CN203385201U - Split heat pump water heater - Google Patents

Abstract

The utility model belongs to the technical field of water heaters and particularly relates to a split heat pump water heater. The split heat pump water heater comprises a first pressure-bearing water tank, a compressor, a heat exchanger, a first condenser, a circulating pipeline and at least one second pressure-bearing water tank. The first condenser is disposed on the first pressure-bearing water tank. The first pressure-bearing water tank, the compressor, the heat exchanger and the first condenser are sequentially communicated to form a loop through the circulating pipeline. Each second pressure-bearing water tank is provided with a second condenser which is parallel with the first condenser. An outlet of the first condenser is connected to an inlet of each second condenser through an independent first bypass pipeline. By the added second pressure-bearing water tanks, the first pressure-bearing water tank and the second pressure-bearing water tanks can be disposed at different positions to achieve independent water supply. By the heat pump water heater, a plurality sets of water outlet pipelines are not needed to be disposed on the same pressure-bearing water tank, pipeline length is reduced, water supply requirements for different water supply occasions and different water temperatures can be satisfied, and multipurpose is achieved.

Description

The Split heat pump water heater

Technical field

The utility model belongs to technical field of water heaters, relates in particular to a kind of Split heat pump water heater.

Background technology

Teat pump boiler is also referred to as air-source water heater, it adopts contrary Carnot cycle principle, be about to high temperature and high pressure gaseous refrigerant and become the liquid refrigerant of low-temp low-pressure after the expansion mechanism throttling is processed, enter evaporation endothermic in air exchanger, absorb a large amount of heat Q from air ₂; Cold-producing medium after evaporation endothermic enters compressor with gaseous form, compressed after, become the cold-producing medium of HTHP, the heat of now containing in cold-producing medium is divided into two parts: a part is the heat Q absorbed from air ₂, a part is the heat Q that the electric energy in compressor changes into when compressed refrigerant ₁; High-temperature high-pressure refrigerant after compressed enters heat exchanger, by its heat content Q ₁with heat Q ₂discharge to give and to enter the cold water in heat exchanger, cold water is heated to design temperature and directly enters attemperater and store for the user; Cold-producing medium after heat release enters expansion mechanism with liquid form, and the throttling decrease temperature and pressure so, is uninterruptedly circulated.

After the Teat pump boiler energising starts, the aerofoil fan entry into service, suck outdoor air in evaporimeter and carry out heat exchange with working media, and outdoor air temperature after heat exchange reduces, then is discharged by fan.Simultaneously, the working media heat absorption vaporization of evaporimeter inside is inhaled into compressor, compressor is compressed into high temperature by this operating on low voltage dielectric gas, gases at high pressure are sent into condenser, also passed through condenser by the water of water pump forced circulation, after being heated by working media, send to for the user, and working media is cooled into liquid, this liquid again flows into evaporimeter after expansion valve throttling cooling, so iterative cycles work, airborne heat energy is delivered in water by continuous " pump ", water temperature in attemperater is raise gradually, to be applicable to people's bathing, the kitchen washing, the demand of the aspects such as room heating.

But, Domestic separating Teat pump boiler is in the market only joined a water tank usually, when hot water all will be used in Nei kitchen, house and bathroom, need from a water tank, draw two groups of pipelines, lead to different places, when bringing into use hot water, water at a distance need to be drained a lot of cold water, relatively wastes water.And, can not meet the different temperatures in kitchen and bathroom and the demand of water consumption simultaneously.

In addition, existing Split heat pump water heater is not joined heating installation, can not take into account the demand of heating.

The utility model content

The purpose of this utility model is to provide a kind of Teat pump boiler, is intended at least solve one of technical problem existed in prior art.

The utility model is to realize like this, a kind of Split heat pump water heater, but comprise the first press-bearing water tank, compressor, heat exchanger, the first condenser and described compressor, heat exchanger and the first condenser be communicated with successively to the circulation line that forms loop transportation work medium; Described the first condenser is located on described the first press-bearing water tank, described Split heat pump water heater also comprises at least one the second press-bearing water tank, be equipped with the second condenser on described at least one the second press-bearing water tank and be arranged in parallel by this second condenser and the first condenser, the exit of described the first condenser is connected in the porch of described the second condenser by the first bypass duct.

Further, described Split heat pump water heater also comprises at least one heating installation, be equipped with the 3rd condenser on described heating installation and be arranged in parallel by described the 3rd condenser and described the first condenser, the exit of described the first condenser is connected in the porch of described the 3rd condenser by the second bypass duct.

Further, also be provided with throttle part and the first magnetic valve on described circulation line; Be provided with successively the second magnetic valve and described throttle part on the inlet duct of described the second condenser, described the first bypass duct is provided with the 3rd magnetic valve, and the outlet of described the first bypass duct is connected on the inlet duct between described the second magnetic valve and described throttle part; On described circulation line, the outlet of described the second condenser and the pipeline be connected between the entrance of described the first bypass duct on its inlet duct are provided with described the first magnetic valve.

Further, also be provided with throttle part and the first magnetic valve on described circulation line; Be provided with successively the second magnetic valve and described throttle part on the inlet duct of described the 3rd condenser, described the second bypass duct is provided with the 3rd magnetic valve, and the outlet of described the second bypass duct is connected on the inlet duct between described the second magnetic valve and described throttle part; On described circulation line, the outlet of described the 3rd condenser and the pipeline be connected between the entrance of described the second bypass duct on its inlet duct are provided with described the first magnetic valve.

Further, described throttle part is choke valve or capillary.

Further, be equipped with temperature inductor in described the first press-bearing water tank and each described second press-bearing water tank.

Further, be equipped with temperature inductor on each described heating installation.

Further, described the first condenser and each described the second condenser are condenser pipe, and the condenser pipe arranged on each described press-bearing water tank all is around on the outer wall of described the first press-bearing water tank and each described the second press-bearing water tank.

Further, each described first condenser and each described the second condenser are condenser pipe, and the condenser pipe arranged on each described press-bearing water tank all is set around on described the first press-bearing water tank and each described second press-bearing water tank inwall.

Further, also be provided with the aerofoil fan that can control air velocity on described heat exchanger, described aerofoil fan comprises a motor and is connected with described motor and by the flabellum of its driven rotary.

Prior art is compared, and passing through in the utility model set up at least one the second press-bearing water tank, described the second press-bearing water tank and the first press-bearing water tank can be arranged at respectively to different positions and carry out independent hot-water supply.Like this, while needing to use hot water, hot-water supply needn't arrange the multi units tube road on same press-bearing water tank separately, has reduced delivering hot water's duct length, thereby reduces the discharge capacity of cold water while using hot water, has saved water resource.

The accompanying drawing explanation

Fig. 1 is the connection diagram of Split heat pump water heater in the utility model embodiment.

Description of symbols:

1 compressor 14 first magnetic valve B

2 reversal valve 15 heating installations

3 first throttle parts 16 the 3rd condensers

4 first condenser 17 the 3rd throttle parts

5 first press-bearing water tank 18 second magnetic valve B

6 first magnetic valve A 19 the 4th throttle parts

7 the 3rd magnetic valve A 20 heat exchangers

8 second press-bearing water tank 21 flabellums

9 second magnetic valve A 22 motors

10 second section stream unit 23 circulation lines

11 the 3rd magnetic valve B 24 first bypass ducts

12 second condenser 25 second bypass ducts

A first port B the second port

C the 3rd port D the 4th port

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Below in conjunction with concrete accompanying drawing, realization of the present utility model is described in detail.

As shown in Figure 1, the preferred embodiment provided for the utility model.

The present embodiment provides a kind of Split heat pump water heater, it comprises the first press-bearing water tank 5, compressor 1, heat exchanger 20, the first condenser 4 and circulation line 23, described circulation line 23 is communicated with described compressor 1, heat exchanger 20 and the first condenser 4 successively and forms loop, and carry the working media for heat exchange, the condenser that the present embodiment adopts is condenser pipe.Described the first condenser 4 is located on described the first press-bearing water tank 5.Particularly, the outlet of described compressor 1 is connected with a reversal valve 2, and the reversal valve 2 in the present embodiment is cross valve, has four ports.Particularly, the outlet of described compressor 1 is connected in the 4th port D of reversal valve 2, and the 4th port D of described reversal valve 2 and the first port A are communicated with, and described the 3rd port C and the second port B are communicated with.The entrance of described the first condenser 4 is connected in described the first port A, the outlet of described the first condenser 4 is connected in the entrance of described heat exchanger 20 by circulation line 23, the outlet of described heat exchanger 20 is connected in the 3rd port C of described reversal valve 2, the second port B of described reversal valve 2 is connected in the entrance of described compressor 1, so, form the working media closed circuit of a sealing.Preferably, described circulation line 23 is made by copper material.Wherein, described Split heat pump water heater also comprises at least one the second press-bearing water tank 8, described the second press-bearing water tank 8 is for hot-water supply, described the second press-bearing water tank 8 is in parallel with described the first condenser 4, and the exit of described the first condenser 4 is communicated to the porch of the second press-bearing water tank 8 by the first bypass duct 24.In practical application, often described the second press-bearing water tank 8 and described the first press-bearing water tank 5 are placed in respectively near kitchen and bathroom, when kitchen and bathroom all need to use hot water, described the second press-bearing water tank 8 and described the first press-bearing water tank 5 be hot-water supply separately, needn't the multi units tube road be set on same press-bearing water tank, reduce delivering hot water's duct length, thereby when bringing into use hot water, can reduce the discharge capacity of cold water, save water resource.

Be appreciated that, needs according to concrete application, the number of described the second press-bearing water tank 8 can reasonably be set, and each described second press-bearing water tank 8 is in parallel with described the first condenser 4, the exit of described the first condenser 4 is communicated to the porch of each described the second press-bearing water tank 8 by the first bypass duct 24 independently.

In the present embodiment, also comprise a heating installation 15.Described heating installation 15 is mainly used in providing heating installation.Described heating installation 15 is provided with the 3rd condenser 16.Usually heating installation heating installation 15 produced can be for the heating of the living space such as parlor or bedroom.Described heating installation 15 is provided with the 3rd condenser 16, described the 3rd condenser 16 is in parallel with described the first condenser 4, the exit of described the first condenser 4 is connected with the second bypass duct 25, by described the second bypass duct 25, the outlet conduit of described the first condenser 4 is communicated with the inlet duct of described the 3rd condenser 16.Like this, described discrete Teat pump boiler, when giving kitchen and bathroom supplying hot water, also can give parlor or bedroom for heating installation.

Certainly, be appreciated that, according to the actual needs, the power of described compressor 1 and the heat exchange amount of heat exchanger 20 rationally are set, a plurality of heating installations parallel with one another 15 and the second press-bearing water tank 8 can be set, wherein on each heating installation 15, all be equipped with one the 3rd condenser 16, on each described second press-bearing water tank 8, be equipped with the second condenser 12.Each described the 3rd condenser 16 and each described second condenser 12 are all in parallel with described the first condenser 4, and the port of export of described the first condenser 4 is communicated in respectively the porch of the second condenser 12 by the first bypass channel 24 independently, be communicated in respectively the porch of the 3rd condenser 16 by the second bypass channel 25 independently.Like this, just can realize the string of a plurality of heating installations 15 and the second press-bearing water tank 8 and mix being connected.Be convenient to realize multiple heat exchange pattern, improve the effective rate of utilization of heat.

By adopting a plurality of press-bearing water tanks simultaneously to the independent hot-water supply in a plurality of hot water use location, can stop respectively to use the phase mutual interference of hot water position, avoid same press-bearing water tank to connect hot water use location, supply many places, multi units tube road simultaneously, conveyance conduit ponding to the hot water use location that makes to be arranged in far-end is too much, thereby need the phenomenon of a large amount of cold water of discharge, and then saved water consumption.

Be appreciated that the independent heating that just can realize a plurality of positions by a plurality of heating installations 15 are set, improve energy utilization rate.Carry out independent hot water supply and Central Heating Providing in the time of also can be to each position, and only need to safeguard a set of circulation line, saved maintenance cost, improved efficiency of energy utilization.Especially be applicable to the application of the large buildings such as dormitory and hotel.

Further, the present embodiment is located at described compressor 1 and heat exchanger 20 in same main frame casing, so, is convenient to maintenance and installs.

When working media interior after overcompression is flowed out by the 4th port D of reversal valve 2 and the first port A by compressor 1, be divided into three branch roads and flow to respectively three condenser pipes,, working media is communicated to the entrance of the first condenser 4 by a branch road, by another branch road be communicated to the entrance of the second condenser 8, be communicated to the 3rd condenser 16 by the last item branch road.When working media is flowed through each condenser respectively with the first press-bearing water tank 5, the second press-bearing water tank 8 and the cold generation heat exchange of heating installation 15, thereby the water of heating in press-bearing water tank makes heating installation 15 obtain heats for heating.

Further, in the present embodiment, the second magnetic valve has the second magnetic valve A9 and the second magnetic valve B18; The 3rd magnetic valve has the 3rd magnetic valve A7 and the 3rd magnetic valve B11; Described the first magnetic valve has the first magnetic valve A6 and the first magnetic valve B14, and wherein, described throttle part comprises first throttle parts 3, second section stream unit 10, the 3rd throttle part 17 and the 4th throttle part 19.Also be provided with second section stream unit 10 and the 3rd throttle part 17 and the first magnetic valve A6, the first magnetic valve B14 on described circulation line 23; Be provided with successively the second magnetic valve A9 and second section stream unit 10 on the inlet duct of described the second condenser 12 in parallel with the first condenser 4; Described the first bypass duct 24 is provided with the 3rd magnetic valve A7, the outlet of described the first bypass duct 24 is connected on the inlet duct between described the second magnetic valve A9 and second section stream unit 10, on described circulation line 23, pipeline between the outlet of described the second condenser 12 that the entrance of described the first bypass duct 24 is corresponding with it is provided with the first magnetic valve A6, and the outlet of described the first bypass duct 24 is connected on the inlet duct of described the second condenser 12.

Particularly, on the first press-bearing water tank 5 of establishing in the present embodiment, the second press-bearing water tank 8 and a heating installation 15, be respectively equipped with the first condenser 4, the second condenser 12 and the 3rd condenser 16.Working media is after reversal valve 2, and minute three branch roads enter respectively that described the first condenser 4, the second condenser 12 and the 3rd condenser 16 are interior carries out heat exchange to described the first press-bearing water tank 5, the second press-bearing water tank 8 and heating installation 15.The porch of described the first condenser 4 is provided with first throttle parts 3; Along the working media flow direction, the porch of described the second condenser 12 is provided with the second magnetic valve A9 and second section stream unit 10 successively, and the porch of described the 3rd condenser 16 is provided with the second magnetic valve B18 and the 3rd throttle part 17 successively; Described the first bypass duct 24 is provided with the 3rd magnetic valve A7, and the one end is connected in the outlet of described the first condenser 4, and the other end is connected on the second magnetic valve A9 and the pipeline between second section stream unit 10 on described the second condenser 12 entrances.Described the second bypass duct 25 is provided with the 3rd magnetic valve B11, and the one end is connected in the outlet of described the first condenser 4, and the other end is connected on the second magnetic valve B18 and the pipeline between the 3rd throttle part 17 on described the 3rd condenser 16 entrances.Pipeline between the outlet of the entrance of described the second bypass duct 25 and described the 3rd condenser 16 is provided with the first magnetic valve B14.Wherein, the porch of described heat exchanger 20 is provided with the 4th throttle part 19.So, the string of each second press-bearing water tank 8, the first press-bearing water tank 5 and each heating installation 15 mixing are connected, by controlling each first magnetic valve, the second magnetic valve and the 3rd magnetic valve, just can realize the various modes controlling run.

Further, throttle part described in the utility model is choke valve.Certainly, also described throttle part can be selected as capillary.

Moreover the condenser pipe arranged on each described press-bearing water tank all is set around on described the first press-bearing water tank 5 and each described second press-bearing water tank 12 inwalls.So, can increase the heat exchange area of each condenser pipe and press-bearing water tank.Improve exchange efficiency.Further, the condenser pipe arranged on each described press-bearing water tank all is around on the outer wall of described the first press-bearing water tank 5 and each described the second press-bearing water tank 8.Be easier to maintenance.

Particularly, on described heat exchanger 20, also be provided with an aerofoil fan, described aerofoil fan comprises a motor 22 and is connected with described motor 22 and by the flabellum 21 of its driven rotary.Thereby control the speed of Air Flow by the rotating speed of controlling described aerofoil fan, and then control outside air in the heat exchange amount of described working media.In the present embodiment, described motor 22 is variable-frequency motor, and described compressor 1 is variable frequency adjustment.Like this, can carry out variable frequency adjustment by heat exchange amount as required, when the hot water demand is more, operate at full capacity, when the hot water demand is few, can reduce running speed, underload work.In order to realize the step-less adjustment of different water consumptions and different water temperatures, steady and energy-conservation.Thereby the minimizing power consumption, save the energy.

Below the course of work with regard to the present embodiment Split heat pump water heater describes:

In this enforcement, on the first press-bearing water tank 5, the second press-bearing water tank 8 and heating installation 15, be provided with the temperature inductor for detection of temperature.According to the needs of different temperature and water consumption, the Split heat pump water heater can be realized series operation and parallel running.

(1) when whole press-bearing water tanks and heating installation 15 all need to heat, enter the series loop operation, during below for the series operation loop, the circulating path of working media:

Close the first magnetic valve A6, the second magnetic valve A9, the first magnetic valve B14 and the second magnetic valve B18, open all the other magnetic valves, compressor and heat exchanger.

The working media of Split heat pump water heater absorbs the air heat through heat exchanger 20, pass through again the compression of compressor 1, the 4th port D to the first port A of reversal valve 2, by first throttle parts 3, the first condenser 4, the 3rd magnetic valve A7, second section stream unit 10, the second condenser 12, the 3rd magnetic valve B11, the 3rd throttle part 17, the 3rd condenser 16, the 4th throttle part 19, heat exchanger 20, reversal valve 2 second port B to the three port C flow back in compressor 1, its priority and the first press-bearing water tank 5, the second press-bearing water tank 8 and heating installation 15 carry out heat exchange, by water and heating installation 15 heating that retain in the first press-bearing water tank 5 and the second press-bearing water tank 8.

In actual the use, often the maximum temperature of the first press-bearing water tank 5 is set as to 60 ℃, the maximum temperature of the second press-bearing water tank 8 is set as 40 ℃.The maximum temperature of heating installation 15 is set as 35 ℃.

(2) when needs only heat the first press-bearing water tank 5 or the second press-bearing water tank 8 or heating installation 15, can adopt the shunt circuit operation, can realize concentrating heating efficiently, the circulating path of working media during below for the parallel running loop:

Close the 3rd magnetic valve A7, the 3rd magnetic valve B11, open all the other all valves, compressor and heat exchanger.

The working media of Split heat pump water heater absorbs the air heat through heat exchanger 20, then passes through the compression of compressor 1, after the 4th port D to the first port A of reversal valve 2, is divided into three tunnels:

The first via: successively by first throttle parts 3, the first condenser 4, the first magnetic valve A6 and the first magnetic valve B14, the 4th throttle part 19, by reversal valve, 2 second port B to the three port C flow back in compressor 1, wherein working media and the first press-bearing water tank 5 carry out heat exchange, by the water heating in the first press-bearing water tank 5;

The second tunnel: by the second magnetic valve A9, second section stream unit 10, the second condenser 12, the first magnetic valve A6, the first magnetic valve B14, the 4th throttle part 19, wherein working media and the second press-bearing water tank 8 carry out heat exchange, by the water heating in the second press-bearing water tank 8;

Third Road: by the second magnetic valve B18, the 3rd throttle part 17, the three condenser 16, the four throttle parts 19, carry out heat exchange with heating installation 15.

Certainly, when the first press-bearing water tank 5 or the second press-bearing water tank 8 or heating installation 15 are heated separately, only need close the respective electrical magnet valve just can carry out adjustment, in actual the use, by the maximum temperature of described the first press-bearing water tank 5 setting value, be often 60 ℃, the maximum temperature setting value of the second press-bearing water tank 8 is 50 ℃.The maximum temperature setting value of heating installation 15 is 45 ℃.So, guarantee on the one hand the temperature of hot water and heating installation, on the other hand, eliminated the potential safety hazard that excess Temperature is scalded the people.Simultaneously, because heating is concentrated, efficiency is high, is applicable to need a large amount of hot water for washing, the situation of colder bedroom heating at night.

Due to known, this Split heat pump water heater, can meet different places to by the demand of hot water, and the temperature of the first press-bearing water tank 5, the second press-bearing water tank 8 and heating installation 15 is arranged to difference, and the heats such as heating are provided respectively between bathing and boiled water room for kitchen use.The first press-bearing water tank 5 and the second press-bearing water tank 8 are arranged on respectively different fields of employment, by different preset temperatures, are controlled, and adapt to the different demand of people, can meet the bathing demand of higher temperature and middle warm water's kitchen and the different purposes such as do the wash.

According to above-mentioned principle, the utility model adopts a plurality of the second press-bearing water tanks 8 and heating installation 15, is applied to the large buildings such as dormitory and hotel, and to being controlled separately in each room, supply heating installation and/or hot water, be also feasible.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a Split heat pump water heater, but comprise the first press-bearing water tank, compressor, heat exchanger, the first condenser and described compressor, heat exchanger and the first condenser be communicated with successively to the circulation line that forms loop transportation work medium; It is characterized in that, described the first condenser is located on described the first press-bearing water tank, described Split heat pump water heater also comprises at least one the second press-bearing water tank, be equipped with the second condenser on described at least one the second press-bearing water tank and be arranged in parallel by this second condenser and the first condenser, the exit of described the first condenser is connected in the porch of described the second condenser by the first bypass duct.

2. Split heat pump water heater according to claim 1, it is characterized in that: described Split heat pump water heater also comprises at least one heating installation, be equipped with the 3rd condenser on described heating installation and be arranged in parallel by described the 3rd condenser and described the first condenser, the exit of described the first condenser is connected in the porch of described the 3rd condenser by the second bypass duct.

3. according to the Split heat pump water heater described in claim 1 or 2, it is characterized in that: also be provided with throttle part and the first magnetic valve on described circulation line; Be provided with successively the second magnetic valve and described throttle part on the inlet duct of described the second condenser, described the first bypass duct is provided with the 3rd magnetic valve, and the outlet of described the first bypass duct is connected on the inlet duct between described the second magnetic valve and described throttle part; On described circulation line, the outlet of described the second condenser and the pipeline be connected between the entrance of described the first bypass duct on its inlet duct are provided with described the first magnetic valve.

4. according to the Split heat pump water heater described in claim 2, it is characterized in that: also be provided with throttle part and the first magnetic valve on described circulation line; Be provided with successively the second magnetic valve and described throttle part on the inlet duct of described the 3rd condenser, described the second bypass duct is provided with the 3rd magnetic valve, and the outlet of described the second bypass duct is connected on the inlet duct between described the second magnetic valve and described throttle part; On described circulation line, the outlet of described the 3rd condenser and the pipeline be connected between the entrance of described the second bypass duct on its inlet duct are provided with described the first magnetic valve.

5. Split heat pump water heater according to claim 4, it is characterized in that: described throttle part is choke valve or capillary.

6. according to the described Split heat pump water heater of any one in claim 1,2,4,5, it is characterized in that: in described the first press-bearing water tank and each described second press-bearing water tank, be equipped with temperature inductor.

7. according to the described Split heat pump water heater of any one in claim 2,4,5, it is characterized in that: on each described heating installation, be equipped with temperature inductor.

8. according to the described Split heat pump water heater of any one in claim 1,2,4,5, it is characterized in that: described the first condenser and each described the second condenser are condenser pipe, and the condenser pipe arranged on each described press-bearing water tank all is around on the outer wall of described the first press-bearing water tank and each described the second press-bearing water tank.

9. according to the described Split heat pump water heater of any one in claim 1,2,4,5, it is characterized in that: each described first condenser and each described the second condenser are condenser pipe, and the condenser pipe arranged on each described press-bearing water tank all is set around on described the first press-bearing water tank and each described second press-bearing water tank inwall.

10. according to the described Split heat pump water heater of any one in claim 1,2,4,5, it is characterized in that: also be provided with the aerofoil fan that can control air velocity on described heat exchanger, described aerofoil fan comprises a motor and is connected with described motor and by the flabellum of its driven rotary.