CN205102307U - Air can air conditioner hot -water heating system - Google Patents

Abstract

The utility model discloses a low air can air conditioner hot -water heating system of power consumption. Including the off -premises station of fan coil, air conditioner, still include the cold volume recovery unit in the off -premises station of locating the air conditioner, cold volume recovery unit includes the off -premises station condenser, locates the recovery evaporimeter of corresponding one side of off -premises station condenser and retrieve the condenser and locate this recovery evaporimeter and retrieve the cascade cooler between the condenser, the cascade cooler is connected in fan coil's delivery port, the evaporimeter of off -premises station and condenser correspond respectively and are equipped with circulation heat exchanger and surplus enthalpy exchanger. This air can air conditioner hot -water heating system simple structure, reasonable, service function is many, good and cheap, and the suitability is strong, and long service life moves reliable and stablely.

Description

A kind of air energy air conditioner hot-water heating system

Technical field

The utility model relates to a kind of air energy air conditioner hot-water heating system.

Background technology

Along with the raising of living standard, quality, air-conditioner has spread to vast town dweller and rural households.But along with the improvement of living space, the area in existing single room is all very large, and particularly its room area of rural area is mostly at 200m ²above, if with split-type air conditioner, need high-power especially.Acquisition cost is high on the one hand for this, and cost of use is high, and rural power service facility does not catch up with the speed of Rural Urbanization Construction on the other hand.And at rural area use air-source water heater because the incrustation scale of underground water is serious, the applicability of air-source water heater is poor.

Utility model content

The purpose of this utility model is the deficiency existed for above-mentioned prior art, provides a kind of air energy air conditioner hot-water heating system consuming energy low.This air energy air conditioner hot-water heating system is simple and reasonable for structure, and using function is many, good and cheap, and applicability is strong, long service life, stable and reliable operation.

The technical solution of the utility model comprises the off-premises station of fan coil, air-conditioning, also comprise the cold energy reclamation device be located in the off-premises station of air-conditioning, the cascade cooler that described cold energy reclamation device comprises outdoor condenser, is located at the recovery evaporimeter of the corresponding side of outdoor condenser and reclaims condenser and be located at this recovery evaporimeter and reclaim between condenser, described cascade cooler is connected to the delivery port of fan coil, and the evaporimeter of described off-premises station and condenser respectively correspondence are provided with circulation heat exchanger and afterheat heat exchanger.

Described circulation heat exchanger is also connected respectively by the water inlet of corresponding transfer valve and/or water pump and described fan coil and a water storage tank, and described afterheat heat exchanger is connected with water storage tank through corresponding transfer valve and/or water pump respectively.

Described circulation heat exchanger comprises the circulation coil pipe being serially connected with the corresponding one end of evaporator coil and the torus be sheathed on this circulation coil pipe, and described afterheat heat exchanger comprises the waste heat coil pipe being serially connected with the corresponding one end of condenser coil and the waste heat chamber be sheathed on this waste heat coil pipe; One end of described torus is connected to the water inlet of fan coil and the corresponding Single port of water storage tank respectively by a transfer valve, the other end of torus and the corresponding one end in described waste heat chamber are connected to the corresponding other end of water storage tank with water pump respectively by corresponding transfer valve, and the corresponding other end in waste heat chamber connects to this corresponding one end of water storage tank.

The other end of described its torus of circulation heat exchanger is connected to the described corresponding other end of water storage tank with a water pump through first, second transfer valve successively, and this corresponding one end in its waste heat chamber of described afterheat heat exchanger is connected to the described corresponding other end of water storage tank through described second transfer valve and this water pump.

Described water storage tank is connected with a solar heat water collector by corresponding water pump; One end of described solar heat water collector is connected to corresponding one end of described water storage tank, and the other end of solar heat water collector is connected to the corresponding other end of water storage tank through corresponding transfer valve and water pump.

Be connected through the corresponding other end of a circulating pump with the coil pipe reclaiming evaporimeter after described recovery evaporimeter is connected with each other to the corresponding one end of the coil pipe reclaiming condenser, form heat transferring medium circulation, the corresponding other end shutoff of the coil pipe of described recovery condenser.

Described recovery evaporimeter and recovery condenser comprise one group or some groups of coil pipes respectively, described recovery evaporimeter to reclaim one group of condenser or respectively organize corresponding one end of coil pipe connected with each other in one end of circulating pump, the other end of this circulating pump connects with one group of described recovery evaporimeter or each corresponding other end organizing coil pipe, also or by corresponding distributing pipe be connected with one group or each corresponding other end organizing coil pipe of described recovery evaporimeter respectively.

The relative both sides of cascade cooler are located at by described recovery evaporimeter and recovery condenser respectively mutual correspondence, reclaim evaporimeter and reclaim one group of condenser or the described coil pipe of each group and be connected in series by some U-shaped pipes respectively and form, one group or each group coil pipe reclaiming evaporimeter is interconnected with corresponding a group or the every two mutual corresponding U-shaped Guan Ziqi one end of respectively organizing coil pipe of reclaiming condenser.

The bottom of described cold energy reclamation device is provided with a reception basin, described in basin of cutting off the water be connected with the torus of circulation heat exchanger with corresponding transfer valve through a water pump.

Describedly it is characterized in that described fan coil is made up of some bank of heat exchangers, often arrange and be made up of N root U-shaped pipe, often arrange identical N root U-shaped pipe by being connected to form N article of water route end to end, water enters fan coil through corresponding distributor by N road, this N bar water route and circulated air form adverse current, finally, N bar water route pools together outflow, flows back to cascade cooler through corresponding transfer valve.

The utility model air energy air conditioner hot-water heating system adopts water circulation and cold recovery cycle heat exchange mode, utilize air enter outdoor condenser before skim on the moisture film face that the specific surface of cold energy reclamation device is larger, water and air is lowered the temperature simultaneously, by the air cold of cooling by the recovery evaporimeter of cold energy reclamation device and the heat transferring medium recovery of reclaiming condenser, feed back to the upstream end (side) of the air of cold energy reclamation device again by its precooling again, air after reducing temperature and humidity precooling enters cascade cooler, make the water of system colder, this chilled water delivers to indoor, make room constant temperature 25 degree, constant humidity 60%, and power consumption only needs the part of existing air-conditioning, if need cold again, only need press strong cold key, system compressors starts, by cold again for the chilled water flowing through circulation heat exchanger.Heating of native system can adopt corresponding controller preferentially to solar water collection storage, does not have to collect the storage of air energy thermal water during solar energy, provide domestic hot-water and heating hot water for family.

Accompanying drawing explanation

Fig. 1 is the utility model air energy air conditioner hot-water heating system one example structure schematic diagram.

Fig. 2 is that the recovery evaporimeter in cold energy reclamation device one embodiment in Fig. 1 is interconnected structural representation with each coil pipe and U-shaped pipe thereof reclaiming condenser.

Detailed description of the invention

In order to understand the technical solution of the utility model further, by following examples, the utility model is described in further detail by reference to the accompanying drawings.

Air energy air conditioner hot-water heating system of the present utility model passes through cold energy reclamation device, utilize air enter outdoor condenser before skim on the moisture film face that the specific surface of cold energy reclamation device is larger, water and air is lowered the temperature simultaneously, reclaimed, feed back to the upstream end (side) of the air of cold energy reclamation device again by its precooling again by the heat transferring medium of the air cold of cooling by the recovery evaporimeter of cold energy reclamation device and recovery condenser, the air after reducing temperature and humidity precooling enters cascade cooler.

Its air energy air conditioner hot-water heating system of the present embodiment as illustrated in fig. 1 and 2, air energy air conditioner hot-water heating system comprises fan coil 11, air-conditioner outdoor unit 4, water storage tank 1, and is located at circulation heat exchanger, afterheat heat exchanger and the cold energy reclamation device 18 etc. in air-conditioner outdoor unit 4 respectively.

Its cold energy reclamation device comprises a cascade cooler 6 and is arranged at the outdoor condenser 8 etc. that the side of condenser 7 is reclaimed in the recovery evaporimeter 5 of the relative both sides of cascade cooler 6, recovery condenser 7 and position respectively.Reclaim inlet side and air side that evaporimeter 5 and the mutual correspondence of recovery condenser 7 or symmetry lay respectively at cascade cooler 6.

Reclaim evaporimeter 5 and reclaim condenser 7 and be made up of some groups of serpentine coils respectively, often organizing serpentine coil is that above-below direction is arranged, often organize serpentine coil mutually to be composed in series end to end by some U-shaped pipes 17 respectively, corresponding one end of U-shaped Guan Ziqi (elbow) of every two mutually corresponding (or lay respectively at reclaim evaporimeter 5 and reclaim the same position of condenser 7 or corresponding position) of the serpentine coil reclaiming evaporimeter 5 and the serpentine coil reclaiming condenser 7 is interconnected through corresponding tube connector 19.

The port of export (laying respectively at corresponding one end port of a U-shaped pipe 17 of bottom) being positioned at bottom of each group of serpentine coil reclaiming evaporimeter 5 and reclaim condenser 7 is connected with the entrance of a circulating pump 15 after corresponding tube connector 19 (forming the common outlet of reclaiming evaporimeter and the circulatory mediator of recovery condenser) connected with each other, the outlet of circulating pump 15 is capillary by distributing pipe 16(distributing pipe, the corresponding capillary of one group of serpentine coil) being connected (forms the import of the circulatory mediator reclaiming evaporimeter with the entrance point (corresponding one end port of a U-shaped pipe 17 bottom laying respectively at) being positioned at top of each group of serpentine coil reclaiming evaporimeter 5, by circulating pump 15, refrigerating fluid (heat transferring medium can be water) is delivered to from the outlet at bottom reclaiming evaporimeter and recovery condenser the top inlet reclaiming evaporimeter, constantly circulate to make refrigerating fluid.Reclaim one end (entrance point) shutoff being positioned at top of each group of serpentine coil of condenser 7.Namely reclaim condenser to be made up of caecum formula serpentine coil.

The delivery port of fan coil 11 is connected with the upper spray pipe of port 2 with cascade cooler 6 through the port one of corresponding two position three-way valve 3c, and the port 3 of two position three-way valve 3c is connected with the water inlet port of water storage tank 1.Wind from reclaim the side of evaporimeter 5 be blown into after outer row after the coil pipe of cascade cooler 6 and outdoor condenser 8 successively.

Circulation heat exchanger comprises torus 9 and is located at the circulation coil pipe 16 in this torus 9, corresponding one end connected to the cooling and warming reversal valve 14 of air-conditioner outdoor unit 4 that circulation coil pipe 16 is serially connected with the evaporator coil 10 of air-conditioner outdoor unit 4.

Afterheat heat exchanger comprises waste heat chamber 19 and is located at the waste heat coil pipe 17 in this waste heat chamber 19, corresponding one end connected to the cooling and warming reversal valve 14 of air-conditioner outdoor unit 4 that waste heat coil pipe 17 is serially connected with the coil pipe of outdoor condenser 8.

One end of the torus 9 of circulation heat exchanger is connected to the port one of a two-position three way magnetic valve 2b, and the port 2 and 3 of two-position three way magnetic valve 2b is connected to the water inlet of fan coil 11 and the water inlet port of water storage tank 1,

The port one of the another port first two position three-way valve 3a of torus 9 is connected with the port 3 of port 3 with the second two position three-way valve 3b, the port one of the second two position three-way valve is connected with the port 2 of another two-position three way magnetic valve 2a respectively with port 2, the port 3 of two-position three way magnetic valve 2a and port one export with the Single port of solar heat water collector 12 and a water pump 13b respectively and are connected, and the entrance of water pump 13b is connected with the water outlet port of water storage tank 1.The port 2 of the first two position three-way valve 3a is connected with the one end in the outlet of another water pump 13a and the waste heat chamber 19 of afterheat heat exchanger respectively with the port 2 of the second two position three-way valve 3b.The other end in waste heat chamber 19 is connected with the water inlet port of water storage tank 1.

Be provided with a reception basin 20 in the bottom of cold energy reclamation device 18, the entrance of water pump 13a is connected to reception basin 20.

Water in reception basin 20 enters fan coil 11 by water pump 13a after the first two position three-way valve 3a enters circulation heat exchanger, through the port one of two two-position three way magnetic valve 2b and port 2.

Native system also comprises corresponding controller, and its two-position three way magnetic valve is connected with control para-electric signal respectively with corresponding water pump etc., runs control accordingly by this controller.

The port one of native system each two-position three way magnetic valve and two position three-way valve when refrigeration work and port 2 UNICOM, the current of water storage tank (thermal storage water tank) 1 flow to afterheat heat exchanger waste heat chamber through the port one and 2 of water pump 13b, two-position three way magnetic valve 2a through the port one and 2 of two position three-way valve 3b, get back to the entrance point of water storage tank 1 after this absorbs heat.

Heat Time Controller preferentially to use the heat energy of solar heat water collector storage, the air collecting native system when not having solar energy can carry out thermal energy storage in water storage tank, provide domestic hot-water and heating hot water for family.As long as the temperature of solar heat water collector is greater than the temperature of water storage tank, controller all can the corresponding two-position three way magnetic valve of exchange-column shift, start corresponding water pump 13, heat collection is stored in solar heat water collector.When not having solar energy, startup air-conditioning system can be heated by air by controller, when heating, and the port one of each two-position three way magnetic valve and two position three-way valve and port 3 UNICOM.Now, circulating pump 13b obtains electric work, and the water of water storage tank after the heat exchanging chamber that two-position three way magnetic valve 2a two position three-way valve 3b and 3a enters circulation heat exchanger heats up, get back to water butt 1 through two-position three way magnetic valve 2b, carries out circulating-heating.

In an embodiment more of the present utility model, its fan coil 11 is made up of some bank of heat exchangers, often arrange and be made up of N root U-shaped pipe, often arrange identical N root U-shaped pipe by being connected to form N article of water route end to end, water enters fan coil through corresponding distributor by N road, and this N bar water route and circulated air form adverse current, finally, N bar water route pools together outflow, flows back to cascade cooler through two position three-way valve 3c.All the other structures of this example can with above-described embodiment roughly the same.

Claims (10)

1. an air energy air conditioner hot-water heating system, comprise the off-premises station of fan coil, air-conditioning, it is characterized in that also comprising the cold energy reclamation device be located in the off-premises station of air-conditioning, the cascade cooler that described cold energy reclamation device comprises outdoor condenser, is located at the recovery evaporimeter of the corresponding side of outdoor condenser and reclaims condenser and be located at this recovery evaporimeter and reclaim between condenser, described cascade cooler is connected to the delivery port of fan coil, and the evaporimeter of described off-premises station and condenser respectively correspondence are provided with circulation heat exchanger and afterheat heat exchanger.

2. air energy air conditioner hot-water heating system according to claim 1, it is characterized in that described circulation heat exchanger is also connected respectively by the water inlet of corresponding transfer valve and/or water pump and described fan coil and a water storage tank, described afterheat heat exchanger is connected with water storage tank through corresponding transfer valve and/or water pump respectively.

3. air energy air conditioner hot-water heating system according to claim 1 or 2, it is characterized in that described circulation heat exchanger comprises the circulation coil pipe being serially connected with the corresponding one end of evaporator coil and the torus be sheathed on this circulation coil pipe, described afterheat heat exchanger comprises the waste heat coil pipe being serially connected with the corresponding one end of condenser coil and the waste heat chamber be sheathed on this waste heat coil pipe; One end of described torus is connected to the water inlet of fan coil and the corresponding Single port of water storage tank respectively by a transfer valve, the other end of torus and the corresponding one end in described waste heat chamber are connected to the corresponding other end of water storage tank with water pump respectively by corresponding transfer valve, and the corresponding other end in waste heat chamber connects to this corresponding one end of water storage tank.

4. air energy air conditioner hot-water heating system according to claim 3, it is characterized in that the other end of described its torus of circulation heat exchanger is connected to the described corresponding other end of water storage tank with a water pump through first, second transfer valve successively, this corresponding one end in its waste heat chamber of described afterheat heat exchanger is connected to the described corresponding other end of water storage tank through described second transfer valve and this water pump.

5. air energy air conditioner hot-water heating system according to claim 1,2 or 4, is characterized in that described water storage tank is connected with a solar heat water collector by corresponding water pump; One end of described solar heat water collector is connected to corresponding one end of described water storage tank, and the other end of solar heat water collector is connected to the corresponding other end of water storage tank through corresponding transfer valve and water pump.

6. air energy air conditioner hot-water heating system according to claim 1, it is characterized in that described recovery evaporimeter is connected through the corresponding other end of a circulating pump with the coil pipe reclaiming evaporimeter after connected with each other to the corresponding one end of the coil pipe reclaiming condenser, formation heat transferring medium circulates, the corresponding other end shutoff of the coil pipe of described recovery condenser.

7. air energy air conditioner hot-water heating system according to claim 6, it is characterized in that described recovery evaporimeter and reclaim condenser comprising one group or some groups of coil pipes respectively, described recovery evaporimeter to reclaim one group of condenser or respectively organize corresponding one end of coil pipe connected with each other in one end of circulating pump, the other end of this circulating pump connects with one group of described recovery evaporimeter or each corresponding other end organizing coil pipe, also or by corresponding distributing pipe be connected with one group or each corresponding other end organizing coil pipe of described recovery evaporimeter respectively.

8. air energy air conditioner hot-water heating system according to claim 1,6 or 7, it is characterized in that described recovery evaporimeter and reclaim condenser respectively mutually correspondence be located at the relative both sides of cascade cooler, reclaim evaporimeter and reclaim one group of condenser or the described coil pipe of each group and be connected in series by some U-shaped pipes respectively and form, one group or each group coil pipe reclaiming evaporimeter is interconnected with corresponding a group or the every two mutual corresponding U-shaped Guan Ziqi one end of respectively organizing coil pipe of reclaiming condenser.

9. air energy air conditioner hot-water heating system according to claim 1, it is characterized in that the bottom of described cold energy reclamation device is provided with a reception basin, described reception basin is connected with the torus of circulation heat exchanger with corresponding transfer valve through a water pump.

10. air energy air conditioner hot-water heating system according to claim 1, it is characterized in that described in it is characterized in that described fan coil is made up of some bank of heat exchangers, often arrange and be made up of N root U-shaped pipe, often arrange identical N root U-shaped pipe by being connected to form N article of water route end to end, water enters fan coil through corresponding distributor by N road, and this N bar water route and circulated air form adverse current, finally, N bar water route pools together outflow, flows back to cascade cooler through corresponding transfer valve.