and usually know that the knowledgeable modifies or changes not departing from all equivalences completed under the spirit and technological thought that the utility model discloses, must be contained by claim of the present utility model.

Claims (12)

1. a heat exchanger plate, is characterized in that, described heat exchanger plate comprises condenser component and phase transformation and suppresses Thermal Conduction Equipment, described condenser component and described phase transformation suppress Thermal Conduction Equipment fit tightly together with to form integral structure.

2. heat exchanger plate according to claim 1, is characterized in that, described heat exchanger plate comprises middle sheet material, the first sheet material and the second sheet material; Described first sheet material, described middle sheet material and described second sheet material are stacked successively, and described first sheet material and described second sheet material lay respectively at the both sides of described middle sheet material, and are combined with each other by rolling process with described middle sheet material;

Be formed with the condensation pipe with certain planform between described middle sheet material and described first sheet material, the two ends of described condensation pipe are formed with opening, and described opening is suitable for being connected with refrigerant source, to use refrigerant at described condensation pipe Inner eycle; Be formed with the closed conduct with certain planform between described middle sheet material and described second sheet material, in described closed conduct, be filled with heat-transfer working medium;

Described middle sheet material, described first sheet material and described condensation pipe form described condensation component jointly; Described middle sheet material, described second sheet material, described closed conduct and the heat-transfer working medium be filled in described closed conduct jointly form described phase transformation and suppress Thermal Conduction Equipment.

3. heat exchanger plate according to claim 2, it is characterized in that: described closed conduct and described condensation pipe are all formed by blowing-up technology, and described first plate surface forms first bulge-structure corresponding with described condensation pipe, described second plate surface forms second bulge-structure corresponding with described closed conduct.

4. heat exchanger plate according to claim 2, is characterized in that: the shape of described condensation pipe is that two-way enters that two-way returns loop structure, multichannel is entered multichannel and returned loop structure or parallel loop structure.

5. heat exchanger plate according to claim 2, is characterized in that: the shape of described closed conduct is hexagonal honeycomb shape, circle is cellular, quadrangle is cellular, multiple U-shapeds of head and the tail series connection, rhombus, triangle, annular or wherein any one above any combination.

6. heat exchanger plate according to claim 1, is characterized in that: the material of described heat exchanger plate is copper, copper alloy, aluminum or aluminum alloy or wherein any one above any combination.

7. heat exchanger plate according to claim 1, is characterized in that: the surface of described heat exchanger plate is formed with anticorrosive coat.

8. heat-pump-type phase transformation suppresses an exchange water heater, it is characterized in that, described heat-pump-type phase transformation suppresses exchange water heater to comprise water tank and at least one heat exchanger plate according to any one of claim 2 to 5.

9. heat-pump-type phase transformation according to claim 8 suppresses exchange water heater, it is characterized in that: described heat exchanger plate is coated on the outer wall of described water tank, and described second sheet material adheres on the outer wall of described water tank.

10. heat-pump-type phase transformation according to claim 8 suppresses exchange water heater, it is characterized in that: described heat exchanger plate is placed in the inside of described water tank.

11. heat-pump-type phase transformations according to claim 10 suppress exchange water heater, it is characterized in that: described heat exchanger plate adheres on the inwall of described water tank.

12. 1 kinds of heat-pump-type phase transformations suppress exchange water heater, it is characterized in that, described heat-pump-type phase transformation suppresses exchange water heater to comprise water tank, the casing of described water tank is made up of the heat exchanger plate such as according to any one of claim 2 to 5, and the outer surface of described second sheet material is the inwall of described water tank.