CN1590892A - Method of freezing oir conditioner set having multi item energy conversion and its structure - Google Patents

Abstract

A refrigerating air conditioner features that it has a group of multi-segment pipe for the heat exchanger with multiple kinds of fluid beside compressor, condenser, expansion valve and evaporator, so having such functions as heat pump, cooling or heating, ice water or hot water supply, constant-temp and humidity, heat recovering, and multiple energy conversion.

Description

Method and structure with refrigerating and air conditioning unit of multinomial power conversion

Technical field

The present invention relates to a kind of refrigerating and air conditioning unit modification method and structure that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently.

Background technology

In traditional refrigerating and air conditioning principle, in order to adapt to the energy recovery transfer of ball ecological environment, not in full conformity with use.In traditional recuperation of heat field, just with high-pressure output tube, and establish a heat exchange and a pump circulation, do gradual recuperation of heat, pass as the heat between two fluids and shift.Because the continuous exhaustion of earth energy, greenhouse effects produce fast, and atmospheric temperature rises always.Freezing air conditioner equipment is constantly set up, and produces the deficiency of electric power, and every household is all bought more air conditioner in a large number because too hot, and it is quicker to cause atmospheric temperature to rise.In the country of cold, because hot water heating is made in burning, produce the waste of the energy, and pollution of ecological environment.Therefore the inventor determines creation, is the most a mental and physical efforts of improving earth ecological environment.

Summary of the invention

One, for broader thinking pattern can be arranged, can bring better ecological environment to the earth, and reduce the discharging of used heat, reduce the threat of greenhouse effects to the mankind, therefore with the refrigerating and air conditioning principle, outside four big assemblies such as compressor, condenser, expansion valve, evaporimeter, set up again one group have can the multiple fluid heat exchange multisection type tube groove, and see through the switch mode of pipeline, become a kind of refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently.

Two, this is a method that brand-new refrigerating and air conditioning principle is used, the difference of certain and traditional refrigerating and air conditioning principle maximum, be in traditional refrigerating and air conditioning principle, combine in reversible circulation and the one group of variation with multisection type tube groove that can the multiple fluid heat exchange.The new concept that this group has multisection type tube groove that can the multiple fluid heat exchange is born, and can reach the power conversion of multiple heat transfer fluid, and has energy savings and the significance of safeguarding ecological environment.In traditional refrigerating and air conditioning, heat passes computation schema, all in the heat exchange of two kinds of fluids, calculate, yet this have can the multiple fluid heat exchange multisection type tube groove, to pass in traditional refrigerating and air conditioning heat and produce more complicated thinking computation schema on the computation schema, and the double energy of shouldering the earth mankind uses idea, and can carry out the energy savings policy of government.As long as in existing freezing air conditioner, do the slight modifications of reversible variation, can reach the target of energy savings, and use minimum cost, reach recovering effect the most fast.

Three, refrigerating and air conditioning circle is on energy savings, and major part is all with the ice storage system from the peak electricity consumption, and the recuperation of heat of air conditioner is the thinking pattern.Yet for broader thinking space is arranged; and in order to protect consumer's interests; the inventor proposes unprecedented new concept; its main meaning is to protect all mankind's property; masses are known to spend too many money; at the freezing air conditioner equipment of now both having established; can directly revise become energy-conservation; have heat pump concurrently; changes in temperature gas; constant temperature and humidity; frozen water; hot water; the refrigerating and air conditioning unit of recuperation of heat and multinomial thermal power transfer; protect existing freezing air conditioner equipment; what can not suffer exit because of doing recuperation of heat scraps processing, and the protection consumer, as long as a little funds of cost; just can reach desirable energy-saving function; and the Waste Heat Recovery arround heat energy available in the earth or the handle can be transferred into hot water, or seeing through the refrigerating and air conditioning unit discharges it, reaches the pattern of multi-purpose machine.

Four, in general, use the place of hot water to comprise every household, the hospital restaurant almost will use hot water everywhere, yet at general common hot water manufacturing mode, be to produce hot water by burning, or produce hot water by the recuperation of heat of air conditioner, in the control of in the past constant temperature and humidity, heat is to adopt electric heater again from the peak, humidification partly is to adopt electric heating or ultrasonic to produce the steam humidification, yet the Waste Heat Recovery in industrial circle all only is used in usually and makes on hot water or the steam-electric accreting, and general middle-size and small-size freezing air conditioner equipment often is left in the basket.Yet general as dwelling house formula user, because will purchase the air conditioner of making hot water, convert through the returns of investment ratio, therefore reclaiming too slowly, not within the foreseeable future, still is to adopt gas combustion hot water, the good policy of the energy savings of government, have obstacles and be difficult to walk, can't really implement on one's body each common people.Dwelling house can be done recuperation of heat in fact, with the building freezing air conditioner component district place, and with adjoining resident family be provided with jointly one group have can the multiple fluid heat exchange multisection type tube groove, with unit be linked to this group have can the multiple fluid heat exchange multisection type tube groove, reach Waste Heat Recovery and heat energy is shared with other and use with the user and free, round-the-clock hot water supplying mode can be arranged in the building, and reduce the running hours of radiators such as water tower, reach the advantage of mutual reciprocity and mutual benefit.

Five, the objective of the invention is to, provide one freezing air conditioner can be transformed into, have the refrigerating and air conditioning unit of heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial thermal power transfer concurrently.Wherein the hot water property whole year provides, and adopt the pattern of heat pump, produce heating installation in the winter time, or when the refrigerating and air conditioning unit is not started shooting, can be when the environment's heat input be arranged, thermal power transfer is become, can directly make hot water and heating installation is provided, and when cold in the winter time, do not have to utilize the recovery of used heat under the pattern of freezing air conditioner running, the new concept of the constant temperature and humidity comfort air conditioning that produces, and reduce the greenhouse effects phenomenon of industrial circle waste heat discharge in the atmosphere.In the process of energy savings, can be devoted to the dealer of energy recovery with general solar water heater or other, share simultaneously this group have can the multiple fluid heat exchange multisection type tube groove, be energy savings jointly, make efforts together, be jointly the ecological environment effort of improvement, the earth.

Six, the improved refrigerating and air conditioning unit () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently

1. at air-cooled refrigerating and air conditioning unit, or at the water cooling type refrigerator and air conditioner unit, when cooling tower does not freeze phenomenon in severe winter:

Lie in the compressor exhaust end and be provided with one group have can the multiple fluid heat exchange multisection type tube groove, in the refrigerant system, incorporate two four way valves and a plurality of magnetic valve again into, two coolant drying filters, with the bundle of the Reversible Cycle expansion gear that contracts, and in indoor heat converter, incorporate another group heat exchanger into, one group of humidifier is with refrigerating and air conditioning compressor commonly used, the condensation unit, the evaporation unit, a kind of new improved heat pump that has concurrently of common composition, changes in temperature gas, frozen water, hot water, constant temperature and humidity, the refrigerating and air conditioning unit (one) of recuperation of heat and multinomial power conversion.

2. at the water cooling type refrigerator and air conditioner unit, when cooling tower has the misgivings of freezing in severe winter:

Lie in (1) in the refrigerating and air conditioning unit improvement () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, incorporate another group heat exchanger again into.

Seven, the improved refrigerating and air conditioning unit (two) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently

Lie in the refrigerating and air conditioning unit improvement () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, reduce by a four way valve, and deduct a plurality of magnetic valves.

Eight, the improved refrigerating and air conditioning unit (three) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently.

Lie in the refrigerating and air conditioning unit (two) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, deduct a plurality of magnetic valves again.

When nine, running into irreversible bundle and contract expansion gear, will become reversible pattern with another irreversible bundle of reverse installation expansion gear that contracts.

Ten, at air-cooled refrigerating and air conditioning unit and at the water cooling type refrigerator and air conditioner unit, when cooling tower does not freeze phenomenon in severe winter, or indoor set is not when starting shooting, be not set up air-cooled heat exchanger, directly with air-cooled condenser, the Reversible Cycle operator scheme of making heat pump becomes heat absorption, makes hot water.When water-cooled, utilize the Reversible Cycle operator scheme of heat pump, make the water cooled condenser heat absorption, activate the running of cooling tower, absorb the heat energy in the atmosphere, indirect manufacturing hot water.

11, at the water cooling type refrigerator and air conditioner unit, when cooling tower has icing phenomenon in severe winter, need set up the outdoor air-cooled heat exchanger of another group, do the Reversible Cycle operator scheme, make hot water.

12, its principle is:

1. in the compressor exhaust end, and be provided with one group have can the multiple fluid heat exchange multisection type tube groove.As figure (8-1) (8-2) (8-3) (8-4) shown in, this groove can be according to type of fluid and quantity, do the extension or the minimizing of actual needs, subregion, segmentation, the fluid of multiple different system kind, the power conversion that enters the heating of multisection type tube groove or cool off, the pure water source region that has one group of daily life to use in the tube groove, there are two sections this watershed, and one section is and the preheating precooling tube groove of multiple fluid normality power conversion accumulation, and another section is the source of purified water water outlet cold again tube of a heat groove again.Wherein the cold again tube of heat groove is the structure of a heat exchange form again, it can be basic double pipe coiled combination, multiple pipe coiled combination, it also can be the structure of the shell-tube type of multiple pipe ... Deng, this have can the multiple fluid heat exchange multisection type tube groove have the fire-proof and thermal-insulation heat insulation effect, can be erected on the structure of refrigerating and air conditioning unit, or be erected at the refrigerating and air conditioning unit near, and with the high pressure discharge pipe of compressor, extend directly enter this have can the multiple fluid heat exchange multisection type tube groove, do the energy transfer of direct-type, refrigerant after exchange, continuation guides to next function by the refrigerant pipe, continues action up to getting back to compressor, finishes a circulation.Wherein all in different zones, with the wall of the tube groove that links to each other, the pipeline wall of fluid carries out hot conduction mode to multiple fluid, reaches the effect of transferring energy at different interval fluids jointly.

2. the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (one).

Utilize the control of two four way valves, cooperate a plurality of magnetic valves, the pattern that cooperates pipeline to switch, reach the language function of multiple refrigerating and air conditioning, first four way valve wherein, be as responsible selection, have can the multiple fluid heat exchange multisection type tube groove, be to be in to make frozen water, still be in the state of making hot water.But second four way valve is to be used on the heat pump inverse operation, and major function is with outdoor heat exchanger, and switching to possess has heat absorption and heat dissipation capability.

Have can the multiple fluid heat exchange multisection type tube groove, when approaching the capacity of heat transmission of condenser, be to reach the function of switching condensation unit and evaporation unit, can make frozen water, can make hot water.

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to:

(1) under the indoor start cold air state, can make frozen water.

(2) under the indoor start cold air state, can make hot water.

(3) under the indoor start heating installation state, can make frozen water.

(4) under the indoor start heating installation state, can make hot water.

(5) under the indoor not open state, can make frozen water.

(6) under the indoor not open state, can make hot water.

(7) under the indoor start cold air state, can the wash bowl groove.

(8) under the indoor start heating installation state, can the wash bowl groove.

3. the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (two).

Utilize the control of a four way valve, cooperate a plurality of magnetic valves, the pattern that cooperates pipeline to switch, reach the language function of multiple refrigerating and air conditioning, but four way valve is to be used on the heat pump inverse operation, and major function is with outdoor heat exchanger, and switching to possess has heat absorption and heat dissipation capability.

Have can the multiple fluid heat exchange multisection type tube groove, can make frozen water, can make hot water have can the multiple fluid heat exchange multisection type tube groove on function, be changed to:

(1) under the indoor start cold air state, can make hot water.

(2) under the indoor not open state, can make frozen water.

(3) under the indoor not open state, can make hot water.

(4) under the indoor start cold air state, can the wash bowl groove.

4. the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (three).

Utilize the control of a four way valve, cooperate a plurality of magnetic valves, the pattern that cooperates pipeline to switch, but four way valve is to be used on the heat pump inverse operation, and major function is with outdoor heat exchanger, and switching to possess has heat absorption and heat dissipation capability.

Have can the multiple fluid heat exchange multisection type tube groove, can make hot water.

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to:

(1) under the indoor start cold air state, can make hot water.

(2) under the indoor not open state, can make hot water.

When have in the external world enough hot fluids or cold fluid enter this have can the multiple fluid heat exchange multisection type tube groove; permeate water pumping conditioned water alive; another group heat exchanger in the inlet chamber just can provide function cold, heating installation, and the refrigerating and air conditioning main frame can be done the maintenance work of stopped status.

This have can the multiple fluid heat exchange multisection type tube groove can with other unit as the solar energy Waste Heat Recovery, reach shared characteristic.

7. above-mentioned unit is to do explanation with the indoor direct expansion unit of ventilation type, can be when the frozen water machine with under the indoor start cold air state, and when being considered as the freezing water apparatus running, the result is all identical.

13, under the refrigerating and air conditioning unit is shut down not user mode; one group have can the multiple fluid heat exchange multisection type tube groove; still can absorb storage from extraneous energy such as the used heat of the used heat of solar energy, chimney or boiler or industry machine, underground heat; pass principle or heat pipe pattern with heat; or fluid flow pattern; heat energy is passed to this groove, and power conversion is provided, be delivered to required supply part by gravity or tap water hydraulic or with the fluid that force (forcing) pump will be finished the energy transfer.

14, in the winter time or think under the state of energy savings, the tube groove has the cryogenic-fluid energy transfer in enough external worlds, when changing into the frozen water supply; this moment, the refrigerating and air conditioning unit can be shut down; reach another kind of cryogenic-fluid energy transfer pattern, reach refrigerating and air conditioning unit maintenance downtime, energy-conservation target.

15, in the winter time or think under the state of energy savings, a tube groove has the heat energy in enough external worlds to change over to, and when changing into the hot water supply, this moment, the refrigerating and air conditioning unit can be shut down, and reached another kind of Waste Heat Recovery pattern, reached air-conditioning unit maintenance downtime, energy-conservation target.

16, under the state that tube groove energy will remove, when indoor units was not opened, can reach the target of another kind of remove waste heat this moment by the running of refrigerating and air conditioning unit, and make frozen water.

17, under the state that tube groove energy will remove, also can open cold air, can reach the target of another kind of remove waste heat, and make frozen water this moment by the refrigerant heat absorption phenomenon of refrigerating and air conditioning unit running.

18, under the state that tube groove energy will remove, also can open heating installation, can reach the target of another kind of remove waste heat this moment by the heat pump principle of refrigerating and air conditioning unit running, and make frozen water.

19, want under the state of heat accumulation at tube groove energy, when indoor units was not opened, can reach the target of another kind of thermal energy storage this moment by the heat pump principle of refrigerating and air conditioning unit running, and make hot water.

20, want also can open cold air under the state of heat accumulation at tube groove energy, can reach the target of another kind of thermal energy storage this moment by the refrigerant radiating mode of refrigerating and air conditioning unit running, and make hot water.

21, want also can open heating installation under the state of heat accumulation at tube groove energy, can reach the target of another kind of thermal energy storage this moment by the heat pump principle of refrigerating and air conditioning unit running, and make hot water.

22, under refrigerating and air conditioning unit operating condition, can be with the gaseous coolant of HTHP, directly be connected to this groove with the refrigerant pipeline, directly heat energy is transferred to a groove, the wherein heat energy transfer between refrigerant and tube groove, do not need to rely on that water pump is reached as long as in general refrigerating and air conditioning unit compressor or desirable high pressure condensing pressure tolerance band, all can directly heat energy be transferred to a groove.

23, when refrigerating and air conditioning unit not under the operating condition, can be by the high temperature fluid of external world's input, enter have can the multiple fluid heat exchange multisection type tube groove, after heat exchange, on extremely indoor another group heat exchanger of water pump delivering hot water, equally can produce heating installation, the heating installation of this moment is the heat energy input by the external world, or Waste Heat Recovery is shifted the utilization generation.

24, when refrigerating and air conditioning unit not under the operating condition, can be by the cryogen of external world's input, enter have can the multiple fluid heat exchange multisection type tube groove, after heat exchange, carry frozen water to indoor another group heat exchanger by water pump, the same can produce cold air, be that the cryogen by the external world is passed to the elsewhere with heat energy at this moment.

25, in the system architecture of constant temperature and humidity, can learn from the air line chart that the heated condition of air produces when opening heating installation, airborne relative humidity can descend, air can become drying, therefore incorporate one group of humidifier in indoor heat converter, according to humidity controller, set condition is done suitable humidification function, in the cooling and dehumidifying process, when too dry, this humidifier also can be done humidification function, therefore can reach the demand of constant temperature and humidity air-conditioning system when indoor.

26, this group have can the multiple fluid heat exchange multisection type tube groove, can become under different condition or the same terms and turn round, the transfer station of energy of many independently refrigerant compressibilities, and can be devoted to the dealer of energy recovery with general solar water heater or other, share simultaneously this group have can the multiple fluid heat exchange multisection type tube groove, this groove is reached shared pattern, and can do unconfined capacity and extend, and reaches huge power conversion effect.

27, under arrival of indoor units temperature or indoor pattern of not starting shooting, do not need hot water, maybe need from the heat energy in the external worlds such as the used heat of the used heat of solar energy or chimney or boiler or industry machine, underground heat, when being released to atmosphere, can utilize this unit running, unnecessary used heat is discharged into the atmosphere.

28, the heat energy when the external world has, and is higher than the refrigerant high pressure and spues under the state of temperature of heat, can strengthen or incorporates heat exchanger once more into, reach the effect of auxiliary heat dissipation, or establish bypass line in addition, and refrigerant is directly switch into condenser, prevent the generation of refrigerant superheat working.

29, when have can the multiple fluid heat exchange multisection type tube groove, heat exchange reaches when reaching saturation state gradually, can activate condenser, and its running is released to the heat energy of surplus in the atmosphere.

30, this creation is can be according to different demands, do the increase and decrease of pipeline and part, also single loop can be turn-offed the magnetic valve of opening usefulness, makes the control part of multiloop formula according to behaviour in service, to reduce number of spare parts.

31, this group have can the multiple fluid heat exchange multisection type tube groove, can do the transfer of subregion segmentation energy, and can be direct or indirect, absorb and store from solar energy, the used heat of chimney, the used heat of boiler or industry machine, the heat energy that underground heat etc. are extraneous, and can become under different condition or the same terms, many independently refrigerant compressibilities of running, the transfer station of assembling transformation energy, or under the out-of-operation state of main frame, will be from the used heat of solar energy or chimney, or the used heat of boiler or industry machine, the heat energy that underground heat etc. are extraneous, convert hot water to, or will be from the used heat of solar energy or chimney, the used heat of boiler or industry machine, extraneous heat energy such as underground heat discharges, and the refrigerating and air conditioning new construction is application person at first.

32, in the process of energy recovery transfer, feasible part is all arranged, as the 174449th, 406792,356933,371475,394366,427487,514222 of Taiwan bulletin ... .. number patent etc., all helpful to energy savings, yet has only the present invention only to ball ecological environment, comprehensive energy conversion method is arranged, can accomplish better using energy source and recovery ball ecological environment.

Description of drawings

Description of drawings of the present invention is as follows:

Figure (1) is the refrigerating and air conditioning unit schematic diagram that the indoor direct expansion multicomputer running of ventilation type has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (2) is the refrigerating and air conditioning unit schematic diagram that the running of ventilation type frozen water machine multicomputer has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (3) is the refrigerating and air conditioning unit schematic diagram that water-cooled frozen water machine multicomputer running has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion when setting up air-cooled heat exchanger concurrently.

Figure (4) is the refrigerating and air conditioning unit schematic diagram that the running of the indoor direct expansion multicomputer of water-cooled has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion when setting up air-cooled heat exchanger concurrently.

Figure (5) is the refrigerating and air conditioning unit schematic diagram that the running of water-cooled frozen water machine multicomputer has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (6) is the refrigerating and air conditioning unit schematic diagram that the indoor direct expansion multicomputer running of water-cooled has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (7) is when running into irreversible bundle and contracting expansion gear, will become reversible pattern diagram with another irreversible bundle of reverse installation expansion gear that contracts.

Figure (8-1) cording have can the multiple fluid heat exchange multisection type tube groove structural representation.

Figure (8-2) cording have can the multiple fluid heat exchange multisection type tube groove structure infinitely extend schematic diagram.

Figure (8-3) is the hot water barrel's groove schematic diagram that is applicable to that constant temperature and humidity and daily life water separate.

Figure (8-4) is a simple type daily life water hot water barrel groove schematic diagram.

Figure (9) is the refrigerating and air conditioning unit schematic diagram that the indoor direct expansion multicomputer running of ventilation type has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (10) is the refrigerating and air conditioning unit schematic diagram that the running of ventilation type frozen water machine multicomputer has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (11) is the refrigerating and air conditioning unit schematic diagram that water-cooled frozen water machine multicomputer running has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion when setting up air-cooled heat exchanger concurrently.

Figure (12) is the refrigerating and air conditioning unit schematic diagram that the running of the indoor direct expansion multicomputer of water-cooled has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion when setting up air-cooled heat exchanger concurrently.

Figure (13) is the refrigerating and air conditioning unit schematic diagram that the running of water-cooled frozen water machine multicomputer has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (14) is the refrigerating and air conditioning unit schematic diagram that the indoor direct expansion multicomputer running of water-cooled has hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently.

Figure (15) is the refrigerating and air conditioning unit schematic diagram that the indoor direct expansion multicomputer running of ventilation type has constant humidity recuperation of heat of changes in temperature gas hot water constant temperature and multinomial power conversion concurrently.

Figure (16) is the refrigerating and air conditioning unit schematic diagram that the running of ventilation type frozen water machine multicomputer has hot water constant temperature constant humidity recuperation of heat of changes in temperature gas frozen water and multinomial power conversion concurrently.

Figure (17) is the refrigerating and air conditioning unit schematic diagram that water-cooled frozen water machine multicomputer running has hot water constant temperature constant humidity recuperation of heat of changes in temperature gas frozen water and multinomial power conversion when setting up air-cooled heat exchanger concurrently.

Figure (18) is the refrigerating and air conditioning unit schematic diagram that the running of the indoor direct expansion multicomputer of water-cooled has constant humidity recuperation of heat of changes in temperature gas hot water constant temperature and multinomial power conversion when setting up air-cooled heat exchanger concurrently.

Figure (19) is the refrigerating and air conditioning unit schematic diagram that the running of water-cooled frozen water machine multicomputer has hot water constant temperature constant humidity recuperation of heat of changes in temperature gas frozen water and multinomial power conversion concurrently.

Figure (20) is the refrigerating and air conditioning unit schematic diagram that the indoor direct expansion multicomputer running of water-cooled has constant humidity recuperation of heat of changes in temperature gas hot water constant temperature and multinomial power conversion concurrently.

Wherein,

Main icon of the present invention is figure (1), figure (9), figure (15).

Description of reference numerals:

(1-1) first group of compressor

(1-2) second group of compressor

(1-3) the 3rd group of compressor

(1-1-01 (1-3-01)) be discharge pipe (1-2-01)

(1-1-02) (1-2-02) (1-3-02) return duct

(2) the multisection type tube groove of multiple fluid heat exchange

(2-1) (2-2) (2-3) tube groove

(2-4) preheating precooling tube groove

(2-5) the cold again tube of heat groove again

(201) fluid intake

(202) fluid issuing

(203) fluid intake

(204) fluid issuing

(205) water inlet

(206) water out

(207) water out

(208) connected entrance

(209) water inlet

(8) the multisection type tube groove of multiple fluid heat exchange

(8-1) (8-2) (8-3) tube groove

(8-4) preheating precooling tube groove

(8-5) the cold again tube of heat groove again

(801) fluid intake

(802) fluid issuing

(803) fluid intake

(804) fluid issuing

(805) water inlet

(806) water out

(807) water out

(808) connected entrance

(809) water inlet

(10) air-cooled condenser

(10-101) water cooled condenser

(3-1) (3-2) (3-3) (11) (14) (21) heat exchanger

(3-11-1) (3-11-2) (3-11-3) (11-4) (11-5) fan

(26-1) (26-2 (26-3)) water pump

(C/T) cooling tower

(7-1) the reversible bundle expansion gear that contracts

(7-2) (7-3) unidirectional type bundle expansion gear that contracts

(4) (4-2) four way valve

(12) liquid-gas separator

(16-1) bleeder

(16-2) non-return valve

(17) (18) coolant drying filter

(5-1)(5-2)(5-3)(5-4)(5-5)(5-6)(5-7)(5-8)(5-9)(5-10)(5-11)

(5-12)(5-13)(5-14)(5-15)(5-16)(5-17)(5-18)

(5-19) (5-20) (5-21) (31) (32) (33) (41) (42) magnetic valve

(20) humidifier

(30) (40) proportion expression triple valve

The specific embodiment

(1), the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (one), please refer to figure (1), figure (2), figure (3), figure (4), figure (5), figure (6).

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to: to scheme (1), refrigerant flow path is scolded bright with the reference number in the icon.

1. under the indoor start cold air state, can make frozen water.(1-1)～(16-1)～(16-2)～(5-6)～(5-13)～(4-2)～(10)～(5-16)～(17)～(7-1)～(18)～(5-4)～(11)(4)～(5-7)～(2)～(4)～(5-9)～(5-11)～(12)～(1-1)

2. under the indoor start cold air state, can make hot water.(1-1)～(16-1)～(16-2)～(5-5)～(4)～(2)～(5-2)～(5-13)～(4-2)～(10)～(5-16)～(17)～(7-1)～(18)～(5-4)～(11)～(4)～(5-9)～(5-11)～(12)～(1-1)

3. under the indoor start heating installation state, can make frozen water.(1-1)～(16-1)～(16-2)～(5-5)～(4)～(11)～(5-4)～(18)～(7-1)～(17)～(5-17)～(2)～(4)～(5-9)～(5-11)～(12)～(1-1)

4. under the indoor start heating installation state, can make hot water.(1-1)～(16-1)～(16-2)～(5-5)～(4)～(2)～(5-8)～(4)～(11)～(5-4)～(18)～(7-1)～(17)～(5-16)～(10)～(4-2)～(5-14)～(5-12)～(1-1)

5. under the indoor not open state, can make frozen water.(1-1)～(16-1)～(16-2)～(5-5)～(4)～(5-3)～(4-2)～(10)～(5-16)～(17)～(7-1)～(18)～(4-2)～(5-13)～(5-2)～(2)～(4)～(5-9)～(5-11)～(12)～(1-1)

6. under the indoor not open state, can make hot water.(1-1)～(16-1)～(16-2)～(5-5)～(4)～(2)～(5-2)～(5-13)～(4-2)～(18)～(7-1)～(17)～(5-16)～(10)～(4-2)～(5-14)～(12)～(1-1)

7. under the indoor start cold air state, can the wash bowl groove.(1-1)～(16-1)～(16-2)～(5-6)～(5-13)～(4-2)～(10)～(5-16)～(17)～(7-1)～(18)～(5-4)～(11)～(4)～(5-9)～(5-11)～(12)～(1-1)

8. under the indoor start heating installation state, can the wash bowl groove.(1-1)～(16-1)～(16-2)～(5-6)～(5-13)～(5-10)～(5-9)～(4)～(11)～(5-4)～(18)～(7-1)～(17)～(5-16)～(10)～(4-2)～(5-14)～(12)～(1-1)

(2), the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (two), please refer to: figure (9), figure (10), figure (11), figure (12), figure (13), figure (14).

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to: to scheme (9), refrigerant flow path is scolded bright with the reference number in the icon.

1. under the indoor start cold air state, can make hot water.(1-1)～(16-1)～(16-2)～(5-1)～(2)～(5-2)～(4-2)～(10)～(17)～(7-1)～(18)～(5-4)～(11)～(12)～(1-1)

2. under the indoor not open state, can make frozen water.(1-1)～(16-1)～(16-2)～(5-5)～(4-2)～(10)～(17)～(7-1)～(18)～(5-18)～(2)～(5-19)～(12)～(1-1)

3. under the indoor not open state, can make hot water.(1-1)～(16-1)～(16-2)～(5-1)～(2)～(5-2)～(4-2)～(18)～(7-1)～(17)～(10)～(4-2)～(5-3)～(12)～(1-1)

4. under the indoor start cold air state, can the wash bowl groove.(1-1)～(16-1)～(16-2)～(5-5)～(4-2)～(10)～(17)～(7-1)～(18)～(5-4)～(11)～(12)～(1-1)

(3): the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (three), please refer to: figure (15), figure (16), figure (17), figure (18), figure (19), figure (20).

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to: to scheme (15), refrigerant flow path is scolded bright with the reference number in the icon.

1. under the indoor start cold air state, can make hot water.(1-1)～(16-1)～(16-2)～(2)～(4-2)～(10)～(17)～(7-1)～(18)～(5-4)～(11)～(12)～(1-1)

2. under the indoor not open state, can make hot water.(1-1)～(16-1)～(16-2)～(2)～(4-2)～(18)～(7-1)～(17)～(10)～(4-2)～(5-3)～(12)～(1-1)

In a word, in this complexity, the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improve one's methods (one), be not seen before, the creative method of refrigerating and air conditioning unit collocation energy transfer, what can predict is to have broader thinking, the energy savings of the earth is made better boundary, and the volume controlled mode of refrigerating and air conditioning unit, load control mode also can be more fine and smooth.

Claims (22)

1, a kind of refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently is improved one's methods and structure (), it is characterized in that:

(1) at air-cooled refrigerating and air conditioning unit, or at the water cooling type refrigerator and air conditioner unit, when cooling tower does not freeze phenomenon in severe winter:

Lie in the compressor exhaust end, and be provided with one group have can the multiple fluid heat exchange multisection type tube groove, in the refrigerant system, incorporate two four way valves and a plurality of magnetic valve again into, two coolant drying filters, with the bundle of the Reversible Cycle expansion gear that contracts, and in indoor heat converter, incorporate another group heat exchanger into, one group of humidifier is with refrigerating and air conditioning compressor commonly used, the condensation unit, the evaporation unit, common form a kind of new: have heat pump concurrently, changes in temperature gas, frozen water, hot water, constant temperature and humidity, the refrigerating and air conditioning unit improvement (one) of recuperation of heat and multinomial power conversion;

(2) at the water cooling type refrigerator and air conditioner unit, when cooling tower has the misgivings of freezing in severe winter:

Lie in 1 in the refrigerating and air conditioning unit improvement () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, incorporate another group heat exchanger again into.

2, a kind of refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently improves (two), it is characterized in that:

Lie in the refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently and improve in (one), reduce by a four way valve, and deduct a plurality of magnetic valves.

3, a kind of refrigerating and air conditioning unit improvement (three) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently is characterized in that:

Lie in the refrigerating and air conditioning unit improvement (two) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, deduct a plurality of magnetic valves again.

4, according to any described the improving one's methods of claim 1 to 3, it is characterized in that, when running into irreversible bundle and contracting expansion gear, will become reversible pattern with another irreversible bundle of reverse installation expansion gear that contracts.

5, according to any described the improving one's methods of claim 1 to 3, it is characterized in that, at air-cooled refrigerating and air conditioning unit and at the water cooling type refrigerator and air conditioner unit, when cooling tower does not freeze phenomenon in severe winter, or indoor set is not set up air-cooled heat exchanger, directly with air-cooled condenser when not starting shooting, the Reversible Cycle operator scheme of making heat pump becomes heat absorption, makes hot water; When water-cooled, utilize the Reversible Cycle operator scheme of heat pump, make the water cooled condenser heat absorption, activate the running of cooling tower, absorb the heat energy in the atmosphere, indirect manufacturing hot water.

6, according to any described the improving one's methods of claim 1 to 3, it is characterized in that, at the water cooling type refrigerator and air conditioner unit, when cooling tower has icing phenomenon in severe winter, need set up the outdoor air-cooled heat exchanger of another group, do the Reversible Cycle operator scheme, make hot water.

7, according to the refrigerating and air conditioning unit structure that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of the described method of claim 1 to 6, it is characterized in that:

Lie in the compressor exhaust end, and be provided with one group have can the multiple fluid heat exchange multisection type tube groove, as figure (8-1) (8-2) (8-3) (8-4) shown in, this groove can be according to type of fluid and quantity, do the extension or the minimizing of actual needs, subregion, segmentation, the fluid of multiple different system kind, enter the power conversion of heating of multisection type tube groove or cooling, the pure water source region that has one group of daily life to use in the tube groove, there are two sections this watershed, and one section is and the preheating precooling tube groove of multiple fluid normality power conversion accumulation, and another section is the source of purified water water outlet cold again tube of a heat groove again; Wherein the colder again tube of heat groove be a heat exchange form structure, it can be basic double pipe coiled combination, multiple pipe coiled combination, it also can be the structure etc. of the shell-tube type of multiple pipe, this have can the multiple fluid heat exchange multisection type tube groove have the fire-proof and thermal-insulation heat insulation effect, can be erected on the structure of refrigerating and air conditioning unit, or be erected at the refrigerating and air conditioning unit near, and with the high pressure discharge pipe of compressor, extend directly enter this have can the multiple fluid heat exchange multisection type tube groove, do the energy transfer of direct-type, refrigerant after exchange, continuation guides to next function by the refrigerant pipe, continues action up to getting back to compressor, finishes a circulation.Wherein all in different zones, with the wall of the tube groove that links to each other, the pipeline wall of fluid carries out hot conduction mode to multiple fluid, reaches the effect of transferring energy at different interval fluids jointly;

8, according to the improved refrigerating and air conditioning unit () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of the described method of claim 1, it is characterized in that:

Utilize the control of two four way valves, cooperate a plurality of magnetic valves, the pattern that cooperates pipeline to switch, reach the language function of multiple refrigerating and air conditioning, first four way valve wherein, be as responsible selection, have can the multiple fluid heat exchange multisection type tube groove, be to be in to make frozen water, still be in the state of making hot water.But second four way valve is to be used on the heat pump inverse operation, and major function is with outdoor heat exchanger, and switching to possess has heat absorption and heat dissipation capability; Have can the multiple fluid heat exchange multisection type tube groove, when approaching the capacity of heat transmission of condenser, be to reach the function of switching condensation unit and evaporation unit, can make frozen water, can make hot water; Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to:

(1) under the indoor start cold air state, can make frozen water;

(2) under the indoor start cold air state, can make hot water;

(3) under the indoor start heating installation state, can make frozen water;

(4) under the indoor start heating installation state, can make hot water;

(5) under the indoor not open state, can make frozen water;

(6) under the indoor not open state, can make hot water;

(7) under the indoor start cold air state, can the wash bowl groove;

(8) under the indoor start heating installation state, can the wash bowl groove;

9. according to the improved refrigerating and air conditioning unit (two) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of the described method of claim 2, it is characterized in that:

Utilize the control of a four way valve, cooperate a plurality of magnetic valves, the pattern that cooperates pipeline to switch, reach the language function of multiple refrigerating and air conditioning, but four way valve is to be used on the heat pump inverse operation, and major function is with outdoor heat exchanger, and switching to possess has heat absorption and heat dissipation capability;

Have can the multiple fluid heat exchange multisection type tube groove, can make frozen water, can make hot water

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to:

(1) under the indoor start cold air state, can make hot water;

(2) under the indoor not open state, can make frozen water;

(3) under the indoor not open state, can make hot water;

(4) under the indoor start cold air state, can the wash bowl groove;

10. according to the improved refrigerating and air conditioning unit (three) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of the described method of claim 3, it is characterized in that:

Utilize the control of a four way valve, cooperate a plurality of magnetic valves, the pattern that cooperates pipeline to switch, but four way valve is to be used on the heat pump inverse operation, and major function is with outdoor heat exchanger, and switching to possess has heat absorption and heat dissipation capability;

Have can the multiple fluid heat exchange multisection type tube groove, can make hot water;

Have can the multiple fluid heat exchange multisection type tube groove on function, be changed to:

(1) under the indoor start cold air state, can make hot water;

(2) under the indoor not open state, can make hot water;

11., it is characterized in that according to the described improved refrigerating and air conditioning unit that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of claim 7 to 10:

When have in the external world enough hot fluids or cold fluid enter this have can the multiple fluid heat exchange multisection type tube groove, permeate water pumping conditioned water alive, another group heat exchanger in the inlet chamber just can provide function cold, heating installation, and the refrigerating and air conditioning main frame can be done the maintenance work of stopped status;

Described have can the multiple fluid heat exchange multisection type tube groove can with other unit as the solar energy Waste Heat Recovery, reach shared characteristic;

Above-mentioned unit is to do explanation with the indoor direct expansion unit of ventilation type, can be when the frozen water machine with under the indoor start cold air state, and when being considered as the freezing water apparatus running, the result is all identical.

12, the described according to Claim 8 improved refrigerating and air conditioning unit () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, it is characterized in that, two coolant drying filters, the bundle that is installed in Reversible Cycle contract the front and back of expansion gear, each one.

13, the described according to Claim 8 improved refrigerating and air conditioning unit () that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, it is characterized in that, one group of humidifier, be to be placed between two groups of heat exchangers of indoor units, and be provided with solenoid control water.

14, the described according to Claim 8 improved heat pump that has concurrently, changes in temperature gas, frozen water, hot water, constant temperature and humidity, the refrigerating and air conditioning unit (one) of recuperation of heat and multinomial power conversion, it is characterized in that, indoor units has two groups of heat exchangers, one is process, have can the multiple fluid heat exchange multisection type tube groove, the heat exchanger that the idle call pool connects with water pipe, be erected at the air-out oral-lateral, and do flow-control with the proportion expression triple valve, another direct expansion, refrigeration heat converter, at the return air oral-lateral, when this group heat exchanger is the frozen water heat exchanger, also will set up another group proportion expression triple valve, and wherein share an air supply motor, wherein pipeline partly all is provided with magnetic valve and turn-offs fluid.

15, according to Claim 8 or the 9 described improved refrigerating and air conditioning units that have heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently advance (one) or the described improved refrigerating and air conditioning unit (two) that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently, wherein, turnover have can the multiple fluid heat exchange multisection type tube groove, arround pipeline all give the fire-proof and thermal-insulation insulation.

16, the improved refrigerating and air conditioning unit (three) that have heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion according to claim 10, it is characterized in that, turnover have can the multiple fluid heat exchange multisection type tube groove, arround pipeline all give fire-proof and thermal-insulation insulation, the refrigerant pipeline can be incubated also and can not be incubated.

17, according to the described refrigerating and air conditioning unit structure that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of claim 7, it is characterized in that refrigerant system first structure, single refrigerant system first structures of organizing organized more, be to be grounding, adopting the pattern of soaking, can be the combination of opening bucket, or case type textural association, it mainly is hot arq mode generation with barrel, reach energy and store and conversion, wherein

Tube groove (2-1), (2-2), (2-3), preheating precooling tube groove (2-4), the colder again tube of heat groove (2-5), be divided into the fluid of four kinds of different systems, the fluid that tube groove (2-1), (2-2) change over to for the external world that is different from this refrigerant system, tube groove (2-3) is the idle call pool, preheating precooling tube groove (2-4) is the pure water source region, and heat cold again tube groove (2-5) is the source of purified water water outlet cold again tube of a heat groove more again.

18, according to the described refrigerating and air conditioning unit structure that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of claim 7, it is characterized in that, refrigerant system second structural representation, single refrigerant system second structural representations of organizing organized more, be to be grounding, the pattern that adopts subregion to coat, textural association mainly is the hot arq mode generation with barrel, reaches energy and stores and conversion.

19, according to the described refrigerating and air conditioning unit structure that has heat pump, changes in temperature gas, frozen water, hot water, constant temperature and humidity, recuperation of heat and multinomial power conversion concurrently of claim 7, it is characterized in that, the refrigerant pipeline is to pass the source of purified water water outlet cold again tube of heat groove (2-5) more earlier, enter the pure water source region (2-4) that daily life is used again, enter again and leave a groove after (2-3) idle call pool heat exchange is finished, in tube groove (2-3,2-4, the 2-5) district, one group of coil-type heat exchanger is respectively arranged, three heat exchangers can be provided with on demand.

20, the indoor direct expansion multicomputer running of a kind of ventilation type has the refrigerating and air conditioning unit of hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently; it is characterized in that; the compressor discharge opening has a refrigerant bleeder; when high pressure is too high, refrigerant is released, a non-return valve is arranged afterwards; when preventing to shut down; compressor reverse rotation is provided with a liquid-gas separator on the compressor return duct, prevent that hydraulic pressure from contracting.

21, running has the refrigerating and air conditioning unit of hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently according to the indoor direct expansion multicomputer of the described ventilation type of claim 20, it is characterized in that, have can the multiple fluid heat exchange multisection type tube groove, the source of purified water water outlet is the cold again tube of heat groove (2-5) again, and wherein the refrigerant pipe is directly to enter a groove to do heat exchange.

22, a kind of ventilation type frozen water machine multicomputer running has the refrigerating and air conditioning unit of hot water constant temperature constant humidity recuperation of heat of heat pump cold and warm gas frozen water and multinomial power conversion concurrently, it is characterized in that, have can the multiple fluid heat exchange multisection type tube groove, replacement ventilation type frozen water machine, commonly use the structure of frozen water heat exchanger, also can replace water-cooled frozen water machine, commonly use condensate and heat exchanger, structure.

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