CN203810625U - Novel air conditioner and water heater integrated system provided with micro-channel heat exchanger - Google Patents

Abstract

The utility model discloses a novel air conditioner and water heater integrated system provided with a micro-channel heat exchanger and relates to the technical field of air conditioners and water heaters. The novel air conditioner and water heater integrated system comprises an air condition compressor, a condenser, an evaporator, a throttling element, a hot-water storage tank and a cold-water storage tank. The condenser and the evaporator are identical in structure, each of the condenser and the evaporator is composed of a heat exchanger shell and a heat exchanging device, and the heat exchanger shell is provided with a water inlet, a water outlet, a refrigerant inlet and a refrigerant outlet; the water inlet pipe of the hot-water storage tank is communicated with the water outlet of the condenser, and the water inlet pipe of the cold-water storage tank is communicated with the water outlet of the evaporator; each heat exchanging device is composed of a plurality of refrigerant heat exchanging plates and water liquid heat exchanging plates, and multiple interwoven meshed grooves are formed in the front sides of the refrigerant heat exchanging plates and the water liquid heat exchanging plates while the reverse sides of refrigerant heat exchanging plates and the water liquid heat exchanging plates are smooth panels. Waste heat and remaining cool air generated from the air conditioner can be reused, so that energy utilization rate can be increased, energy consumption can be reduced, and life can be facilitated.

Description

A kind of air-conditioning water heater integration system with micro-channel heat exchanger

Technical field:

The utility model relates to air conditioner and water heater equipment technical field, more specifically to a kind of air-conditioning water heater integration system with micro-channel heat exchanger.

Background technology:

Existing air-conditioning and water heater are two kinds of different equipment, it respectively has effect, and both are combined in existing equipment to have plenty of, by plate type heat exchanger, undertaken in conjunction with the used heat in the condenser on outdoor machine of air-conditioner is recycled to realize, yet it just realizes used heat utilization, and while flowing through in the evaporimeter of cold-producing medium from indoor apparatus of air conditioner, a large amount of heat is sucked and makes the evaporimeter generation cold wind that turns cold, and refrigerant temperature is now lower, its low temperature there is no utilization, it can utilize again, simultaneously, its complex structure of existing plate type heat exchanger, volume is large, unusual inconvenience in installing and using.

Utility model content:

The purpose of this utility model is exactly the deficiency for prior art, and a kind of air-conditioning water heater integration system with micro-channel heat exchanger is provided, it can utilize used heat and the residue cold air that air-conditioning produces again to utilize, and improves energy utilization rate, reduce energy consumption, provide amenities for the people.

Technology solution of the present utility model is as follows:

A kind of air-conditioning water heater integration system with micro-channel heat exchanger, comprise compressor of air conditioner, condenser, evaporimeter, throttling element, hot water tank and cold water tank, described condenser is identical with evaporation structure, by heat exchanger shell and heat-exchanger rig, form, heat exchanger shell is provided with water inlet, delivery port, refrigerant inlet and refrigerant outlet; The water inlet pipe of hot water tank is connected with the delivery port of condenser, and the water inlet pipe of cold water tank is connected with the delivery port of evaporimeter;

Described heat-exchanger rig forms by polylith front cold-producing medium heat exchanger plates and the water liquid heat exchanger plates that many netted groove reverse side that are interweaved are surface plate and forms; The reverse side of cold-producing medium heat exchanger plates is welded on the front of below water liquid heat exchanger plates, the face bonding of cold-producing medium heat exchanger plates is connected on the reverse side of top water liquid heat exchanger plates, and interval is stacked in this way by atom Diffusion Welding, is formed by connecting for polylith cold-producing medium heat exchanger plates and polylith water liquid heat exchanger plates;

Cold-producing medium heat exchanger plates is provided with refrigerant inlet district, cold-producing medium heat transfer zone and refrigerant outlet district; Water liquid heat exchanger plates is provided with water liquid entrance region, water liquid heat transfer zone and water liquid outlet area; He Shuiye heat transfer zone, cold-producing medium heat transfer zone is corresponding one by one up and down, ownership cryogen entrance region is connected with refrigerant inlet and refrigerant outlet on heat exchanger shell respectively with refrigerant outlet district, and all water liquid entrance regions are connected with water inlet and delivery port on heat exchanger shell respectively with water liquid outlet area.

The compressor drain pipe of compressor of air conditioner is connected with the refrigerant inlet of condenser, condenser drain pipe one end is connected with the refrigerant outlet of condenser, the other end is connected with the import of throttling element, evaporimeter feed tube one end is connected with the outlet of throttling element, the other end is connected with the refrigerant inlet of evaporimeter, evaporimeter drain pipe one end is connected with the refrigerant outlet of evaporimeter, the other end is connected with the inlet of compressor of air conditioner, the delivery port of the first water inlet pipe is connected with the water inlet of condenser, the delivery port of condenser is connected with the water inlet pipe of hot water tank, on the delivery port of the first outlet pipe of hot water tank, be communicated with the first water valve, the delivery port of the second water inlet pipe is connected with the water inlet of evaporimeter, and the delivery port of evaporimeter is connected with the water inlet pipe of cold water tank, is communicated with the 3rd water valve on the delivery port of the 3rd outlet pipe of cold water tank.

On described hot water tank, connected the second outlet pipe, on cold water tank, connected the 4th outlet pipe, the second outlet pipe and the 4th delivery port of outlet pipe and the import of heat abstractor are connected, the outlet of heat abstractor is connected with the water inlet of evaporimeter, the second outlet pipe is provided with the second water valve, and the 4th outlet pipe is provided with the 4th water valve; On the heat exchanger shell of described evaporimeter, form many grooves, on heat abstractor and evaporimeter, be equipped with fan, fan is facing to heat abstractor and evaporimeter.

On heat exchanger shell, be welded with water inlet connector, delivery port connector, refrigerant inlet connector and refrigerant outlet connector, water inlet connector, delivery port connector, refrigerant inlet connector and refrigerant outlet connector are connected with water inlet, delivery port, refrigerant inlet and refrigerant outlet respectively.

The beneficial effects of the utility model are:

(1) used heat that, it produces the condenser of air-conditioning utilizes again with the remaining low temperature of the cold-producing medium of the evaporimeter of flowing through, by waste heat running water, can utilize and rinse bowl or have a bath, thereby and the remaining low temperature of cold-producing medium can reduce running water temperature with the heat exchange of normal temperature running water, at particularly suitable in summer, saved Energy Consumption In A Typical.

(2), the utility model just condenser and the evaporimeter of use all adopt micro-channel heat exchanger, its structure is small and exquisite, occupies little space, meanwhile, heat exchange efficiency is high.

(3), heat abstractor can utilize the water in hot water tank and cold water tank again, blows the heat exchanger shell of heat abstractor by fan, and heat or cold air in heat abstractor are come out for people.

Accompanying drawing explanation:

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

Fig. 1 is the structural representation of heat exchanger shell of the present utility model;

Fig. 2 be of the present utility model remove heat exchanger shell front plate take the cutaway view of cold-producing medium heat exchanger plates as lastblock plate;

Fig. 3 is the schematic diagram of the cold-producing medium heat exchanger plates of heat-exchanger rig of the present utility model;

Fig. 4 is the structural representation of the water liquid heat exchanger plates of heat-exchanger rig of the present utility model;

Fig. 5 is the structural representation of heat-exchanger rig of the present utility model;

Fig. 6 connects the schematic diagram of connector on heat exchanger shell of the present utility model;

Fig. 7 is structural representation of the present utility model.

In figure: 10, heat-exchanger rig; 11, cold-producing medium heat exchanger plates; 111, refrigerant inlet district; 112, cold-producing medium heat transfer zone; 113, refrigerant outlet district; 12, water liquid heat exchanger plates; 121, water liquid entrance region; 122, water liquid heat transfer zone; 123, water liquid outlet area; 20, condenser; 21, condenser drain pipe; 30, evaporimeter; 31, evaporimeter feed tube; 32, evaporimeter drain pipe; 40, throttling element; 50, hot water tank; 51, the first outlet pipe; 511, the first water valve; 52, the second outlet pipe; 521, the second water valve; 60, cold water tank; 61, the 3rd outlet pipe; 611, the 3rd water valve; 62, the 4th outlet pipe; 621, the 4th water valve; 70, compressor of air conditioner; 80, heat abstractor; 90, fan; 100, heat exchanger shell; 101, groove; 102, the first water inlet pipe; 103, the second water inlet pipe; 104, netted groove; 1, water inlet; 2, delivery port; 3, refrigerant inlet; 4, refrigerant outlet; 1001, water inlet connector; 2001, delivery port connector; 3001, refrigerant inlet connector; 4001, refrigerant outlet connector.

The specific embodiment:

The following stated is only preferred embodiment of the present utility model, does not therefore limit protection domain of the present utility model.

Embodiment: see shown in Fig. 1 to Fig. 7, a kind of air-conditioning water heater integration system with micro-channel heat exchanger, comprise compressor of air conditioner 70, condenser 20, evaporimeter 30, throttling element 40, hot water tank 50 and cold water tank 60, the compressor drain pipe 71 of compressor of air conditioner 70 is connected with the refrigerant inlet 3 of condenser 20, condenser drain pipe 21 one end are connected with the refrigerant outlet 4 of condenser 20, the other end is connected with the import of throttling element 40, evaporimeter feed tube 31 one end are connected with the outlet of throttling element 40, the other end is connected with the refrigerant inlet 3 of evaporimeter 30, evaporimeter drain pipe 32 one end are connected with the refrigerant outlet 4 of evaporimeter 30, the other end is connected with the inlet of compressor of air conditioner 70, described condenser 20 is identical with evaporimeter 30 structures, by heat exchanger shell 100 and heat-exchanger rig 10, form, heat exchanger shell 100 is provided with water inlet 1, delivery port 2, refrigerant inlet 3 and refrigerant outlet 4,

The delivery port of the first water inlet pipe 102 is connected with the water inlet 1 of condenser 20, and the delivery port 2 of condenser 20 is connected with the water inlet pipe of hot water tank 50, is communicated with the first water valve 511 on the delivery port of the first outlet pipe 51 of hot water tank 50; The delivery port of the second water inlet pipe 103 is connected with the water inlet 1 of evaporimeter 30, and the delivery port 2 of evaporimeter 30 is connected with the water inlet pipe of cold water tank 60, is communicated with the 3rd water valve 611 on the delivery port of the 3rd outlet pipe 61 of cold water tank 60.

On described hot water tank 50, connected the second outlet pipe 52, on cold water tank 60, connected the 4th outlet pipe 62, the delivery port of the second outlet pipe 52 and the 4th outlet pipe 62 is connected with the import of heat abstractor 80, the outlet of heat abstractor 80 is connected with the water inlet 1 of evaporimeter 30, the second outlet pipe 52 is provided with the second water valve 521, the four outlet pipes 62 and is provided with the 4th water valve 621; On the heat exchanger shell 100 of described evaporimeter 30, form many grooves 101, on heat abstractor 80 and evaporimeter 30, be equipped with fan 90, fan 90 is facing to heat abstractor 80 and evaporimeter 30.

Heat abstractor 80 structures are the heat exchanger tube of existing common Tong Guo water liquid, and pipe is provided with fin, and fan 90, facing to heat exchanger tube blowing, blows out the heat of heat abstractor 80 or cold air for people.

Described heat-exchanger rig 10 forms by polylith front cold-producing medium heat exchanger plates 11 and the water liquid heat exchanger plates 12 that many netted groove being interweaved 104 reverse side are surface plate and forms; The reverse side of cold-producing medium heat exchanger plates 11 is welded on the front of below water liquid heat exchanger plates 12, the face bonding of cold-producing medium heat exchanger plates 11 is connected on the reverse side of top water liquid heat exchanger plates 12, and interval is stacked in this way by atom Diffusion Welding, is formed by connecting for polylith cold-producing medium heat exchanger plates 11 and polylith water liquid heat exchanger plates 12; The bottom and upper segment in cold-producing medium heat exchanger plates 11 fronts is respectively equipped with refrigerant inlet district 111He refrigerant outlet district 113, and middle part is provided with cold-producing medium heat transfer zone 112; The left side in water liquid heat exchanger plates 12 fronts and right side are respectively equipped with water liquid entrance region 121 and water liquid outlet area 123, middle part are provided with water liquid heat transfer zone 122; Cold-producing medium heat transfer zone 112 and water liquid heat transfer zone 122 are corresponding one by one up and down, ownership cryogen entrance region 111Yu refrigerant outlet district 113 is connected with refrigerant inlet 3 and refrigerant outlet 4 on heat exchanger shell 100 respectively, and all water liquid entrance regions 121 are connected with water inlet 1 and delivery port 2 on heat exchanger shell 100 respectively with water liquid outlet area 123.

On heat exchanger shell 100, be welded with water inlet connector 1001, delivery port connector 2001, refrigerant inlet connector 3001 and refrigerant outlet connector 4001, water inlet connector 1001, delivery port connector 2001, refrigerant inlet connector 3001 and refrigerant outlet connector 4001 are connected with water inlet 1, delivery port 2, refrigerant inlet 3 and refrigerant outlet 4 respectively.

Operation principle: as shown in Figure 1, black arrow is flow of refrigerant direction, white arrow is water (flow) direction, the liquid refrigerant that compressor of air conditioner 70 is HTHP by the refrigerant compression of gaseous state, then delivering to condenser 20 heat radiations becomes the liquid refrigerant of normal temperature high voltage, liquid refrigerant is through throttling element 40 (throttling element 40 is capillary or choke valve), enter evaporimeter 30, because space increases, pressure reduces, liquid cold-producing medium will be vaporized, thereby absorb a large amount of heats, evaporimeter 30 will turn cold, by fan 90, blow heat exchanger shell 100, groove 101 turnover of air from heat exchanger shell 100 are taken the cold air in evaporimeter 30 for people out of.

In this running, open the first water inlet pipe 102, make water liquid enter condenser 20, thereby with the cold-producing medium heat exchange in condenser 20, produce hot water, hot water enters hot water tank 50, for people, unnecessary hot water also can be by opening the second water valve 521, make hot water enter heat abstractor 80, by fan 90, blow heat abstractor 80, heat is blown out for people, the temperature of last current has dropped to normal temperature and has entered in evaporimeter 30 again, by with evaporimeter 30 in cold-producing medium heat exchange, reduced the temperature of water, this water just enters cold water tank 60 for people, simultaneously, also can open the second water inlet pipe 103, make water liquid enter evaporimeter 30, turn cold with the cold-producing medium heat exchange in evaporimeter 30, then enter cold water tank 60 for people, and can open the 4th water valve 621, make cold water enter heat abstractor 80, by fan 90, blow heat abstractor 80, cold air is blown out for people, last current enter in evaporimeter 30 again.

Claims (4)

1. an air-conditioning water heater integration system with micro-channel heat exchanger, comprise compressor of air conditioner (70), condenser (20), evaporimeter (30), throttling element (40), hot water tank (50) and cold water tank (60), it is characterized in that: described condenser (20) is identical with evaporimeter (30) structure, by heat exchanger shell (100) and heat-exchanger rig (10), form, heat exchanger shell (100) is provided with water inlet (1), delivery port (2), refrigerant inlet (3) and refrigerant outlet (4); The water inlet pipe of hot water tank (50) is connected with the delivery port (2) of condenser (20), and the water inlet pipe of cold water tank (60) is connected with the delivery port (2) of evaporimeter (30);

Described heat-exchanger rig (10) forms by polylith front cold-producing medium heat exchanger plates (11) and the water liquid heat exchanger plates (12) that many netted grooves that are interweaved (104) reverse side is surface plate and forms; The reverse side that the reverse side of cold-producing medium heat exchanger plates (11) is welded on the front of below water liquid heat exchanger plates (12), the face bonding of cold-producing medium heat exchanger plates (11) is connected on top water liquid heat exchanger plates (12), interval is stacked in this way by atom Diffusion Welding, is formed by connecting for polylith cold-producing medium heat exchanger plates (11) and polylith water liquid heat exchanger plates (12);

Cold-producing medium heat exchanger plates (11) is provided with refrigerant inlet district (111), cold-producing medium heat transfer zone (112) and refrigerant outlet district (113); Water liquid heat exchanger plates (12) is provided with water liquid entrance region (121), water liquid heat transfer zone (122) and water liquid outlet area (123); Cold-producing medium heat transfer zone (112) and water liquid heat transfer zone (122) are corresponding one by one up and down, ownership cryogen entrance region (111) is connected with refrigerant inlet (3) and refrigerant outlet (4) on heat exchanger shell (100) respectively with refrigerant outlet district (113), and all water liquid entrance regions (121) are connected with water inlet (1) and delivery port (2) on heat exchanger shell (100) respectively with water liquid outlet area (123).

2. a kind of air-conditioning water heater integration system with micro-channel heat exchanger according to claim 1, it is characterized in that: the compressor drain pipe (71) of compressor of air conditioner (70) is connected with the refrigerant inlet (3) of condenser (20), condenser drain pipe (21) one end is connected with the refrigerant outlet (4) of condenser (20), the other end is connected with the import of throttling element (40), evaporimeter feed tube (31) one end is connected with the outlet of throttling element (40), the other end is connected with the refrigerant inlet (3) of evaporimeter (30), evaporimeter drain pipe (32) one end is connected with the refrigerant outlet (4) of evaporimeter (30), the other end is connected with the inlet of compressor of air conditioner (70), the delivery port of the first water inlet pipe (102) is connected with the water inlet (1) of condenser (20), the delivery port (2) of condenser (20) is connected with the water inlet pipe of hot water tank (50), on the delivery port of first outlet pipe (51) of hot water tank (50), be communicated with the first water valve (511), the delivery port of the second water inlet pipe (103) is connected with the water inlet (1) of evaporimeter (30), the delivery port (2) of evaporimeter (30) is connected with the water inlet pipe of cold water tank (60), is communicated with the 3rd water valve (611) on the delivery port of the 3rd outlet pipe (61) of cold water tank (60).

3. a kind of air-conditioning water heater integration system with micro-channel heat exchanger according to claim 1, it is characterized in that: on described hot water tank (50), connected the second outlet pipe (52), on cold water tank (60), connected the 4th outlet pipe (62), the delivery port of the second outlet pipe (52) and the 4th outlet pipe (62) is connected with the import of heat abstractor (80), the outlet of heat abstractor (80) is connected with the water inlet (1) of evaporimeter (30), the second outlet pipe (52) is provided with the second water valve (521), the 4th outlet pipe (62) is provided with the 4th water valve (621), on the heat exchanger shell (100) of described evaporimeter (30), form many grooves (101), on heat abstractor (80) and evaporimeter (30), be equipped with fan (90), fan (90) is facing to heat abstractor (80) and evaporimeter (30).

4. a kind of air-conditioning water heater integration system with micro-channel heat exchanger according to claim 1 and 2, it is characterized in that: on heat exchanger shell (100), be welded with water inlet connector (1001), delivery port connector (2001), refrigerant inlet connector (3001) and refrigerant outlet connector (4001), water inlet connector (1001), delivery port connector (2001), refrigerant inlet connector (3001) and refrigerant outlet connector (4001) respectively with water inlet (1), delivery port (2), refrigerant inlet (3) and refrigerant outlet (4) are connected.