CN207095342U - A kind of Waste heated water thermal energy recovering device - Google Patents

Abstract

The utility model discloses a kind of Waste heated water thermal energy recovering device, including heat exchange box, used heat water inlet pipe is provided with the front portion of heat exchange box, spent hot water inputs water pump and used heat water collection tank；The first propeller, the second propeller and heat exchanger tube are provided with the inside of the heat exchange box；The first motor, originally the second motor, water inlet pipe, originally running water input water pump, water discharge pipe and running water discharge water pump are provided with the outer wall of heat exchange box；Some equally distributed heat-exchanger rigs are provided with heat exchanger tube, the heat-exchanger rig includes pedestal, baffle liner, the first heat-conducting block and the second heat-conducting block；Useless cold water discharge pipe, useless cold water discharge water pump and useless cold Water Sproading case are provided with the rear portion of heat exchange box.Waste heated water thermal energy recovering device described in the utility model can be after heat exchanging waste water carry out filtration treatment, make waste water as reclaimed water or afforest water source and use, and heat-exchanger rig is fully contacted with spent hot water, improve the efficiency of thermal energy exchange.

Description

A kind of Waste heated water thermal energy recovering device

Technical field

It the utility model is related to energy recovery field, more particularly to a kind of Waste heated water thermal energy recovering device.

Background technology

In the production and life, substantial amounts of spent hot water can be produced, many spent hot waters are not just direct by recycling It is discharged among natural environment, causes the waste of a large amount of heat resources, and pollution is also result in environment.Existing used heat Although water heat-energy recovering apparatus still has necessarily not in use with certain heat energy recycle function Foot：

1) heat-energy recovering apparatus is after the energy recovery of spent hot water is completed, often by direct discharging of waste water to sewer or river In stream, filtration treatment and the function of recycling are carried out to waste water due to lacking, pollution is caused to environment, also result in simultaneously The waste of great lot of water resources.

2) heat-energy recovering apparatus is during energy recovery is carried out, because contact of the heat-exchanger rig with spent hot water is not filled Point so that thermal energy exchange it is less efficient.

Utility model content

In order to make up the deficiencies in the prior art, the utility model provides a kind of Waste heated water thermal energy recovering device, can be right Waste water after heat exchange carries out filtration treatment, waste water is used as reclaimed water or greening water source, reduces the pollution to environment and water The waste of resource；Heat-exchanger rig can be made fully to be contacted with spent hot water during energy recovery, improve thermal energy exchange Efficiency, to solve problems of the prior art.

The utility model is achieved by the following technical solution：

A kind of Waste heated water thermal energy recovering device, including heat exchange box, used heat water inlet pipe is provided with the front portion of the heat exchange box, The used heat water inlet pipe is located at the right positions of the anterior tank wall of heat exchange box, and spent hot water is provided with the used heat water inlet pipe Input water pump；Used heat water collection tank is provided with the front portion of the heat exchange box, the used heat water collection tank passes through used heat water inlet pipe It is connected with heat exchange box；Used heat water collection pipe is provided with the front portion of the used heat water collection tank；In the used heat water collection tank Bottom interior wall is provided with permanent magnet, screen pack is provided with the rear portion of the permanent magnet, the screen pack is with horizontal direction in certain Angle of inclination；

The vertical view cross-sectional shape of the heat exchange box is hollow；The is provided with the inwall of the left side casing of the heat exchange box One propeller, first propeller are located at the forward position of the left side casing of heat exchange box；It is provided with the left side of the heat exchange box First motor, first motor are connected with the first propeller；The is provided with the inwall of the right side casing of the heat exchange box Two propellers, second propeller are located at the rear positions of the right side casing of heat exchange box；It is provided with the right side of the heat exchange box Second motor, second motor are connected with the second propeller；

Heat exchanger tube is provided with the inside of the heat exchange box, the vertical view cross-sectional shape of the heat exchanger tube is hollow；Described The front portion of the right side casing of heat exchange box is provided with originally water inlet pipe, the originally water inlet pipe and extends to the inside of heat exchange box, and It is connected with the front portion of heat exchanger tube；Running water input water pump is originally provided with water inlet pipe described；On a left side for the heat exchange box The rear portion of side box body is provided with originally water discharge pipe, and the originally water discharge pipe extends to the inside of heat exchange box, and with heat exchanger tube Rear portion is connected；Running water discharge water pump is originally provided with water discharge pipe described；Heating is provided with the left side of the heat exchange box Water storage tank, described plus hot water storage tank are connected by originally water discharge pipe with heat exchange box；On described plus hot water storage tank Provided with heating water discharge pipe；

Some equally distributed heat-exchanger rigs are provided with the heat exchanger tube, the heat-exchanger rig includes pedestal and water conservancy diversion Circle；The pedestal is socketed on heat exchanger tube, and the side, sectional shape of the pedestal is cylindrical type；The baffle liner is respectively positioned on The front portion of pedestal, the side, sectional shape of the baffle liner is tapered；It is equipped with the side wall of the pedestal some uniform First heat-conducting block of distribution, first heat-conducting block is cuboid-type；It is equipped with the top of first heat-conducting block some Equally distributed second heat-conducting block；Second heat-conducting block includes symmetrical the first thermally conductive sheet and the second thermally conductive sheet, described The front cross-sectional shape of first thermally conductive sheet and the second thermally conductive sheet is circular arc type；First heat-conducting block and the second heat-conducting block are Aluminium material；

Useless cold water discharge pipe is provided with the rear portion of the heat exchange box, the useless cold water discharge pipe is located at the rear portion case of heat exchange box The leftward position of wall, useless cold water discharge water pump is provided with the useless cold water discharge pipe；In the rear portion casing of the heat exchange box Inwall is provided with the first temperature sensor, and first temperature sensor inputs water pump and useless cold water discharge water with spent hot water respectively Pump is electrically connected with；Second temperature sensor, the second temperature sensing are provided with the inwall of the rear tube of the heat exchanger tube Device inputs water pump with running water respectively and running water discharge water pump is electrically connected with；

Be provided with useless cold Water Sproading case at the rear portion of the heat exchange box, the useless cold Water Sproading case by useless cold water discharge pipe with Heat exchange box is connected；Active carbon layer, quartz sand layer and PP cottons are sequentially provided with from front to back in the inside of the useless cold Water Sproading case Layer, the active carbon layer, quartz sand layer and PP cottons layer are in certain angle of inclination with horizontal direction；In the useless cold Water Sproading The rear portion of case is provided with useless cold Water Sproading pipe.

Further optimally, the mesh aperture of the screen pack is 1-2 millimeters.

Further optimally, the screen pack and the angle of horizontal direction are 45-60 degree.

Further optimally, the active carbon layer, quartz sand layer and PP cottons layer and the angle of horizontal direction are 45-60 Degree.

Further optimally, the heat exchange box, used heat water collection tank and add hot water storage tank cabinet exterior on cover It is stamped polyurethane heat insulation material.

The beneficial effects of the utility model are：

Waste heated water thermal energy recovering device described in the utility model can be after heat exchanging waste water carry out filtration treatment, make to give up Water uses as reclaimed water or greening water source, reduces the pollution to environment and the waste of water resource；Can be in energy recovery process In heat-exchanger rig is fully contacted with spent hot water, the efficiency of thermal energy exchange is improved, suitable for wide popularization and application.

Brief description of the drawings

Fig. 1 is dimensional structure diagram of the present utility model.

Fig. 2 is overlooking the structure diagram of the present utility model.

Fig. 3 is side perspective structural representation of the present utility model.

Fig. 4 is the perspective structure perspective diagram of heat exchange box in the utility model.

Fig. 5 is the structural representation of heat exchanger tube and heat-exchanger rig in the utility model.

Fig. 6 is the forward sight structural representation of heat exchanger tube in the utility model.

Fig. 7 is the structural representation of the first heat-conducting block and the second heat-conducting block in the utility model.

In figure, 1, heat exchange box；11st, used heat water inlet pipe；12nd, spent hot water inputs water pump；13rd, useless cold water discharge pipe；14th, give up Cold water discharges water pump；15th, useless cold Water Sproading pipe；

2nd, used heat water collection tank；21st, used heat water collection pipe；22nd, permanent magnet；23rd, screen pack；

3rd, the first propeller；31st, the first motor；32nd, the second propeller；33rd, the second motor；

4th, heat exchanger tube；41st, originally water inlet pipe；42nd, running water input water pump；43rd, originally water discharge pipe；44th, running water Discharge water pump；45th, hot water storage tank is added；46th, water discharge pipe is heated；

5th, heat-exchanger rig；51st, pedestal；52nd, baffle liner；53rd, the first heat-conducting block；54th, the second heat-conducting block；55th, the first heat conduction Piece；56th, the second thermally conductive sheet；6th, the first temperature sensor；61st, second temperature sensor；

7th, useless cold Water Sproading case；71st, active carbon layer；72nd, quartz sand layer；73rd, PP cottons layer.

Embodiment

For the technical characterstic for illustrating this programme can be understood, below by embodiment, and its accompanying drawing is combined, to this reality It is described in detail with new.

As shown in Fig. 1-Fig. 7, present embodiment discloses a kind of Waste heated water thermal energy recovering device, including heat exchange box 1, described The front portion of heat exchange box 1 is provided with used heat water inlet pipe 11, and the used heat water inlet pipe 11 is located at the right side of the anterior tank wall of heat exchange box 1 Position, spent hot water's input water pump 12 is provided with the used heat water inlet pipe 11；Spent hot water is provided with the front portion of the heat exchange box 1 Collecting box 2, the used heat water collection tank 2 are connected by used heat water inlet pipe 11 with heat exchange box 1；In the used heat water collection tank 2 front portion is provided with used heat water collection pipe 21, and caused spent hot water is input to useless by used heat water collection pipe 21 in production or life Stored in hot-water collection's case 2.The spent hot water inputs water pump 12 and is used to extract out the spent hot water in used heat water collection tank 2, It is transported to by used heat water inlet pipe 11 in heat exchange box 1, spent hot water is exchanged heat.

Permanent magnet 22 is provided with the bottom interior wall of the used heat water collection tank 2, for adsorbing the gold contained in spent hot water Belong to impurity.Screen pack 23 is provided with the rear portion of the permanent magnet 22, the impurity larger for filtering out volume in spent hot water, is reduced The impurity contained in spent hot water causes the blocking inside heat exchange box 1.Preferably, the mesh aperture of the screen pack 23 is 1-2 millis Rice.The screen pack 23 and horizontal direction are in certain angle of inclination, enable the inclining along screen pack 23 of the impurity after filtering Skewed surface forms accumulation in the bottom of used heat water collection tank 2, is easy to clear up impurity.Preferably, the screen pack 23 with The angle of horizontal direction is 45-60 degree.

The vertical view cross-sectional shape of the heat exchange box 1 is hollow (as shown in Figure 4), is easy to the spent hot water of input in heat exchange box 1 be internally formed circulates.The first propeller 3, first spiral shell are provided with the inwall of the left side casing of the heat exchange box 1 Rotation oar 3 is located at the forward position of the left side casing of heat exchange box 1；It is provided with the first motor 31 in the left side of the heat exchange box 1, described One motor 31 is connected with the first propeller 3.The second propeller 32 is provided with the inwall of the right side casing of the heat exchange box 1, Second propeller 32 is located at the rear positions of the right side casing of heat exchange box 1；The second electricity is provided with the right side of the heat exchange box 1 Machine 33, second motor 33 are connected with the second propeller 32.After spent hot water is input to the inside of heat exchange box 1, start the One motor 31 and the second motor 33, the first propeller 3 and the second propeller 32 can be driven to rotate respectively, promote spent hot water changing Formed and circulated in hot tank 1, be easy to sufficiently be contacted between spent hot water and heat-exchanger rig, improve the effect of thermal energy exchange Rate.(direction of arrow in Fig. 4 circulates direction for spent hot water in heat exchange box 1.)

Heat exchanger tube 4 is provided with the inside of the heat exchange box 1, the vertical view cross-sectional shape of the heat exchanger tube 4 is hollow.Institute The front portion of the right side casing of heat exchange box 1 is stated provided with originally water inlet pipe 41, the originally water inlet pipe 41 extend to heat exchange box 1 Inside, and be connected with the front portion of heat exchanger tube 4.Running water input water pump 42 is provided with the originally water inlet pipe 41, is used for Running water is transported in heat exchanger tube 4 by originally water inlet pipe 41, entered the heat of spent hot water with running water by heat exchanger tube 4 Row thermal energy exchange, improve the temperature of running water.

It is provided with that originally water discharge pipe 43, the originally water discharge pipe 43 prolong at the rear portion of the left side casing of the heat exchange box 1 The inside of heat exchange box 1 is extended, and is connected with the rear portion of heat exchanger tube 4；Running water is provided with the originally water discharge pipe 43 to arrange Go out water pump 44.It is provided with the left side of the heat exchange box 1 plus hot water storage tank 45, described plus hot water storage tank 45 is arranged by running water Outlet pipe 43 is connected with heat exchange box 1；Heating water discharge pipe 46 is provided with described plus hot water storage tank 45.The running water discharge Water pump 44 is used to export in the running water for completing thermal energy exchange in heat exchanger tube 4, and heating water is transported to by originally water discharge pipe 43 Stored in storage tank 45.The running water that the heating water discharge pipe 46 is used for after the heating that will add in hot water storage tank 45 is defeated Go out, as production or domestic water.

Some equally distributed heat-exchanger rigs 5 (as shown in Figure 5) are provided with the heat exchanger tube 4, the heat-exchanger rig 5 wraps Include pedestal 51 and baffle liner 52；The pedestal 51 is socketed on heat exchanger tube 4, and the side, sectional shape of the pedestal 51 is circle Column type；The baffle liner 52 is respectively positioned on the front portion of pedestal 51, and the side, sectional shape of the baffle liner 52 is tapered；Described Some equally distributed first heat-conducting blocks 53 are equipped with the side wall of pedestal 51, first heat-conducting block 53 is cuboid-type； Some equally distributed second heat-conducting blocks 54 are equipped with the top of first heat-conducting block 53.The baffle liner 52 is used to change The flow direction of spent hot water, make conical surface of the spent hot water along baffle liner 52, flow to the first heat-conducting block 53 and the second heat-conducting block 54, carry High spent hot water and the contact area of the first heat-conducting block 53 and the second heat-conducting block 54.

Second heat-conducting block 54 includes the first symmetrical thermally conductive sheet 55 and the second thermally conductive sheet 56 (as shown in Figure 7), The front cross-sectional shape of the thermally conductive sheet 56 of first thermally conductive sheet 55 and second is circular arc type, by increasing capacitance it is possible to increase the He of the first thermally conductive sheet 55 Second thermally conductive sheet 56 and the heat exchange area of spent hot water, improve heat exchange efficiency.The heat-conducting block 54 of first heat-conducting block 53 and second is equal For aluminium material, there is preferable heat absorption capacity.During use, spent hot water transfers heat to the first heat conduction in flow process The heat of absorption is passed through pedestal 51 and heat exchange by the thermally conductive sheet 56 of piece 55 and second, the thermally conductive sheet 56 of the first thermally conductive sheet 55 and second Running water in heat and heat exchanger tube 4 is carried out thermal energy exchange by the tube wall of pipe 4, to tap water heating, carries out the recovery of heat energy.

Useless cold water discharge pipe 13 is provided with the rear portion of the heat exchange box 1, the useless cold water discharge pipe 13 is located at heat exchange box 1 The leftward position of rear portion tank wall, useless cold water discharge water pump 14 is provided with the useless cold water discharge pipe 13.Complete thermal energy exchange Spent hot water is changed into useless cold water after temperature reduction, and the useless cold water discharge water pump 14 is used to, by the useless cold water in heat exchange box 1, pass through Useless cold water discharge pipe 13 is extracted out.

The first temperature sensor 6 is provided with the inwall of the rear portion casing of the heat exchange box 1, for detecting in heat exchange box 1 The temperature of spent hot water, first temperature sensor 6 inputs water pump 12 with spent hot water respectively and useless cold water discharge water pump 14 is electrical Connection, when the first temperature sensor 6 detects that the temperature of spent hot water in heat exchange box 1 is relatively low, useless cold water discharge water can be controlled Pump 14 is operated, and the useless cold water in heat exchange box 1 is discharged, and is then controlled spent hot water to input water pump 12 and is operated, and is to be conveyed in heat exchange box 1 The higher spent hot water of temperature, carry out thermal energy exchange.Second temperature is provided with the inwall of the rear tube of the heat exchanger tube 4 to sense Device 61, for detecting the temperature of running water in heat exchanger tube 4, the second temperature sensor 61 inputs water pump 42 with running water respectively It is electrically connected with running water discharge water pump 44, when second temperature sensor 61 detects that the running water in heat exchanger tube 4 is heated to During predetermined temperature, running water discharge water pump 44 can be controlled to operate, the running water that heating is completed in heat exchanger tube 4 is discharged, then Control running water input water pump 42 operates, and is the running water that input temp is relatively low in heat exchanger tube 4, heat energy friendship is carried out with spent hot water Change.

Useless cold Water Sproading case 7 is provided with the rear portion of the heat exchange box 1, the useless cold Water Sproading case 7 is discharged by useless cold water Pipe 13 is connected with heat exchange box 1, and the useless cold water discharge water pump 14 extracts the useless cold water in heat exchange box 1 out, is arranged by useless cold water Outlet pipe 13 is transported in useless cold Water Sproading case 7 and stored.It is sequentially provided with from front to back in the inside of the useless cold Water Sproading case 7 Active carbon layer 71, quartz sand layer 72 and PP cottons layer 73, for being filtered to useless cold water.The active carbon layer 71 is useless for reducing Content of beary metal in cold water；The quartz sand layer 72 can remove suspension and solids in useless cold water；The PP cottons layer 73 can adsorb impurity, sludge and mineral particle in useless cold water.The active carbon layer 71, quartz sand layer 72 and PP cottons layer 73 It is in certain angle of inclination with horizontal direction, by increasing capacitance it is possible to increase the contact area of useless cold water and filter layer, and filtering can be made Inclined surface of the impurity afterwards along filter layer forms accumulation in the bottom of useless cold Water Sproading case 7, is easy to useless cold Water Sproading case 7 Cleared up.Preferably, the active carbon layer 71, quartz sand layer 72 and PP cottons layer 73 and the angle of horizontal direction are 45-60 Degree.Useless cold Water Sproading pipe 15 is provided with the rear portion of the useless cold Water Sproading case 7, for the useless cold water after filtering to be exported, makes to give up Cold water can be used as reclaimed water or greening water to be used, and reduce the waste of water resource.

As a preferred embodiment, in the heat exchange box 1, used heat water collection tank 2 and add hot water storage tank's 45 Polyurethane heat insulation material is all covered with cabinet exterior, by increasing capacitance it is possible to increase the heat-insulating property of casing, further improve spent hot water's heat energy The efficiency of recovery.

To sum up, the waste water that Waste heated water thermal energy recovering device described in the utility model can be after heat exchanging is carried out at filtering Reason, waste water is used as reclaimed water or greening water source, reduce the pollution to environment and the waste of water resource；It can be returned in heat energy Heat-exchanger rig is fully contacted with spent hot water during receipts, improve the efficiency of thermal energy exchange.

Part is not described in detail for the utility model, is the known technology of those skilled in the art of the present technique.Finally illustrate, with Upper embodiment is only to illustrate the technical solution of the utility model and unrestricted, although with reference to preferred embodiment to the utility model It is described in detail, it will be understood by those within the art that, the technical solution of the utility model can be repaiied Change or equivalent substitution, without departing from the objective and scope of technical solutions of the utility model, it all should cover in the utility model Right among.

Claims (5)

1. a kind of Waste heated water thermal energy recovering device, including heat exchange box (1), it is characterised in that：Set in the front portion of the heat exchange box (1) There is used heat water inlet pipe (11), the used heat water inlet pipe (11) is located at the right positions of the anterior tank wall of heat exchange box (1), in institute State used heat water inlet pipe (11) and input water pump (12) provided with spent hot water；Received in the front portion of the heat exchange box (1) provided with spent hot water Header (2), the used heat water collection tank (2) are connected by used heat water inlet pipe (11) with heat exchange box (1)；In the spent hot water The front portion of collecting box (2) is provided with used heat water collection pipe (21)；Permanent magnetism is provided with the bottom interior wall of the used heat water collection tank (2) Body (22), screen pack (23) is provided with the rear portion of the permanent magnet (22), and the screen pack (23) is in certain with horizontal direction Angle of inclination；

The vertical view cross-sectional shape of the heat exchange box (1) is hollow；It is provided with the inwall of the left side casing of the heat exchange box (1) First propeller (3), first propeller (3) are located at the forward position of the left side casing of heat exchange box (1)；In the heat exchange box (1) left side is provided with the first motor (31), and first motor (31) is connected with the first propeller (3)；In the heat exchange box (1) inwall of right side casing is provided with the second propeller (32), and second propeller (32) is located at the right side of heat exchange box (1) The rear positions of casing；The second motor (33), second motor (33) and the second spiral shell are provided with the right side of the heat exchange box (1) Rotation oar (32) is connected；

Heat exchanger tube (4) is provided with the inside of the heat exchange box (1), the vertical view cross-sectional shape of the heat exchanger tube (4) is hollow； The front portion of the right side casing of the heat exchange box (1) is provided with originally water inlet pipe (41), the originally water inlet pipe (41) extend to The inside of heat exchange box (1), and be connected with the front portion of heat exchanger tube (4)；Running water is provided with the originally water inlet pipe (41) Input water pump (42)；Originally water discharge pipe (43), the running water row are provided with the rear portion of the left side casing of the heat exchange box (1) Outlet pipe (43) extends to the inside of heat exchange box (1), and is connected with the rear portion of heat exchanger tube (4)；In the originally water discharge pipe (43) it is provided with running water discharge water pump (44)；It is provided with the left side of the heat exchange box (1) and adds hot water storage tank (45), it is described to add Hot water storage tank (45) is connected by originally water discharge pipe (43) with heat exchange box (1)；On described plus hot water storage tank (45) Provided with heating water discharge pipe (46)；

Some equally distributed heat-exchanger rigs (5) are provided with the heat exchanger tube (4), the heat-exchanger rig (5) includes pedestal And baffle liner (52) (51)；The pedestal (51) is socketed on heat exchanger tube (4), and the side, sectional shape of the pedestal (51) is equal For cylindrical type；The baffle liner (52) is respectively positioned on the front portion of pedestal (51), and the side, sectional shape of the baffle liner (52) is It is tapered；Some equally distributed first heat-conducting blocks (53), first heat-conducting block are equipped with the side wall of the pedestal (51) (53) it is cuboid-type；Some equally distributed second heat-conducting blocks are equipped with the top of first heat-conducting block (53) (54)；Second heat-conducting block (54) includes symmetrical the first thermally conductive sheet (55) and the second thermally conductive sheet (56), and described first The front cross-sectional shape of thermally conductive sheet (55) and the second thermally conductive sheet (56) is circular arc type；First heat-conducting block (53) and second is led Hot block (54) is aluminium material；

Useless cold water discharge pipe (13) is provided with the rear portion of the heat exchange box (1), the useless cold water discharge pipe (13) is located at heat exchange box (1) leftward position of rear portion tank wall, useless cold water discharge water pump (14) is provided with the useless cold water discharge pipe (13)；Described The inwall of the rear portion casing of heat exchange box (1) is provided with the first temperature sensor (6), first temperature sensor (6) respectively with Spent hot water inputs water pump (12) and useless cold water discharge water pump (14) is electrically connected with；The heat exchanger tube (4) rear tube it is interior Wall is provided with second temperature sensor (61), and the second temperature sensor (61) inputs water pump (42) and oneself with running water respectively Water discharge water pump (44) is electrically connected with；

Useless cold Water Sproading case (7) is provided with the rear portion of the heat exchange box (1), the useless cold Water Sproading case (7) is arranged by useless cold water Outlet pipe (13) is connected with heat exchange box (1)；Active carbon layer is sequentially provided with from front to back in the inside of the useless cold Water Sproading case (7) (71), quartz sand layer (72) and PP cottons layer (73), the active carbon layer (71), quartz sand layer (72) and PP cottons layer (73) are and water Square in certain angle of inclination；Useless cold Water Sproading pipe (15) is provided with the rear portion of the useless cold Water Sproading case (7).

2. Waste heated water thermal energy recovering device according to claim 1, it is characterised in that：The mesh hole of the screen pack (23) Footpath is 1-2 millimeters.

3. Waste heated water thermal energy recovering device according to claim 1, it is characterised in that：The screen pack (23) and level side To angle be 45-60 degree.

4. Waste heated water thermal energy recovering device according to claim 1, it is characterised in that：The active carbon layer (71), quartz Layer of sand (72) and PP cottons layer (73) and the angle of horizontal direction are 45-60 degree.

5. Waste heated water thermal energy recovering device according to claim 1, it is characterised in that：In the heat exchange box (1), spent hot water Collecting box (2) and add hot water storage tank (45) cabinet exterior on be all covered with polyurethane heat insulation material.