CN201382559Y - Energy storage type water directly-discharging heat pump set - Google Patents

Abstract

An energy storage type water directly-discharging heat pump set comprises a water storage unit, a water supply unit and an energy conversion unit, wherein the water storage unit comprises a water storage tank, a water governing valve and a check valve, the water supply unit comprises a cold water supplying assembly and a hot waste water supplying assembly, the energy conversion unit comprises a compressor, an evaporator and a condenser, furthermore, the water discharge of the energy storage type water directly-discharging heat pump set can be controlled through the water governing valve, which enables the water discharge to keep constant, as hot water is stored in the water storage unit, the hot water can be directly used in the next use, hot water does not need in short time during the bath, a host machine can not be closed, redundant hot water generated can be stored in the water storage unit, and the stopping and the starting frequency of the compressor can be reduced, thereby prolonging the service life of the compressor, correspondingly reducing repeated fluctuation of current during the stopping and the starting, and saving energy. The utility model well solves the defects that existing water directly-discharging heat pumps waste a lot of resources in use, and has low safety coefficients.

Description

The straight water outlet source pump of a kind of energy-storing-type

Technical field

The utility model relates to a kind of straight water outlet heat pump, is meant a kind of straight water outlet source pump of energy-storing-type that comprises water cell, water supply unit and energy conversion unit especially.

Background technology

The electric heater that uses in the existing daily life, right gas water heater, it is when work, and energy consumption is bigger, and security is low, particularly directly goes out the electric heater of ability of swimming, right gas water heater, also exists many inconvenience when people use.

Directly go out the water heater of ability of swimming, promptly, the formula heat pump is promptly used in straight water outlet, it mainly adjusts coolant-temperature gage by adjusting the water yield when work, and,, will often close, open main frame if therefore run into when needing discontinuity to use owing to be that heat pump is promptly used in straight water outlet, perhaps Shutdown Hosts is not in running order always by machine, also exists many inconvenience when reality is used.

In sum, existingly directly go out the ability of swimming heat pump and also exist many shortcomings in use, be described below respectively now:

As mentioned above, at first, existing straight water outlet is promptly used the formula heat pump in use, owing to be to rely on fully to adjust the water yield and adjust coolant-temperature gage, in use can some water owing to just be used to regulate temperature, and the user do not need to utilize, thereby caused the waste of resource, nor be convenient to user's operation, this is an existing big shortcoming that directly goes out the ability of swimming heat pump.

Secondly, the formula heat pump is promptly used in existing straight water outlet, owing to be the i.e. usefulness of straight water outlet, therefore when reality is used, when discontinuity is used hot water if desired in the shower process, the user just has only the Shutdown Hosts of selection or closes the water source, if yet the user selects Shutdown Hosts, the number of times of compressor stop and start is increased, and the recurrent fluctuations owing to compressor current is big when stop and start, and a large amount of waste of electric energy have been caused, and the compressor stop and start are too frequent, easily compressor caused damage, compressor is shortened service life, and this promptly uses the another shortcoming of formula heat pump for existing straight water outlet.

At last, existing straight water outlet promptly uses the formula heat pump after the user opens, it mainly is by condenser energy to be changed, therefore behind user's Shutdown Hosts, water in pipeline stops to flow, and also exist certain heat in the high-temperature conduit of condenser the inside, and these heats will heat the water of interior water of high-temperature conduit or unit the inside, water temperature when making its water temperature than normal the use is high, therefore work as the user, after opening water valve once more, because be stored in the too high and scalded skin of water temperature in water pipe or the unit, this is an existing shortcoming again that directly goes out the ability of swimming heat pump possibly.

Summary of the invention

In order to address the above problem, the utility model provides a kind of energy-storing-type straight water outlet source pump, make the utility model can control its water yield in use by its water cell, that is, when the water yield of required use hour, can store unnecessary hot water by this water cell, when the water yield of required use more for a long time, can discharge the hot water that is stored in this water cell, thereby guarantee that enough water yield supplies are arranged, this is a main purpose of the present utility model.

Secondly, because water cell of the present utility model can stored hot water, therefore when water next time, can directly use and be stored in the hot water that stores in this water cell, make the people can plug and play, do not need to wait for heat time heating time that this is an another purpose of the present utility model.

Once more, when the hydraulic pressure in the straight water outlet source pump of energy-storing-type of the present utility model is unstable, can also be by this water cell, regulate the pressure of water system automatically by this water cell, this is a purpose more of the present utility model.

Again, the utility model is when work, when if the user did not need to use hot water in the short time, then can store unnecessary hot water by this water cell, can reduce the number of times of compressor stop and start like this without Shutdown Hosts, prolong the service life of compressor, and the recurrent fluctuations of electric current when having reduced the compressor stop and start, saved a large amount of electric energy, this is an another purpose of the present utility model.

Further, the utility model has also added a by-passing valve, regulates the pressure of coolant circulating system by this by-passing valve; stablized the balance of system's high and low pressure, thereby the protection compressor prolongs unit service life; save electric energy, this is a purpose more of the present utility model.

At last, the utility model has also added a defrost unit, makes the utility model can automatic defrosting, the even running incessantly of assurance system, and this is a purpose more of the present utility model.

To achieve these goals, the technical solution adopted in the utility model is:

The straight water outlet source pump of a kind of energy-storing-type, it comprises water cell, water supply unit and energy conversion unit, and wherein, this water supply unit is corresponding with this energy conversion unit, and be connected with this water cell, and this energy conversion unit is connected with this water cell.

This water cell comprises storage tank, water regulating valve and check-valves, wherein, this storage tank is corresponding with this water regulating valve and this check-valves, this storage tank has a containing cavity, further, this storage tank is a pressurized tank, and be connected with aqueduct between this water regulating valve and this storage tank, further, this water regulating valve and this aqueduct are formed the drain assembly of this water cell, this check-valves is corresponding with this storage tank, and is connected with aqueduct between this check-valves and this storage tank.

This water supply unit is connected with this water cell, this water supply unit comprises cold feed assembly and thermal wastewater provisioning component, wherein, this cold feed assembly comprises water intaking valve, high-temperature conduit and some aqueducts, this water intaking valve is installed on this aqueduct, this high-temperature conduit is arranged between this check-valves of water cell and this water intaking valve, and this cold feed assembly is connected with this water cell by some these aqueducts, again, this cold feed assembly also is connected with this energy conversion unit, and this thermal wastewater provisioning component is corresponding with this cold feed assembly.

This thermal wastewater provisioning component comprises drip tray, water pump and some aqueducts, wherein, this drip tray is connected with this water pump, and this drip tray is corresponding with this water cell, further, receive the hot water of discharging from the drain assembly of this water cell by this drip tray, again, this thermal wastewater provisioning component also is connected with this energy conversion unit, and also be connected a heat exchanger between this thermal wastewater provisioning component and this cold feed assembly, further, this high-temperature conduit is arranged between this heat exchanger and this check-valves.

This energy conversion unit is corresponding with this water cell, this energy conversion unit comprises compressor, evaporimeter and condenser, wherein, this compressor is corresponding with this evaporimeter and this condenser, and be connected with some heat transfer tubes between this compressor and this evaporimeter and this condenser, further, this compressor is connected with this evaporimeter and this condenser by some these heat transfer tubes.

This evaporimeter is connected with this condenser, and be connected with this heat transfer tube between this evaporimeter and this condenser, further, this evaporimeter is that this cold feed assembly and the thermal wastewater provisioning component that are connected with this water supply unit are connected, again, this cold feed assembly and this evaporimeter are formed the thermal compensation unit.

And this condenser is to be connected with the cold feed unit of this water supply unit, and this condenser is to be connected with this high-temperature conduit of this water supply unit.

Again, this energy conversion unit is also installed a by-passing valve, and further, this by-passing valve is installed in this condenser two ends.

The beneficial effects of the utility model are: the straight water outlet source pump of a kind of energy-storing-type, it comprises water cell, water supply unit and energy conversion unit, wherein, this water supply unit is connected with this water cell, this water cell comprises storage tank, water regulating valve and check-valves, this water supply unit comprises cold feed assembly and thermal wastewater provisioning component, this energy conversion unit comprises compressor, evaporimeter and condenser, further, by this water cell, make by this energy conversion unit heated hot water, be stored in this water cell, and then discharge the hot water that is stored in this water cell by this water regulating valve, thereby make the utility model water yield keep constant, and, owing to store hot water in this water cell, therefore when using, can directly use the hot water that is stored in this water cell next time, and do not need to wait for the time of heating cold water, again, because the utility model is equiped with this water cell, when therefore when taking a shower, not needing to use hot water in the short time, Shutdown Hosts not, producing unnecessary hot water then can be stored in this water cell, reduced compressor stop and start number of times, prolonged the life-span of compressor, and the recurrent fluctuations of compressor current when correspondingly having reduced stop and start, the energy saved.

Description of drawings

Fig. 1 is a module map of the present utility model.

The specific embodiment

As Fig. 1, the straight water outlet source pump of a kind of energy-storing-type, it comprises water cell 10, water supply unit 20 and energy conversion unit 30, wherein, this water supply unit 20 is corresponding with this energy conversion unit 30, and be connected with this water cell 10, and this energy conversion unit 30 is corresponding with this water cell 10.

This water cell 10 comprises storage tank 11, water regulating valve 12 and check-valves 13, wherein, this storage tank 11 is corresponding with this water regulating valve 12 and this check-valves 13, this storage tank 11 has a containing cavity, make this storage tank 11 can store water by this containing cavity, further, this storage tank 11 is a pressurized tank, and be connected with aqueduct between this water regulating valve 12 and this storage tank 11, further, this water regulating valve 12 and this aqueduct are formed the drain assembly 14 of this water cell 10, and drain discharge by these water regulating valve 12 these drain assemblies 14 of control, this check-valves 13 is corresponding with this storage tank 11, and is connected with aqueduct between this check-valves 13 and this storage tank 11, prevents to be stored in water generation backflow phenomenon in this storage tank 11 by this check-valves 13.

As Fig. 1, this water supply unit 20 is connected with this water cell 10, this water supply unit 20 comprises cold feed assembly 21 and thermal wastewater provisioning component 22, wherein, this cold feed assembly 21 comprises water intaking valve 211, high-temperature conduit 212 and some aqueducts, this water intaking valve 211 is installed on this aqueduct, this high-temperature conduit 212 is arranged between this check-valves 13 of water cell 10 and this water intaking valve 21 1, and this cold feed assembly 21 is connected with this water cell 10 by some these aqueducts, this cold feed assembly 21 also is connected with this energy conversion unit 30 again, and this thermal wastewater provisioning component 22 is corresponding with this cold feed assembly 21.

This thermal wastewater provisioning component 22 comprises drip tray 221, water pump 222 and some aqueducts, wherein, this drip tray 221 is connected with this water pump 222, and this drip tray 221 is corresponding with this water cell 10, further, receive the hot water of being discharged by this drip tray 221 from the drain assembly 14 of this water cell 10, again, this thermal wastewater provisioning component 22 also is connected with this energy conversion unit 30, and also be connected a heat exchanger 23 between this thermal wastewater provisioning component 22 and this cold feed assembly 21, further, this high-temperature conduit 212 is arranged between this heat exchanger 23 and this check-valves 13, further, the heat of water in the aqueduct of this thermal wastewater provisioning component 22 is transformed on the cold water of aqueduct of this cold feed assembly 21 by this heat exchanger 23.

As Fig. 1, this energy conversion unit 30 is corresponding with this water cell 10, this energy conversion unit 30 comprises compressor 31, evaporimeter 32 and condenser 33, wherein, this compressor 31 is corresponding with this evaporimeter 32 and this condenser 33, and be connected with some heat transfer tubes between this compressor 31 and this evaporimeter 32 and this condenser 33, further, this compressor 31 is connected with this evaporimeter 32 and this condenser 33 by some these heat transfer tubes.

This evaporimeter 32 is connected with this condenser 33, and be connected with this heat transfer tube between this evaporimeter 32 and this condenser 33, further, this evaporimeter 32 is that this cold feed assembly 21 and the thermal wastewater provisioning component 22 that are connected with this water supply unit 20 are connected, again, this cold feed assembly 21 is formed thermal compensation unit 40 with this evaporimeter 32, and this evaporimeter 32 absorbs the heat of water in this coupled thermal wastewater provisioning component 22, makes the utility model can steady operation by this energy compensating unit 40.

And this condenser 33 is to be connected with the cold feed unit 21 of this water supply unit 20, and, this condenser 33 is to be connected with this high-temperature conduit 212 of this water supply unit 20, further, because this condenser 33 is connected with this evaporimeter 32, this cold feed unit 21 of heat transferred that this evaporimeter 32 will absorb in this thermal wastewater provisioning component 22 by this condenser 33 further, is to pass on this high-temperature conduit 212 that is installed in this cold feed unit 21.

Again, this energy conversion unit 30 is also installed a by-passing valve 34, and further, this by-passing valve 34 is installed in this condenser 33 two ends, makes by this by-passing valve 34 to the utlity model has defrost function.

As Fig. 1, the utility model in use: at first, this energy conversion unit 30 is started working, and this evaporimeter 32 of this energy conversion unit 30 absorbs energy from this thermal wastewater provisioning component 22.

Secondly, the energy of being drawn in this evaporimeter 32 is transferred to this cold feed assembly 21 of this water supply unit 10 by this condenser 33, further, the energy that this condenser 33 is absorbed this evaporimeter 32 is transferred to this high-temperature conduit 212 of this cold feed assembly 21, cold water through this high-temperature conduit 212 converts hot water to then, transfer in this storage tank 11 of this water cell 10, and the hot water that stores in this storage tank 11 discharges for people to use through this water regulating valve 12.

At last, use hot water later to collect through people through the drip tray 221 of this thermal wastewater provisioning component 22, by this water pump 222 thermal wastewater is delivered on this heat exchanger 23 and this evaporimeter 32 then, be absorbed in the cold water that heat is delivered to this cold feed assembly 21 through the portion of hot waste water of this heat exchanger 23 and be passed on this high-temperature conduit 212, the energy that is delivered to the thermal wastewater of this evaporimeter 32 is then absorbed by this evaporimeter 32 once more, yet because the utility model is provided with this water cell 10 in these high-temperature conduit 212 back, hot water through this high-temperature conduit 212 can directly be released out, but earlier in this storage tank 11 of this water cell 10, neutralize with the hot water in this storage tank 11, when having avoided the user to be opened heat pump once more by the situation of scald, and this use is novel when the short time stops water, hot water can be transferred in this storage tank 11, and without closing machine or cause the waste of water, realize the purpose of this utility model.

Claims (5)

1. straight water outlet source pump of energy-storing-type, it comprises water cell, water supply unit and energy conversion unit, wherein, this water supply unit is corresponding with this energy conversion unit, and be connected with this water cell, and this energy conversion unit is connected with this water cell, it is characterized in that: this water cell comprises storage tank, water regulating valve and check-valves, wherein, this storage tank is corresponding with this water regulating valve and this check-valves, and this storage tank has a containing cavity, further, this storage tank is a pressurized tank, and be connected with aqueduct between this water regulating valve and this storage tank, further, this water regulating valve and this aqueduct are formed the drain assembly of this water cell, this check-valves is corresponding with this storage tank, and is connected with aqueduct between this check-valves and this storage tank.

2. the straight water outlet source pump of a kind of energy-storing-type as claimed in claim 1, it is characterized in that: this water supply unit comprises cold feed assembly and thermal wastewater provisioning component, wherein, this cold feed assembly comprises water intaking valve, high-temperature conduit and some aqueducts, this water intaking valve is installed on this aqueduct, this high-temperature conduit is arranged between this check-valves of water cell and this water intaking valve, and this cold feed assembly is connected with this water cell by some these aqueducts, this cold feed assembly also is connected with this energy conversion unit again, and this thermal wastewater provisioning component is corresponding with this cold feed assembly, this thermal wastewater provisioning component comprises drip tray, water pump and some aqueducts, wherein, this drip tray is connected with this water pump, and this drip tray is corresponding with this water cell, further, receive the hot water of discharging from the drain assembly of this water cell by this drip tray, again, this thermal wastewater provisioning component also is connected with this energy conversion unit, and also be connected a heat exchanger between this thermal wastewater provisioning component and this cold feed assembly, further, this high-temperature conduit is arranged between this heat exchanger and this check-valves.

3. the straight water outlet source pump of a kind of energy-storing-type as claimed in claim 1, it is characterized in that: this energy conversion unit is corresponding with this water cell, this energy conversion unit comprises compressor, evaporimeter and condenser, wherein, this compressor is corresponding with this evaporimeter and this condenser, and be connected with some heat transfer tubes between this compressor and this evaporimeter and this condenser, further, this compressor is connected with this evaporimeter and this condenser by some these heat transfer tubes, this evaporimeter is connected with this condenser, and be connected with this heat transfer tube between this evaporimeter and this condenser, further, this evaporimeter is that this cold feed assembly and the thermal wastewater provisioning component that are connected with this water supply unit are connected, and again, this cold feed assembly and this evaporimeter are formed the thermal compensation unit.

4. the straight water outlet source pump of a kind of energy-storing-type as claimed in claim 1 is characterized in that: this condenser is to be connected with the cold feed unit of this water supply unit, and this condenser is to be connected with this high-temperature conduit of this water supply unit.

5. the straight water outlet source pump of a kind of energy-storing-type as claimed in claim 1, it is characterized in that: this energy conversion unit is also installed a by-passing valve, and further, this by-passing valve is installed in this condenser two ends.

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