CN1731041A - Compression type refrigerating, heating apparatus and heat pump water heater combined set - Google Patents

Abstract

The composite machine of compressing cooling and heating sets and heat pump water heater consists of different compressing cooling and heating sets, hot water supply system, and their control system, and has temperature controller with set temperature and mounted on the water cooled condenser. The present invention is suitable for cooling air conditioning, heating and providing hot water for washing and other uses in various kinds of building. It has high efficiency, power consumption 70 % lower than common electric water heater, high apparatus utilization, low cost and high safety and reliability.

Description

The compound unit of compression-type refrigeration heating equipment and Teat pump boiler

Technical field that the present invention belongs to: the present invention is under the jurisdiction of heating-cooling equipment

Range of application: be suitable for having a bath and live washing with hot water or boiler preheating, industrial or agricultural hot water for the heating of its user's refrigeration air-conditioner in summer of residential housing, villa, office building, industrial or agricultural building and commercial building, winter heating, annual supply.

Technical background: existing air-conditioner of selling on the domestic and international market and central air-conditioning refrigeration air-conditioner in summer, and refrigerant vapour condensation in condenser institute liberated heat is scattered and disappeared by absorption of air, be not utilized, winter heating's heating, the evaporation and cold-producing medium absorbs heat in evaporimeter, the refrigerating capacity that is produced is taken away and is lost by air, be not utilized yet, existing positive displacement electric heater power consumption is bigger, and the Teat pump boiler power consumption of selling on the domestic and international market is little, only account for 1/3rd of electric heater power consumption, also be not utilized but cold-producing medium evaporates the refrigerating capacity that is produced in evaporimeter.

Goal of the invention: the present invention will provide cluster compression-type refrigeration heating equipment and the compound unit of Teat pump boiler, not only summer can refrigeration air-conditioner, winter heating's heating, and can supply the user whole year and have a bath and live washing with hot water or industrial or agricultural hot water, than electric heater economize on electricity 70%.

Invention advantage: one, energy-efficient: it is than electric heater economize on electricity 70%; Two, conserve space and cost: the compression-type refrigeration heating equipment identical with the compound unit of Teat pump boiler with function two single household electrical appliance---air-conditioner is compared with Teat pump boiler, a shared compressor and an evaporimeter, thus save installing space and reduced manufacturing cost; Three, utilization rate of equipment and installations height: equipment is all in running throughout the year; Four, reliable, no potential safety hazard.

Summary of the invention: the present invention is by the compression-type refrigeration heating, hot-water supply system and control system three parts are formed, as figure (20), it is the compound unit of air-conditioner and Teat pump boiler, its compression-type refrigeration heating is by compressor, four-way electromagnetic reversing valve, the condenser that combines with the air-conditioner outdoor unit group, device for drying and filtering, capillary, the evaporimeter that combines with the air conditioner room unit group, be tightly connected into closed system successively with pipeline, and by four magnetic valves and two threeways, with a pipeline and an air-conditioner outdoor unit group sealing water cooled condenser in parallel, the metallic coil of cold-producing medium is housed away in condenser, between condenser inner bag and metallic coil outer wall, water is housed, but the temperature controller and the temperature-sensing element thereof of design temperature are housed on condenser, the hot-water supply system is made up of condenser and heat storage water tank, its titting water outlet of condenser is tightly connected with pipeline and its end admitting pipe joint of heat storage water tank through magnetic valve, its admitting pipe joint of condenser is tightly connected through magnetic valve and its end titting water outlet of heat storage water tank, heat storage water tank its underpart admitting pipe joint passes through gate valve, three general pipelines are tightly connected with water source from the beginning, its underpart titting water outlet passes through gate valve, three general pipelines are sealedly connected with tap and shower shower nozzle respectively, the water temperature nixie display is housed on heat storage water tank, its inner bag of condenser and heat storage water tank all is equipped with heat-insulation layer and shell, and its control system is by compressor electric motor, fan electromotor, starting relay, capacitor, temperature controller, its coil of four-way electromagnetic reversing valve, but the temperature controller of design temperature, magnetic valve, the water temperature nixie display, selector switch and attaching plug are electrically connected to be formed.But and during the heating of the temperature controller refrigeration air-conditioner in summer of design temperature and winter heating, its design temperature is in≤35 ℃～〉=25 ℃ scopes, to guarantee the big and power saving of original coefficient of refrigerating performance of air-conditioner and heating efficiency, utilize again simultaneously cold-producing medium in water cooled condenser institute's liberated heat all to the heat storage water tank preheating, to improve its water inlet initial temperature, treat air-conditioner refrigeration or heat when up to standard or household's working when not needing air-conditioning, then compound unit is used as Teat pump boiler, its design temperature is transferred to 〉=45 ℃～≤ 60 ℃ scopes in, spring and autumn is then round-the-clock as Teat pump boiler, its design temperature 〉=45 ℃～≤ 60 ℃.

Description of drawings: the present invention is further described below in conjunction with accompanying drawing.Figure (1)～(32) are same sequence number and alphabetical same parts and the different installation positions represented thereof wherein, and figure (1)～(32) are sequence number and letter representative identical electrical equipment and different installation positions wherein.

Figure (1) is refrigerator or refrigerator-freezer or ice making case and the compound unit structural representation of Teat pump boiler.

Figure (2) is its control system circuit diagram of compound unit of corresponding diagram (1).

Figure (3) is that freezer is excellent with refrigerator and the compound unit structural representation of Teat pump boiler with refrigerator or ice making.

Figure (4) is its control system circuit diagram of compound unit of corresponding diagram (3).

Figure (5) is the compound unit structural representation of central air-conditioning and air source hot pump water heater.

Figure (6) is its control system circuit diagram of compound unit of corresponding diagram (5).

Figure (7) is that heat pump type air conditioner and water resource heat pump hot water play compound unit structural representation.

Figure (8) is its control system circuit diagram of compound unit of corresponding diagram (7).

Figure (9) is the compound unit structural representation of heat pump type air conditioner and air source hot pump water heater.

Figure (10) is its control system circuit diagram of compound unit of corresponding diagram (9).

Figure (11) is air-conditioner and refrigerator-freezer and the compound unit structural representation of Teat pump boiler.

Figure (12) is its control system circuit diagram of compound unit of corresponding diagram (11).

Figure (13) air-conditioner and the compound unit structural representation of earth source heat pump water heater.

Figure (14) is its control system circuit diagram of compound unit of corresponding diagram (13).

Figure (15) is heat pump type air conditioner and the compound unit structural representation of air source hot pump water heater that replaces four-way electromagnetic reversing valve with magnetic valve.

Figure (15A) is its control system circuit diagram of compound unit of figure (15), and reference diagram (14) is analogized and design, Therefore, omited.

Figure (16) is to be the central air-conditioning and the compound unit structural representation of air source hot pump water heater of heat transferring medium with water.

Figure (17) is its control system circuit diagram of compound unit of corresponding diagram (16).

Figure (18) is refrigerator-freezer and air-conditioner and the compound unit structural representation of air source hot pump water heater.

Figure (19) is its control system circuit diagram of compound unit of corresponding diagram (18).

Figure (20) is the compound unit structural representation of heat pump type air conditioner and air source hot pump water heater.

Figure (21) is its control system circuit diagram of compound unit of corresponding diagram (20).

Figure (22) is the compound unit structural representation of air-conditioner and Teat pump boiler.

Figure (22A) is its control system circuit diagram of compound unit of figure (22), and reference diagram (21) is analogized and design, Therefore, omited.

Figure (23) is two stages of compression, one-level throttling, the middle not exclusively refrigeration plant and the Teat pump boiler structural representation of cool cycles.

Figure (23A) is its control system circuit diagram of compound unit of figure (23), and reference diagram (4) is analogized and design, Therefore, omited.

Figure (24) covers folded its refrigeration plant of formula kind of refrigeration cycle and Teat pump boiler structural representation.

Figure (24A) is its control system circuit diagram of compound unit of figure (24), and reference diagram (4) is analogized and design, Therefore, omited.

Figure (25) is family's central air-conditioning and bedroom, separate room air-conditioner and the compound unit structural representation of Teat pump boiler in parallel.

Figure (25A) is its control system circuit diagram of compound unit of figure (25), and analogize and design, Therefore, omited reference diagram (6) and (21).

Figure (26) is central air-conditioning and night shift room air-conditioner and the compound unit structural representation of Teat pump boiler in parallel.

Figure (26A) is its control system circuit diagram of compound unit of figure (26), and analogize and design, Therefore, omited reference diagram (6) and (21).

Figure (27) is air-conditioner and refrigerator and the compound unit structural representation of Teat pump boiler in parallel.

Figure (28) is its control system circuit diagram of compound unit of corresponding diagram (27).

Figure (29) is heat pump type air conditioner and air source and the compound unit structural representation of water source double heat source heat pump water heater.

Figure (30) is its control system circuit diagram of compound unit of corresponding diagram (29).

Figure (31) is heat pump type air conditioner and air source and the compound unit structural representation of ground source double heat source heat pump water heater.

Figure (31A) is its control system circuit diagram of compound unit of figure (31), and reference diagram (8) is analogized and design, Therefore, omited.

Figure (32) is air-conditioner and water source and the compound unit structural representation of ground source double heat source heat pump water heater.

Figure (32A) is its control system circuit diagram of compound unit of figure (32), and reference diagram (8) is analogized and design, Therefore, omited.

All same sequence number and additional letter or identical electrical equipment of symbology and different parts or dissimilar among figure (1)～figure (32).

6-temperature nixie display.

But the temperature controller of 7-design temperature, 7A-temperature-sensing element, 32-compressor electric motor temperature controller, 32 ₁-two grades of temperature controllers

The 9X-compressor electric motor, 9X ₁The compressor electric motor of-band built-in type protective relay.

Its capacitor of 9Y-compressor electric motor, 9Y ₁-compressor electric motor starter relay.

Its protective relay of 9Z-compressor electric motor, 9Z-are crossed and are heated up and over-current protection relay.

13J ₁, 13J ₂, 13J ₃-be respectively air conditioner room unit group fan electromotor.

13J ₁Y, 13J ₂Y-is respectively its capacitor of air conditioner room unit group fan electromotor.

13J, 13JY, 13JZ-air-conditioner outdoor unit group fan electromotor and capacitor and protective relay.

13A ₀-water-cooled air conditioner indoor units.

23X, 23Y, 23Z-are respectively circulation-water pump electric machine and capacitor and protective relay.

24X, 24Y, 24Z-are respectively recycle liquid pump motor and capacitor and protective relay.

25X, 25Y, 25Z-are respectively circulating hot water pump motor and capacitor and protective relay.

14A ₁、14A ₂、14A ₃、14B ₁、14B ₂、14B ₃、14C ₁、14C ₂、14C ₃、14D ₁、14D ₂、14D ₃、

14E ₁, 14E ₂, 14E ₃, 14X, 14Y, 14Q, 14K ₁, 14K ₂, 14K ₃, 14K ₄-be installed in the magnetic valve of different parts.

Its coil of 19A-four-way electromagnetic reversing valve, 31-selector switch, 33-attaching plug.

The superthermal protection fuse of 45-, 47-defrost temperature controller, 48-frost removal timer, M _T-frost removal timer motor.

49-draining heater, 50-defrosting heater, 52,52 ₁, 52 ₁₁-refrigerating-chamber door switch.

53-refrigerating chamber door switch, 54X-refrigerator internal fan motor, 55-illuminating lamp, the 56-temperature controller that defrosts.

57A, 57B, 57C-press button.

I is cold-the relevant electrical equipment electric connection point of temperature controller design temperature air conditioner room unit group refrigeration air-conditioner in 〉=45 ℃～≤ 35 ℃ scopes.

I cold-temperature controller design temperature is the relevant electrical equipment electric connection point of air conditioner room unit group refrigeration in 〉=25 ℃～≤ 35 ℃ scopes.

I heat-temperature controller design temperature air conditioner room unit group in 〉=45 ℃～≤ 60 ℃ scopes heats the relevant electrical equipment electric connection point of heating air-conditioner.

I is warm-and temperature controller design temperature air conditioner room unit group in 〉=25 ℃～≤ 35 ℃ scopes heats warm its relevant electrical equipment electric connection point.

II hot water-temperature controller design temperature is refrigeration air-conditioner in summer relevant electrical equipment electric connection point during hot-water supply simultaneously in 〉=45 ℃～≤ 35 ℃ scopes.

II ' hot water-temperature controller design temperature wouldn't heat winter in 〉=45 ℃～≤ 35 ℃ scopes, relevant electrical equipment electric connection point during by the Teat pump boiler hot-water supply.

" hot water-temperature controller design temperature wouldn't heat winter in 〉=45 ℃～≤ 60 ℃ scopes II, relevant electrical equipment electric connection point during by earth source heat pump water heater hot-water supply.

The freezing I refrigeration-temperature controller of I design temperature in 〉=25 ℃～≤ 60 ℃ scopes freezing with refrigeration relevant electrical equipment electric connection point.

The freezing I refrigeration-temperature controller of I design temperature in 〉=45 ℃～≤ 60 ℃ scopes freezing with refrigeration relevant electrical equipment electric connection point.

All electrical equipment disconnect during pass-shutdown.

Relevant electrical equipment electric connection point during wind-ventilation.

Invention embodiment: the present invention is that existing any compression-type refrigeration heating equipment (comprises air-conditioner both at home and abroad, central air-conditioning, refrigerator-freezer, refrigerator, following schemes such as refrigerator or freezer freezing equipment are identical,) and the compound unit of Teat pump boiler, it is characterized in that it is by compression-type refrigeration heating (A), the washing of having a bath and live is used or industrial or agricultural is formed with hot-water supply system (B) and control system (C), and compression-type refrigeration heating (A) is by compressor (9), (comprise fully closed compressor (9A), non-enclosed compressor (9B) or rotor compressor (9C), below each scheme identical,) do not adorn or be equipped with four-way electromagnetic reversing valve (19), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), choke valve (15), (comprise heating power expansion valve (15A), capillary (15B), or electric expansion valve (15C), below each scheme identical,) evaporimeter (11), (comprising with the air is the evaporimeter (11A) of heat transferring medium, or be the evaporimeter (11B) of heat transferring medium with water or liquid, below each scheme identical,) gas-liquid separator parts such as (10) are equipped with or do not adorn, be tightly connected into the circulatory system successively with pipeline, in its system, charge an amount of cold-producing medium, fluorine Lyons R22 for example, R134a, R12, ammonia R717 etc., its filling weight is determined with reference to conventional refrigeration plant test.And hot-water supply system (B) is made up of the condenser (8A) and the heat storage water tank (5) that with water are heat transferring medium, and condenser (8A) is by inner bag (8Q), heat-insulation layer (8M) and shell (8N) are formed, and be equipped with away cold-producing medium metallic coil (8H) but and temperature controller of design temperature (7) and temperature temperature-sensing element (7A) thereof, for example household electrical appliances are with mechanical electric contact formula temperature controller, electric contact thermometer, or bimetal strip thermostat, its titting water outlet of condenser (8A) (8E) is tightly connected with connecting pipe by magnetic valve (14X) with its end admitting pipe joint (5F) of heat storage water tank (5), its admitting pipe joint of condenser (8A) (8F) passes through magnetic valve (14Y) or circulating hot-water pump (25) with its end titting water outlet (5E) of heat storage water tank (5), be tightly connected with connecting pipe, heat storage water tank (5) its underpart admitting pipe joint (5G) is sealedly connected with water source (1A) from the beginning by gate valve (2A) and threeway (18X) with connecting pipe, the upper end of heat storage water tank (5) its underpart titting water outlet (5H) is sealedly connected with one section water pipe (5D), the lower end of its titting water outlet (5H) is tightly connected in the hole on it with connecting pipe and threeway (18Y) by gate valve (2B), its right hole of threeway (18X) is by gate valve (2C), threeway (18Y) and (18Z) be connected with tap (3) with seal for pipe joints, threeway (18Z) shower that the hole is sealedly connected with belt switch (4A) with connecting pipe on it is with shower nozzle (4), heat storage water tank (5) is by inner bag (5C), heat-insulation layer (5B) and shell (5A) are formed, and at heat storage water tank (5) water temperature nixie display (6) are housed.Shown in figure (1), when compression-type refrigeration heating (A) during as refrigeration, freezing or ice making equipment, the evaporimeter (11A) that then with the air is heat transferring medium is combined into one with refrigerator (13B), or be combined into one with refrigerator-freezer (13C), or be combined into one with ice making case (13D), its evaporimeter (11A) is made up of inner bag (11Q), heat-insulation layer (11M) and shell (11N), in inner bag (11Q) lining metal hose (11H is housed ₀).Shown in figure (16), in compression-type refrigeration heating (A) is used as its inner bag of evaporimeter (11B) (11Q) that water-cooled air conditioner then is heat transferring medium with water, metallic coil (11H) is housed, between inner bag (11Q) and metallic coil (11H) outer wall water or antifreezing liquid are housed, for example salt solution or motor vehicle antifreeze fluid, its liquid outlet joint of evaporimeter (11B) (11E) by magnetic valve (14Q) with pipeline and water-cooled air conditioner indoor units (13A ₀) its liquid outlet joint (13F) is tightly connected, its feed tube joint (11F) of evaporimeter (11B) by recycle liquid pump (24) with pipeline and water-cooled air conditioner indoor units (13A ₀) its liquid outlet joint (13E) is tightly connected water-cooled air conditioner indoor units (13A ₀) in the metal coil pipe (13I) of antifreezing liquid is housed away, at metal coil pipe (13I) fan (13H) and fan electromotor (13J) thereof, water-cooled air conditioner indoor units (13A are housed behind ₀) its shell (13L) front has shutter.Shown in figure (3), when compression-type refrigeration heating (A) then is the evaporimeter (11B) and freezer freezing equipment or its ice making case (13G) binding of refrigerator of heat transferring medium with the antifreezing liquid as large cold storage freezing equipment or middle-size and small-size ice machine, its feed tube joint (13F) of its liquid outlet joint of evaporimeter (11B) (11E) and ice making case (13G) is connected with seal for pipe joints by magnetic valve (14Q), and its feed tube joint (13F) of evaporimeter (11B) is tightly connected by recycle liquid pump (24) with its liquid outlet joint of ice making case (13G) (13E).And its control system of the compound unit of compression-type refrigeration heating equipment and heat pump is usually by compressor electric motor, fan electromotor, the recycle liquid pump motor, circulation-water pump electric machine, starting relay, capacitor, temperature controller, but the temperature controller of design temperature, the defrosting warmer, its coil of four-way electromagnetic reversing valve, magnetic valve, the water temperature nixie display, selector switch, devices such as attaching plug are electrically connected to be formed, different purposes at the compression-type refrigeration heating equipment, dissimilar, different structure, with reference to refrigerator, refrigerator-freezer, refrigeration case, the routine techniques of household electrical appliance such as air-conditioner or freezer equipment and its control system of refrigerator, be designed to several series circuits respectively, the head end of its series circuit is electrically connected respectively with several groups of tie points of selector switch, the end of its series circuit all is electrically connected with the terminal lead of attaching plug, and the head end lead of attaching plug is electrically connected with first group of tie point of selector switch.Figure (2) is refrigerator (13B) shown in the figure (1) and its control system circuit diagram of the compound unit of Teat pump boiler, freezer freezing equipment or refrigerator and its control system circuit diagram of the compound unit of Teat pump boiler shown in the figure (4).

This compound unit, it is characterized in that in compression-type refrigeration heating (A), between being that condenser (8A) and the evaporimeter (11) of heat transferring medium is between the two by a plurality of threeways (18) with water, be parallel with many heat exchangers (20) more than or with the connecting pipe sealing, (comprising with the air is the heat exchanger (20A) of heat transferring medium, or be the heat exchanger (20B) of heat transferring medium with liquid, below each scheme identical,) shown in figure (5) and figure (9), its compression-type refrigeration heating (A) is by compressor (9), four-way electromagnetic reversing valve (19), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), choke valve (15), evaporimeter parts such as (11) are tightly connected into closed system successively with pipeline, and seal by a plurality of threeways (18) and connecting pipe between the two at condenser (8A) and evaporimeter (11) and to be parallel with many heat exchangers (20) more than or, as figure (5), and its left hole of four-way electromagnetic reversing valve (19) connecting pipe and threeway (18A ₁) hole is tightly connected on it, the input pipe interface of its cold-producing medium of condenser (8A) is through magnetic valve (14A ₁), with connecting pipe and threeway (18A ₁) its left hole is tightly connected heat exchanger (20 ₁) the top carrier pipe interface of its cold-producing medium is through threeway (18B ₁) and magnetic valve (14B ₁) usefulness connecting pipe and threeway (18A ₁) its right hole is tightly connected the left part carrier pipe interface and the threeway (18A of its cold-producing medium of device for drying and filtering (16) ₂) it connects in the hole efferent duct interface process magnetic valve (14A of its cold-producing medium of condenser (8A) down with seal for pipe joints ₂) usefulness connecting pipe and threeway (18A ₂) its left hole is tightly connected heat exchanger (20 ₁) the bottom carrier pipe interface of its cold-producing medium is through choke valve (15), threeway (18B ₂) and magnetic valve (14B ₂) usefulness connecting pipe and threeway (18A ₂) its right hole is tightly connected, its right hole of four-way electromagnetic reversing valve (19) is with connecting pipe and threeway (18D ₁) hole is tightly connected on it, the top carrier pipe interface of its cold-producing medium of evaporimeter (11) is through magnetic valve (14E ₁) usefulness connecting pipe and threeway (18D ₁) its right hole is tightly connected heat exchanger (20 ₂) the top carrier pipe interface of its cold-producing medium is through threeway (18C ₁) and magnetic valve (14D ₁) usefulness connecting pipe and threeway (18D ₁) its left hole is tightly connected, the right part carrier pipe interface of its cold-producing medium of device for drying and filtering (16) is with connecting pipe and threeway (18D ₂) it is tightly connected in the hole input pipe interface process choke valve (15) and the magnetic valve (14E of its cold-producing medium of evaporimeter (11) down ₂) usefulness connecting pipe and threeway (18D ₂) its right hole is tightly connected heat exchanger (20 ₂) the bottom carrier pipe interface of its cold-producing medium is through choke valve (15), threeway (18C ₂) and magnetic valve (14D ₂) usefulness connecting pipe and threeway (18D ₂) its left hole is tightly connected threeway (18B ₁) and (18C ₁) through magnetic valve (14C ₁) be tightly connected threeway (18B with connecting pipe ₂) and (18C ₂) through magnetic valve (14C ₂) be tightly connected with connecting pipe.Figure (6) is central air-conditioning shown in the figure (5) and its control system circuit diagram of the compound unit of air source hot pump water heater, figure (10) is air-conditioner and its control system circuit diagram of the compound unit of air source hot pump water heater of new design or repacking, figure (5) heat exchanger (20) wherein and air conditioner room unit group (13A _n) be combined into one, the metal coil pipe (13H) and the fan electromotor (13J) thereof of cold-producing medium are housed away in the unit, evaporimeter (11A) is combined into one with air-conditioner outdoor unit group (13A), the metal coil pipe (13I) of cold-producing medium is housed away, fan (13H) and fan electromotor (13J) thereof in the unit.

This compound unit, it is characterized in that in the compression-type refrigeration heating (A), be equipped with and replace many magnetic valves (14) and the control system (C) thereof that four-way electromagnetic reversing valve (19) can make compound unit refrigeration in summer and winter heating's switching usefulness, shown in figure (7) and figure (11), the compression-type refrigeration heating (A) of its compound unit is by compressor (9), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), choke valve (15), evaporimeter (11), have or do not adorn gas-liquid separator (10), connect into closed system with seal for pipe joints, and be parallel with many heat exchangers (20) more than or with seal for pipe joints by a plurality of threeways (18) between the two at condenser (8A) and evaporimeter (11), and the escape pipe interface of compressor (9) and threeway (18A ₁) last hole connect with seal for pipe joints, the input pipe interface of its cold-producing medium of condenser (8A) is by magnetic valve (14A ₁) and threeway (18A ₁) its right hole is tightly connected heat exchanger (20 ₁) the carrier pipe interface of its top cold-producing medium is by threeway (18B ₁) and magnetic valve (14B ₁) and threeway (18A ₁) its left hole connects with seal for pipe joints, the right-hand member carrier pipe interface of its cold-producing medium of device for drying and filtering (16) is with pipeline and threeway (18A ₂) following hole be tightly connected, the efferent duct interface of its cold-producing medium of condenser (8A) is by magnetic valve (14A ₂) and threeway (18A ₂) its right hole connects heat exchanger (20 with seal for pipe joints ₁) the carrier pipe interface of its underpart cold-producing medium is by choke valve (15), threeway (18B ₂) and magnetic valve (14B ₂) usefulness pipeline and threeway (18A ₂) its left hole is tightly connected its air inlet pipe interface of gas-liquid separator (10) and threeway (18D ₁) last hole connect with seal for pipe joints, the efferent duct interface of its cold-producing medium of evaporimeter (11) is by magnetic valve (14E ₁) usefulness pipeline and threeway (18D ₁) its left hole is tightly connected heat exchanger (20 ₂) its cold-producing medium top carrier pipe interface is by threeway (18C ₁) and magnetic valve (14D ₁) usefulness pipeline and threeway (18D ₁) its right hole is tightly connected, the carrier pipe interface of its left end cold-producing medium of device for drying and filtering (16) is with pipeline and threeway (18D ₂) it is tightly connected in hole down, the input pipe interface of its cold-producing medium of evaporimeter (11) is by choke valve (15) and magnetic valve (14E ₂) usefulness pipeline and threeway (18D ₂) its left hole is tightly connected heat exchanger (20 ₂) the carrier pipe interface of its underpart cold-producing medium is by choke valve (15), threeway (18C ₂) and magnetic valve (14D ₂) usefulness pipeline and threeway (18D ₂) its right hole is tightly connected threeway (18B ₁) by magnetic valve (14C ₁) usefulness pipeline and threeway (18C ₁) be tightly connected threeway (18B ₂) by magnetic valve (14C ₂) usefulness pipeline and threeway (18C ₂) be tightly connected, figure (8) is air-conditioner shown in the figure (7) and its control system circuit diagram of the compound unit of water source heat pump water heater, figure (12) is central air-conditioning shown in the figure (11) and refrigerator-freezer and its control system circuit diagram of the compound unit of Teat pump boiler.

This compound unit, it is characterized in that in compression-type refrigeration heating (A), between being to be parallel with a heat exchanger (20) by many threeways (18) and connecting pipe sealing between the condenser (8A) of heat transferring medium and the evaporimeter (11) with water, be parallel with the heat exchanger (20 of one group of parallel connection as figure (15) or sealing _n), shown in figure (13), in the trunk line top three of its refrigerant conveying, whenever be sealedly connected with unicom pipeline (27A), (27B) and (27C) respectively by threeway (18) between the two, and magnetic valve (14A is housed respectively on unicom pipeline ₃), (14B ₃) and (14C ₃), make UNICOM or disconnection between the two whenever among the trunk line three, as scheming its escape pipe interface of (13) compressor (9) by threeway (18A ₁) usefulness connecting pipe and threeway (18A ₂) hole is tightly connected on it, its air inlet of compressor (9) is by threeway (18B ₁) and magnetic valve (14E ₃) usefulness connecting pipe and threeway (18B ₂) hole is tightly connected on it, the input pipe interface of its cold-producing medium of condenser (8A) that with water is heat transferring medium is by magnetic valve (14A ₁) usefulness pipeline and threeway (18A ₂) it is tightly connected in hole down, the efferent duct interface of its cold-producing medium of condenser (8A) is by magnetic valve (14A ₂) and threeway (18A ₃) its left hole is tightly connected, its left part interface tube of device for drying and filtering (16) is with pipeline and threeway (18A ₃) it is tightly connected in hole down, the efferent duct interface of its cold-producing medium of evaporimeter (11) is by magnetic valve (14B ₁) usefulness pipeline and threeway (18B ₂) it is tightly connected in hole down, the input pipe interface of its cold-producing medium of evaporimeter (11) is by choke valve (15), magnetic valve (14B ₂) usefulness pipeline and threeway (18B ₃) its right hole is tightly connected, its right part interface tube of device for drying and filtering (16) is with pipeline and threeway (18B ₃) it is tightly connected the heat exchanger (20 of one group of parallel connection in the hole down _n) top of its cold-producing medium carries the conveying trunk line (27D) and threeway (18C after the lateral parallel connection ₁) it is tightly connected in hole down, as the top carrier pipe interface of figure (8A) or its cold-producing medium of single heat exchanger (20) with connecting pipe and threeway (18C ₁) it is tightly connected the heat exchanger (20 of one group of parallel connection in the hole down _n) bottom of its cold-producing medium carries the conveying trunk line (27E) and threeway (18C after the lateral parallel connection ₂) hole is tightly connected on it; Or the bottom carrier pipe interface of its cold-producing medium of single heat exchanger (20) is by choke valve (15) magnetic valve (14C ₂) usefulness pipeline and threeway (18C ₂) hole is tightly connected threeway (18A on it ₃) its right hole and threeway (18C ₂) its left hole is by magnetic valve (14E ₁) connect threeway (18B with seal for pipe joints ₃) its left hole and threeway (18C ₂) its right hole is by magnetic valve (14E ₂) connect with seal for pipe joints, figure (14) is central air-conditioning shown in the figure (13) and its control system circuit diagram of the compound unit of ground source heat hydrophone, air-conditioner and its control system circuit diagram of the compound unit of air source hot pump water heater shown in the figure (15A), reference diagram (14) is analogized, design and fabrication, the Therefore, omited.

This compound unit, it is characterized in that in the compression-type refrigeration heating (A), with water the condenser (8A) of heat transferring medium and be the evaporimeter (11B) of heat transferring medium with water or anti-icing fluid, be parallel with a heat exchanger (20) between the two, comprise with the air and be the heat exchanger (20A) of heat transferring medium or be the heat exchanger (20B) of heat transferring medium with water, as figure (16), its liquid outlet joint of evaporimeter (11B) (11E) that with water or anti-icing fluid is heat transferring medium is tightly connected with pipeline and threeway (18F) and feed liquor trunk line (21C) through magnetic valve (14Q), its feed tube joint (11F) of evaporimeter (11B) is tightly connected with fluid trunk line (22C) with pipeline and threeway (18E) through recycle liquid pump (24), sealing plug screw (30) all is equipped with at feed liquor trunk line (21C) and its two ends of fluid trunk line (22C), and central air-conditioning indoor units (13A ₀) it is leaked water or its feed tube interface (13F) of metal coil pipe (13I) of anti-icing fluid is tightly connected with pipeline and feed liquor trunk line (21C) through threeway (18H), its drain pipe interface (13E) is tightly connected with pipeline and fluid trunk line (22C) through threeway (18I), composition is the central air-conditioning and the compound unit of Teat pump boiler of heat transferring medium with water or antifreezing liquid, or its liquid outlet joint of evaporimeter (11B) (11E) through magnetic valve (14Q) with pipeline directly with leak water or the air conditioner room unit group (13A of anti-icing fluid ₀) it is leaked water or the feed tube interface (13F) of the metal coil pipe (13I) of anti-icing fluid is tightly connected, its feed tube joint (11F) of evaporimeter (11B) through recycle liquid pump (24) with pipeline directly and its liquid outlet joint of metal coil pipe (13I) (11E) be tightly connected, the metallic coil (11H) of cold-producing medium is housed away in its inner bag of evaporimeter (11B) (11Q), inner bag (11Q) outer wall is equipped with heat-insulation layer (11M) and shell (11N), at water-cooled central air-conditioning or its indoor units of water-cooled air conditioner (13A ₀) be equipped with and leak water or the metal coil pipe (13I) of antifreezing liquid, at its back side of metal coil pipe (13I) fan (13H) and fan electromotor (13J) thereof are housed, and on shell, having the shutter of band blinds, figure (17) is to be central air-conditioning and its control system circuit diagram of the compound unit of air source water heater of heat transferring medium with water shown in the figure (16).

This compound unit is characterized in that in the compression-type refrigeration heating (A), is that the condenser (8A) and the evaporimeter (11) of heat transferring medium respectively is parallel with many heat exchangers (20) more than or with water, as figure (18); Or only there is condenser (8A) to be parallel with many heat exchangers (20) more than or, as figure (20), or have only evaporimeter (11) to be parallel with many heat exchangers (20) more than or, as figure (22), its compression-type refrigeration heating (A) is by compressor (9), four-way electromagnetic reversing valve (19), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), choke valve (15), choke valve (15), evaporimeter (11) connects into closed system with seal for pipe joints, and condenser (8A) and evaporimeter (11) respectively are parallel with many heat exchangers (20 more than or _n), and its right hole of four-way electromagnetic reversing valve (19) is by connecting pipe and threeway (18A ₁) last hole be tightly connected, the input pipe interface of its cold-producing medium of condenser (8A) that with water is heat transferring medium is by magnetic valve (14A ₁) usefulness pipeline and threeway (18A ₁) its right hole is tightly connected heat exchanger (20 ₁) the upper tube interface of its cold-producing medium is by magnetic valve (14B ₁) usefulness pipeline and threeway (18A ₁) its left hole is tightly connected, its cold-producing medium efferent duct interface of condenser (8A) is by magnetic valve (14A ₂) usefulness pipeline and threeway (18A ₂) its right hole is tightly connected heat exchanger (20 ₁) the bottom carrier pipe interface of its cold-producing medium is by choke valve (15) and magnetic valve (14B ₂) usefulness pipeline and threeway (18A ₂) its left hole is tightly connected, the right-hand member carrier pipe joint of its cold-producing medium of device for drying and filtering (16) is by pipeline and threeway (18A ₂) it is tightly connected in hole down, its left hole of four-way electromagnetic reversing valve (19) is by pipeline and threeway (18B ₁) hole is tightly connected on it, the top carrier pipe interface of its cold-producing medium of evaporimeter (11) is by magnetic valve (14D ₁) usefulness pipeline and threeway (18B ₁) its left hole is tightly connected heat exchanger (20 ₂) the top carrier pipe interface of its cold-producing medium is by magnetic valve (14C ₁) usefulness pipeline and threeway (18B ₁) right hole be tightly connected, the bottom carrier pipe interface of its cold-producing medium of evaporimeter (11) is by choke valve (15) and magnetic valve (14D ₂) usefulness pipeline and threeway (18B ₂) its left hole is tightly connected heat exchanger (20 ₂) the bottom carrier pipe interface of its cold-producing medium is by choke valve (15) and magnetic valve (14C ₂) usefulness pipeline and threeway (18B ₂) its right hole is tightly connected, the left end carrier pipe joint of its cold-producing medium of device for drying and filtering (16) is by pipeline and threeway (18B ₂) it is tightly connected in the hole heat exchanger (20 among the figure (18) down ₁) with (20 ₂) its into and out of pipe joint with upper and lower two pipeline UNICOMs, figure (19) is air-conditioner shown in the figure (18) and refrigerator-freezer and its control system circuit diagram of the compound unit of Teat pump boiler, figure (21) is air-conditioner shown in the figure (20) and its control system circuit diagram of the compound unit of Teat pump boiler, air-conditioner and its control system circuit diagram of the compound unit of Teat pump boiler shown in the figure (22), reference diagram (14) is analogized, design and fabrication, the Therefore, omited.

This compound unit, it is characterized in that compression-type refrigeration heating (A) is a two stages of compression formula refrigerating and heating systems, and be that two-stage is steam compressed, the one-level throttling, the middle not exclusively circulatory system of cooling, as figure (23), its steam compression type refrigerating heating (A) is by stage compressor (9N), hiigh pressure stage compressor (9M), with water is the condenser (8A) of heat transferring medium, intercooler (8X) and choke valve (15X) thereof, choke valve (15), evaporimeter parts such as (11) connect into the circulatory system with seal for pipe joints, charge an amount of cold-producing medium in its system, it with the cooling fluid metallic coil (11H) that its inner bag of evaporimeter (11B) (11Q) of heat transferring medium is equipped with away cold-producing medium, between inner bag (11Q) and metallic coil (11H) outer wall saline solution is housed, its feed tube joint (11F) is connected with seal for pipe joints with freezer ice making case (13G) feed tube joint (13E), recycle liquid pump (24) is housed on its pipeline, its feed tube joint (13F) of its liquid outlet joint of evaporimeter (11B) (11E) and ice making case (13G) is connected with seal for pipe joints, two stages of compression formula freezer freezing equipment and its control system circuit diagram of the compound unit of Teat pump boiler shown in the figure (23), reference diagram (4) is analogized, design and making, the Therefore, omited.

This compound unit is characterized in that compression-type refrigeration heating (A) is to cover folded formula two-stage or steam compression type refrigerating heating recycle system independently more than the two-stage, is the low temperature circulatory system (A as figure (24) its one-level ₁), another level is the (A of high temperature circulation system ₂), its low temperature circulatory system (A ₁) be to be tightly connected into the low temperature circulatory system (A successively with pipeline by cryogenic compressor (9N), shared evaporator-condenser (8A-11B), device for drying and filtering (16A), choke valve (15), evaporimeter (11), gas-liquid separator parts such as (10) ₁), at the low temperature circulatory system (A ₁) in charge an amount of low-temperature refrigerant, R13 for example, the and (A of high temperature circulation system ₁) be to be that condenser (8A), device for drying and filtering (16B), choke valve (15), shared evaporator-condenser (8A-11B), the gas-liquid separator parts such as (10) of heat transferring medium are tightly connected into (the A of high temperature circulation system successively with pipeline by high temperature compressed machine (9M), with water ₂), at (the A of high temperature circulation system ₂) in charge an amount of middle temperature cold-producing medium, R12 for example, it with the cooling liquid metallic coil (11H) that its inner bag of evaporimeter (11B) (11Q) of heat transferring medium is equipped with away cold-producing medium, between inner bag (11Q) and metallic coil (11H) outer wall saline solution is housed, inner bag (11Q) outer wall has heat-insulation layer (11M) and shell (11N), its feed tube joint (11F) is connected with seal for pipe joints with its feed tube joint (13E) of ice making case (13G) with freezer, recycle liquid pump (24) is housed on its pipeline, its liquid outlet joint of evaporimeter (11B) (13E) is tightly connected with its feed tube joint (13F) of ice making case (13G), cover folded formula two-stage steam compression type freezer freezing equipment and its control system circuit diagram of the compound unit of Teat pump boiler shown in the figure (24), reference diagram (4) is analogized, design and making, the Therefore, omited.

This compound unit is characterized in that two independently steam compression type refrigerating heating (A ₁) and (A ₂) its water cooled condenser (8A ₁) and (8A ₂) parallel connection, as figure (25), its titting water outlet (8E ₁) and (8E ₂) through magnetic valve (14X ₁) and (14X ₂) be tightly connected with pipeline and threeway (18V), and the last hole of threeway (18V) is tightly connected with connecting pipe and its admitting pipe joint of heat storage water tank (5) (5F), two water cooled condenser (8A ₁) and (8A ₂) its admitting pipe joint (8F ₁) and (8F ₂) be tightly connected with connecting pipe and threeway (18W), and the last hole of threeway (18W) is tightly connected with connecting pipe and its titting water outlet of heat storage water tank (5) (5E), two water cooled condenser (8A ₁) and (8A ₂) but the temperature controller (7 of design temperature is housed respectively ₁) with (7 ₂), or two steam compression type refrigerating heating (A independently ₁) and (A ₂) its water cooled condenser (8A ₁) and (8A ₂) in parallel with heat storage water tank (5) three, as figure (26), its titting water outlet (8E ₁) and (8E ₂) respectively by magnetic valve (14X ₁) and (14X ₂) and its admitting pipe joint of heat storage water tank (5) (5F ₁) and (5F ₂) be tightly connected respectively, and condenser (8A ₁) and (8A ₂) its admitting pipe joint (8F ₁) and (8F ₂) respectively by magnetic valve (14Y ₁) and (14Y ₂) heat storage water tank and (5) its titting water outlet (5E ₁) and (5E ₂) be tightly connected two water cooled condenser (8A respectively ₁) and (8A ₂) but the temperature controller (7 of design temperature is housed respectively ₁) with (7 ₂), or two steam compression type refrigerating heating (A independently ₁) and (A ₂) its water cooled condenser (8A) is combined into one, both walk the metallic coil (8H of cold-producing medium ₁) and (8H ₂) be installed in its inner bag of same condenser (8A), as figure (27), its titting water outlet of condenser (8A) (8E) is tightly connected with pipeline and its admitting pipe joint of heat storage water tank (5) (5F) through magnetic valve (14X), its water inlet pipe interface (8F) of condenser (8A) is tightly connected with pipeline and its titting water outlet of heat storage water tank (5) (5E) through magnetic valve (14Y), figure (25) and figure (26) are that unit uses or home-use central air-conditioning and night shift room or bedroom, separate room wall hanging or air-conditioner and the compound unit structural representation of Teat pump boiler, both are identical for its control system circuit diagram, all design and produce into two autonomous control systems, its refrigerating and heating systems of central air-conditioning (A ₁) design, make its control system of wall-hanging air conditioner (A with its control system reference diagram (6) of the compound unit of Teat pump boiler ₂) design, make the Therefore, omited by figure (21) with its control system circuit diagram of the compound unit of Teat pump boiler.Figure (28) is air-conditioner shown in the figure (27) and the compound unit of Teat pump boiler and refrigerator its control system circuit diagram in parallel with the compound unit of Teat pump boiler.

This compound unit, it is characterized in that it is domestic and international existing compression-type refrigeration heating equipment and the compound unit of air source hot pump water heater (26A), or it is domestic and international existing compression-type refrigeration heating equipment and the compound unit of water source heat pump water heater (26B), or it is domestic and international existing compression-type refrigeration heating equipment and ground seedbed pump water heater compounding machine (26C), or it is domestic and international existing compression-type refrigeration heating equipment and the compound unit of being made up of air source and water source of double heat source heat pump water heater (26AB), or it is domestic and international existing compression-type refrigeration heating equipment and the compound unit of being made up of air source and source, ground of double heat source heat pump water heater (26AC), or it is domestic and international existing compression-type refrigeration heating equipment and the compound unit of being made up of water source and source, ground of double heat source heat pump water heater (26BC), and the compound unit of compression-type refrigeration heating equipment and air source hot pump water heater (26A) is as figure (5), be characterized in that with the heat energy of containing in the air be thermal source, by in the compression-type refrigeration heating (A) being that to absorb the heat energy of containing in the air source (28A) be thermal source for cold-producing medium evaporation in its metal coil pipe (11I) of evaporimeter (11A) of heat transferring medium with the air, fan (13H) and fan electromotor (13J) thereof have the band grid on evaporator shell (13L) ventilation window is housed at the back side of its metal coil pipe (13I) of evaporimeter (11A), and the compound unit of compression-type refrigeration heating equipment and water source heat pump water heater (26B) is as figure (7), be characterized in that with the heat energy of containing in the water source be thermal source, by in the compression-type refrigeration heating (A) being that to absorb the heat energy of containing in the water source (28B) be thermal source for cold-producing medium evaporation in its metallic coil of evaporimeter (11B) (11H) of heat transferring medium with water, the metallic coil (11H) of cold-producing medium is housed away in evaporimeter (11B), and the water as heat transferring medium is housed in the evaporimeter (11B), its titting water outlet of evaporimeter (11B) (11E) is tightly connected through the inlet channel (21) of magnetic valve (14K) with water source (28B), its admitting pipe joint of evaporimeter (11B) (11F) is tightly connected through the water circulating pump (23) and the outlet conduit (22) at water source (28B), or as the titting water outlet (8E) of figure (22) its condenser (8A) by threeway (18K ₂) and water circulating pump (23) and its outlet conduit of water source (28B) be tightly connected, its admitting pipe joint (8F) is by threeway (18K ₁) and magnetic valve (14K) and its inlet channel of water source (28B) be tightly connected; And compression-type refrigeration heating equipment and the compound unit of earth source heat pump water heater (26C), as figure (13), be characterized in that with the heat energy of containing in the earth's crust be thermal source, by being that to absorb the heat energy of containing in the earth's crust (28C) be thermal source for cold-producing medium evaporation in its metallic coil of evaporimeter (11B) (11H) of heat transferring medium in the compression-type refrigeration heating (A) with water or antifreezing liquid, and water or antifreezing liquid as heat transferring medium are housed in the evaporimeter (11B) and between metallic coil (11H) outer wall, its admitting pipe joint of evaporimeter (11B) (11F) is through being tightly connected through recycle liquid pump (24) and buried its outlet conduit of U-shaped pipe (22) of fin (29) of being with in the earth's crust (28C), the titting water outlet (11E) of evaporimeter (11B) is tightly connected by the inlet channel (21) of magnetic valve (14K) with the U-shaped pipe, and compression-type refrigeration heating equipment and the compound unit of forming by air source (28A) and water source (28B) of double heat source heat pump water heater (26AB), as figure (29), be characterized in the heat energy contained in the air and be two thermals source with the heat energy of containing in the water source, by the interior evaporimeter that with water is the evaporimeter (11B) of heat transferring medium as water resource heat pump of compression-type refrigeration heating (A), and by one in parallel with evaporimeter (11B) be the evaporimeter of the heat exchanger (20A) of heat transferring medium with the air as air source heat pump, figure (30) is its control system circuit diagram of compound unit shown in the figure (29); And compression-type refrigeration heating equipment and the compound unit of forming by air source and source, ground of double heat source heat pump water heater (26AC), as figure (31), its characteristics are two thermals source with the heat energy contained in the air with the heat energy of containing in the earth's crust, by the interior evaporimeter that with water is the evaporimeter (11B) of heat transferring medium as earth source heat pump of compression-type refrigeration heating (A), and be the evaporimeter of the heat exchanger (20A) of heat transferring medium as air source heat pump by one in parallel with evaporimeter (11B) with the air, its control system circuit diagram reference diagram (8) of compound unit shown in the figure (31A) is analogized and is designed and produced, and compression-type refrigeration heating equipment and the compound unit of forming by water source and source, ground of double heat source heat pump water heater (26BC), shown in figure (32), its characteristics are two thermals source with the heat energy contained in the water source with the heat energy of containing in the earth's crust, by in the compression-type refrigeration heating (A) be with water the evaporimeter (11B) of heat transferring medium as the evaporimeter of water resource heat pump again as the evaporimeter of earth source heat pump, its admitting pipe joint of evaporimeter (11B) (11F) is through threeway (18K ₂) and the outlet conduit (22A) at water circulating pump (23A) and water source (28B) be tightly connected, its admitting pipe joint (11F) is through threeway (18K again ₂) and its outlet pipe of U-shaped pipe (22B) of water circulating pump (23B) and buried band fin (29) in the earth's crust be tightly connected, its titting water outlet of evaporimeter (11B) (11E) is through threeway (18K ₁), elbow (25A ₁) and magnetic valve (14K ₁) be tightly connected with the inlet channel (21A) at water source (28B), its titting water outlet (11E) is through threeway (18K again ₁) and magnetic valve (14K ₂) be tightly connected with its water inlet pipe of U-shaped pipe (21B), its titting water outlet of evaporimeter (11B) (11F) is through threeway (18K ₂), elbow (25A ₂) and water circulating pump (23A) and its outlet conduit of water source (28B) (22A) be tightly connected, its admitting pipe joint (11F) is through threeway (18K again ₂) and water circulating pump (23B) and its outlet conduit of U-shaped pipe (22B) be tightly connected, its control system circuit diagram reference diagram (8) of compound unit shown in the figure (32) is analogized and is designed and produced, so the figure summary.

Claims (10)

1. the compound unit of compression-type refrigeration heating equipment and Teat pump boiler, it is characterized in that it is by compression-type refrigeration heating (A), the washing of having a bath and live is used or industrial or agricultural is formed with hot-water supply system (B) and control system (C), and compression-type refrigeration heating (A) is by compressor (9), do not adorn or be equipped with four-way electromagnetic reversing valve (19), with water is condenser (8A) device for drying and filtering (16) of heat transferring medium, choke valve (15), evaporimeter (11), gas-liquid separator parts such as (10) are equipped with or do not adorn, be tightly connected into the circulatory system successively with pipeline, in its system, charge an amount of cold-producing medium, and hot-water supply system (B) is made up of the condenser (8A) and the heat storage water tank (5) that with water are heat transferring medium, and condenser (8A) is by inner bag (8Q), heat-insulation layer (8M) and shell (8N) are formed, and be equipped with away cold-producing medium metallic coil (8H) but and temperature controller of design temperature (7) and temperature temperature-sensing element (7A) thereof, its titting water outlet of condenser (8A) (8E) is tightly connected with connecting pipe by magnetic valve (14X) with its end admitting pipe joint (5F) of heat storage water tank (5), its admitting pipe joint of condenser (8A) (8F) passes through magnetic valve (14Y) or water circulating pump (25) with its end titting water outlet (5E) of heat storage water tank (5), be tightly connected with connecting pipe, heat storage water tank (5) its underpart admitting pipe joint (5G) is sealedly connected with water source (1A) from the beginning by gate valve (2A) and threeway (18X) with connecting pipe, the upper end of heat storage water tank (5) its underpart titting water outlet (5H) is sealedly connected with one section water pipe (5D), the lower end of its titting water outlet (5H) is tightly connected in the hole on it with connecting pipe and threeway (18Y) by gate valve (2B), its right hole of threeway (18X) is by gate valve (2C), threeway (18Y) and (18Z) be connected with tap (3) with seal for pipe joints, threeway (18Z) shower that the hole is sealedly connected with belt switch (4A) with connecting pipe on it is with shower nozzle (4), heat storage water tank (5) is by inner bag (5C), heat-insulation layer (5B) and shell (5A) are formed, at heat storage water tank (5) water temperature nixie display (6) is housed, when compression-type refrigeration heating (A) is used as refrigeration, during freezing or ice making equipment, the evaporimeter (11A) that then with the air is heat transferring medium is combined into one with refrigerator (13B), or be combined into one with refrigerator-freezer (13C), or be combined into one with ice making case (13D), its evaporimeter (11A) is by inner bag (11Q), heat-insulation layer (11M) and shell (11N) are formed, and in inner bag (11Q) lining metal hose (11H are housed ₀), in compression-type refrigeration heating (A) is used as its inner bag of evaporimeter (11B) (11Q) that water-cooled air conditioner then is heat transferring medium with water, metallic coil (11H) is housed, between inner bag (11Q) and metallic coil (11H) outer wall water or antifreezing liquid are housed, its liquid outlet joint of evaporimeter (11B) (11E) is by magnetic valve (14Q) pipeline and water-cooled air conditioner indoor units (13A ₀) its liquid outlet joint (13F) is tightly connected, its feed tube joint (11F) of evaporimeter (11B) by recycle liquid pump (24) with pipeline and water-cooled air conditioner indoor units (13A ₀) its liquid outlet joint (13E) is tightly connected water-cooled air conditioner indoor units (13A ₀) in the metal coil pipe (13I) of antifreezing liquid is housed away, at metal coil pipe (13I) fan (13H) and fan electromotor (13J) thereof are housed behind, its shell of water-cooled air conditioner indoor units (13A) (13L) front has shutter, the evaporimeter (11B) that when compression-type refrigeration heating (A) as large cold storage freezing equipment or middle-size and small-size ice machine then with the antifreezing liquid is heat transferring medium is combined into one with freezer freezing equipment or its ice making case (13G) of refrigerator, its feed tube joint (13F) of its liquid outlet joint of evaporimeter (11B) (11E) and ice making case (13G) is connected with seal for pipe joints by magnetic valve (14Q), its feed tube joint (13F) of evaporimeter (11B) is tightly connected by recycle liquid pump (24) with its liquid outlet joint of ice making case (13G) (13E), and its control system of the compound unit of compression-type refrigeration heating equipment and heat pump is usually by compressor electric motor, fan electromotor, the recycle liquid pump motor, circulation-water pump electric machine, starting relay, capacitor, temperature controller, but the temperature controller of design temperature, the defrosting warmer, its coil of four-way electromagnetic reversing valve, magnetic valve, selector switch, devices such as attaching plug are electrically connected to be formed, different purposes at the compression-type refrigeration heating equipment, dissimilar, different structure, with reference to refrigerator, refrigerator-freezer, refrigeration case, the routine techniques of household electrical appliance such as air-conditioner or freezer equipment and its control system of refrigerator, be designed to several series circuits respectively, the head end of its series circuit is electrically connected with several groups of tie points of selector switch, the end of its series circuit all is electrically connected with the terminal lead of attaching plug, and the head end lead of attaching plug is electrically connected with first group of tie point of selector switch.

2. compound unit according to claim 1, it is characterized in that in compression-type refrigeration heating (A), between being that condenser (8A) and the evaporimeter (11) of heat transferring medium is between the two by a plurality of threeways (18) with water, be parallel with many heat exchangers (20) more than or with the connecting pipe sealing, its compression-type refrigeration heating (A) is by compressor (9), four-way electromagnetic reversing valve (19), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), choke valve (15), evaporimeter parts such as (11) are tightly connected into closed system successively with pipeline, and seal by a plurality of threeways (18) and connecting pipe between the two at condenser (8A) and evaporimeter (11) and to be parallel with many heat exchangers (20) more than or, and four-way electromagnetic reversing valve (19) its left hole usefulness connecting pipe and threeway (18A ₁) hole is tightly connected on it, the input pipe interface of its cold-producing medium of condenser (8A) is through magnetic valve (14A ₁), with connecting pipe and threeway (18A ₁) its left hole is tightly connected heat exchanger (20 ₁) the top carrier pipe interface of its cold-producing medium is through magnetic valve (14B ₁) and threeway (18B ₁) usefulness connecting pipe and threeway (18A ₁) its right hole is tightly connected the left part carrier pipe interface and the threeway (18A of its cold-producing medium of device for drying and filtering (16) ₂) it connects in the hole efferent duct interface process magnetic valve (14A of its cold-producing medium of condenser (8A) down with seal for pipe joints ₂) usefulness connecting pipe and threeway (18A ₂) its left hole is tightly connected heat exchanger (20 ₁) the bottom carrier pipe interface of its cold-producing medium is through choke valve (15), magnetic valve (14B ₂) and threeway (18B ₂) usefulness connecting pipe and threeway (18A ₂) its right hole is tightly connected, its right hole of four-way electromagnetic reversing valve (19) is with connecting pipe and threeway (18D ₁) hole is tightly connected on it, the top carrier pipe interface of its cold-producing medium of evaporimeter (11) is through magnetic valve (14E ₁) usefulness connecting pipe and threeway (18D ₁) its right hole is tightly connected heat exchanger (20 ₂) the top carrier pipe interface of its cold-producing medium is through magnetic valve (14D ₁) threeway (18C ₁) usefulness connecting pipe and threeway (18D ₁) its left hole is tightly connected, the right part carrier pipe interface of its cold-producing medium of device for drying and filtering (16) is with connecting pipe and threeway (18D ₂) it is tightly connected in the hole input pipe interface process choke valve (15) and the magnetic valve (14E of its cold-producing medium of evaporimeter (11) down ₂) usefulness connecting pipe and threeway (18D ₂) its right hole is tightly connected heat exchanger (20 ₂) the bottom carrier pipe interface of its cold-producing medium is through choke valve (15), magnetic valve (14D ₂) and threeway (18C ₂) usefulness connecting pipe and threeway (18D ₂) its left hole is tightly connected threeway (18B ₁) and (18C ₁) through magnetic valve (14C ₁) be tightly connected threeway (18B with connecting pipe ₂) and (18C ₂) through magnetic valve (14C ₂) be tightly connected with connecting pipe.

3. compound unit according to claim 2, it is characterized in that in the compression-type refrigeration heating (A), be equipped with and replace many magnetic valves (14) and the control system (C) thereof that four-way electromagnetic reversing valve (19) makes compound unit refrigeration in summer and winter heating's switching usefulness, the compression-type refrigeration heating (A) of its compound unit is by compressor (9), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), choke valve (15), evaporimeter (11), have or do not adorn gas-liquid separator (10), connect into closed system with seal for pipe joints, and be parallel with many heat exchangers (20) more than or with seal for pipe joints by a plurality of threeways (18) between the two at condenser (8A) and evaporimeter (11), and the escape pipe interface of compressor (9) and threeway (18A ₁) last hole connect with seal for pipe joints, the input pipe interface of its cold-producing medium of condenser (8A) is by magnetic valve (14A ₁) and threeway (18A ₁) its right hole is tightly connected heat exchanger (20 ₁) the carrier pipe interface of its top cold-producing medium is by threeway (18B ₁) and magnetic valve (14B ₁) and threeway (18A ₁) its left hole connects with seal for pipe joints, the right-hand member carrier pipe interface of its cold-producing medium of device for drying and filtering (16) is with pipeline and threeway (18A ₂) following hole be tightly connected, the efferent duct interface of its cold-producing medium of condenser (3A) is by magnetic valve (14A ₂) and threeway (18A ₂) its right hole connects heat exchanger (20 with seal for pipe joints ₁) the carrier pipe interface of its underpart cold-producing medium is by choke valve (15), threeway (18B ₂) and magnetic valve (14B ₂) usefulness pipeline and threeway (18A ₂) its left hole is tightly connected its air inlet pipe interface of gas-liquid separator (10) and threeway (18D ₁) last hole connect with seal for pipe joints, the efferent duct interface of its cold-producing medium of evaporimeter (11) is by magnetic valve (14E ₁) usefulness pipeline and threeway (18D ₁) its left hole is tightly connected heat exchanger (20 ₂) its cold-producing medium top carrier pipe interface is by threeway (18C ₁) and magnetic valve (14D ₁) usefulness pipeline and threeway (18D ₁) its right hole is tightly connected, the carrier pipe interface of its left end cold-producing medium of device for drying and filtering (16) is with pipeline and threeway (18D ₂) it is tightly connected in hole down, the input pipe interface of its cold-producing medium of evaporimeter (11) is by choke valve (15) and magnetic valve (14E ₂) use pipeline and three with (18D ₂) its left hole is tightly connected heat exchanger (20 ₂) the carrier pipe interface of its underpart cold-producing medium is by choke valve (15), threeway (18C ₂) and magnetic valve (14D ₂) usefulness pipeline and threeway (18D ₂) its right hole is tightly connected threeway (18B ₁) by magnetic valve (14C ₁) usefulness pipeline and threeway (18C ₁) be tightly connected threeway (18B ₂) by magnetic valve (14C ₂) usefulness pipeline and threeway (18C ₂) be tightly connected.

4. compound unit according to claim 3, it is characterized in that in compression-type refrigeration heating (A), between the condenser (8A) and the evaporimeter (11) that with water are heat transferring medium by many threeways (18) with the connecting pipe sealing is parallel with a heat exchanger (20) or sealing is parallel with one group of heat exchanger in parallel (20 _n), in the trunk line top three of its refrigerant conveying, whenever be sealedly connected with unicom pipeline (27A) respectively by threeway (18) between the two, with (27B) with (27C), and magnetic valve (14A is housed respectively on unicom pipeline ₃) (14B ₃) and (14C ₃), making among the trunk line three every UNICOM between the two or disconnection, its escape pipe interface of compressor (9) is by threeway (18A ₁) usefulness connecting pipe and threeway (18A ₂) hole is tightly connected on it, its air inlet of compressor (9) is by threeway (18B ₁) and magnetic valve (14B ₃) usefulness connecting pipe and threeway (18B ₂) hole is tightly connected on it, the input pipe interface of its cold-producing medium of condenser (8A) that with water is heat transferring medium is by magnetic valve (14A ₁) usefulness pipeline and threeway (18A ₂) it is tightly connected in hole down, the efferent duct interface of its cold-producing medium of condenser (8A) is by magnetic valve (14A ₂) and threeway (18A ₃) its left hole is tightly connected, its left part interface tube of device for drying and filtering (16) is with pipeline and threeway (18A ₃) it is tightly connected in hole down, the efferent duct interface of its cold-producing medium of evaporimeter (11) is by magnetic valve (14B ₁) usefulness pipeline and threeway (18B ₂) it is tightly connected in hole down, the input pipe interface of its cold-producing medium of evaporimeter (11) is by choke valve (15), magnetic valve (14B ₂) usefulness pipeline and threeway (18B ₃) its right hole is tightly connected, its right part interface tube of device for drying and filtering (16) is with pipeline and threeway (18B ₃) it is tightly connected the heat exchanger (20 of one group of parallel connection in the hole down _n) top of its cold-producing medium carries the conveying trunk line (27D) and threeway (18C after the lateral parallel connection ₁) it is tightly connected in the hole top carrier pipe interface connecting pipe and the threeway (18C of its cold-producing medium of single heat exchanger (20) down ₁) it is tightly connected the heat exchanger (20 of one group of parallel connection in the hole down _n) bottom of its cold-producing medium carries the conveying trunk line (27E) and threeway (18C after the lateral parallel connection ₂) hole is tightly connected on it, the bottom carrier pipe interface of its cold-producing medium of single heat exchanger (20) is by choke valve (15) magnetic valve (14C ₂) usefulness pipeline and threeway (18C ₂) hole is tightly connected threeway (18A on it ₃) its right hole and threeway (18C ₂) its left hole is by magnetic valve (14E ₁) connect threeway (18B with seal for pipe joints ₃) its left hole and threeway (18C ₂) its right hole is by magnetic valve (14E ₂) connect with seal for pipe joints.

5. compound unit according to claim 2, it is characterized in that in the compression-type refrigeration heating (A) with water being the condenser (8A) of heat transferring medium and be the evaporimeter (11B) of heat transferring medium with water or anti-icing fluid, be parallel with a heat exchanger (20) between the two and be that its liquid outlet joint of evaporimeter (11B) (11E) of heat transferring medium is tightly connected with pipeline and threeway (18F) and feed liquor trunk line (21C) through magnetic valve (14Q) with water or anti-icing fluid, its feed tube joint (11F) of evaporimeter (11B) is tightly connected with fluid trunk line (22C) with pipeline and threeway (18E) through recycle liquid pump (24), sealing plug screw (30) all is equipped with at feed liquor trunk line (21C) and its two ends of fluid trunk line (22C), and central air-conditioning indoor units (13A ₀) it is leaked water or its feed tube interface (13F) of metal coil pipe (13I) of anti-icing fluid is tightly connected with pipeline and feed liquor trunk line (21C) through threeway (18H), its drain pipe interface (13E) is tightly connected with pipeline and fluid trunk line (22C) through threeway (18I), composition is the central air-conditioning and the compound unit of Teat pump boiler of heat transferring medium with water or antifreezing liquid, or its liquid outlet joint of evaporimeter (11B) (11E) through magnetic valve (14Q) with pipeline directly with leak water or the air conditioner room unit group (13A of anti-icing fluid ₀) it is leaked water or the feed tube interface (13F) of the metal coil pipe (13I) of anti-icing fluid is tightly connected, its feed tube joint (11F) of evaporimeter (11B) through recycle liquid pump (24) with pipeline directly and its liquid outlet joint of metal coil pipe (13I) (11E) be tightly connected, the metallic coil (11H) of cold-producing medium is housed away in its inner bag of evaporimeter (11B) (11Q), inner bag (11Q) outer wall is equipped with heat-insulation layer (11M) and shell (11N), at water-cooled central air-conditioning or its indoor units of water-cooled air conditioner (13A ₀) be equipped with and leak water or the metal coil pipe (13I) of antifreezing liquid, at its back side of metal coil pipe (13I) fan (13H) and fan electromotor (13J) thereof are housed, and on shell, have the shutter of band blinds.

6. compound unit according to claim 1, it is characterized in that in the compression-type refrigeration heating, the condenser (8A) and the evaporimeter (11) that with water are heat transferring medium respectively are parallel with many heat exchangers (20) more than or, or only there is condenser (8A) to be parallel with many heat exchangers (20) more than or, or have only evaporimeter (11) to be parallel with many heat exchangers (20) more than or, its compression-type refrigeration heating (A) is by compressor (9), four-way electromagnetic reversing valve (19), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16), evaporimeter (11) connects into closed system with seal for pipe joints, and condenser (8A) and evaporimeter (11) respectively are parallel with many heat exchangers (20) more than or, and its right hole of four-way electromagnetic reversing valve (19) is by connecting pipe and threeway (18A ₁) last hole be tightly connected, the input pipe interface of its cold-producing medium of condenser (8A) that with water is heat transferring medium is by magnetic valve (14A ₁) usefulness pipeline and threeway (18A ₁) its right hole is tightly connected heat exchanger (20 ₁) the upper tube interface of its cold-producing medium is by magnetic valve (14B ₁) usefulness pipeline and threeway (18A ₁) its left hole is tightly connected, its cold-producing medium efferent duct interface of condenser (8A) is by magnetic valve (14A ₂) usefulness pipeline and threeway (18A ₂) its right hole is tightly connected heat exchanger (20 ₁) the bottom carrier pipe interface of its cold-producing medium is by choke valve (15) and magnetic valve (148 ₂) usefulness pipeline and threeway (18A ₂) its left hole is tightly connected, the right-hand member carrier pipe joint of its cold-producing medium of device for drying and filtering (16) is by pipeline and threeway (18A ₂) it is tightly connected in hole down, its left hole of four-way electromagnetic reversing valve (19) is by pipeline and threeway (18B ₁) hole is tightly connected on it, the top carrier pipe interface of its cold-producing medium of evaporimeter (11) is by magnetic valve (14D ₁) usefulness pipeline and threeway (18B ₁) its left hole is tightly connected heat exchanger (20 ₂) the top carrier pipe interface of its cold-producing medium is by magnetic valve (14C ₁) usefulness pipeline and threeway (18B ₁) right hole be tightly connected, the bottom carrier pipe interface of its cold-producing medium of evaporimeter (11) is by choke valve (15) and magnetic valve (14D ₂) usefulness pipeline and threeway (18B ₂) its left hole is tightly connected heat exchanger (20 ₂) the bottom carrier pipe interface of its cold-producing medium is by choke valve (15) and magnetic valve (14C ₂) usefulness pipeline and threeway (18B ₂) its right hole is tightly connected.

7. compound unit according to claim 1, it is characterized in that compression-type refrigeration heating (A) is a two stages of compression formula refrigerating and heating systems, and be that two-stage is steam compressed, the one-level throttling, the middle not exclusively circulatory system of cooling, its steam compression type refrigerating heating (A) is by stage compressor (9N), hiigh pressure stage compressor (9M), with water is the condenser (8A) of heat transferring medium, intercooler (8X) and choke valve (15X) thereof, choke valve (15), evaporimeter parts such as (11) connect into the circulatory system with seal for pipe joints, charge an amount of cold-producing medium in its system, it with the cooling fluid metallic coil (11H) that its inner bag of evaporimeter (11B) (11Q) of heat transferring medium is equipped with away cold-producing medium, between inner bag (11Q) and metallic coil (11H) outer wall saline solution is housed, its feed tube joint (11F) is connected with seal for pipe joints with freezer ice making case (13G) feed tube joint (13E), recycle liquid pump (13X) is housed on its pipeline, and its feed tube joint (13F) of its liquid outlet joint of evaporimeter (11B) (11E) and ice making case (13G) is connected with seal for pipe joints.

8. compound unit according to claim 1, it is characterized in that compression-type refrigeration heating (A) is to cover folded formula two-stage or steam compression type refrigerating heating recycle system independently more than the two-stage, its one-level is the low temperature circulatory system (A1), another level is high temperature circulation system (A2), its low temperature circulatory system (A1) is by cryogenic compressor (9N), shared evaporator-condenser (8A-11B), device for drying and filtering (16A), choke valve (15), evaporimeter (11), gas-liquid separator parts such as (10) are tightly connected into the low temperature circulatory system (A1) successively with pipeline, in the low temperature circulatory system (A1), charge an amount of low-temperature refrigerant, and high temperature circulation system (A2) is by high temperature compressed machine (9M), with water is the condenser (8A) of heat transferring medium, device for drying and filtering (16B), choke valve (15), shared evaporator-condenser (8A ¹-11B ¹), gas-liquid separator parts such as (10) are tightly connected into high temperature circulation system (A2) successively with pipeline, in high temperature circulation system (A2), charge an amount of middle temperature cold-producing medium, it with the cooling liquid metallic coil (11H) that its inner bag of evaporimeter (11B) (11Q) of heat transferring medium is equipped with away cold-producing medium, between inner bag (11Q) and metallic coil (11H) outer wall saline solution is housed, inner bag (11Q) outer wall has heat-insulation layer (11M) and shell (11N), its feed tube joint (11F) is connected with seal for pipe joints with its feed tube joint (13E) of ice making case (13G) with freezer, recycle liquid pump (13X) is housed on its pipeline, and its liquid outlet joint of evaporimeter (11B) (13E) is tightly connected with its feed tube joint (13F) of ice making case (13G).

9. according to claim 1,2,3,4,5,6,7 or 8 described compound units, it is characterized in that two independently steam compression type refrigerating heating (A ₁) and (A ₂) its water cooled condenser (8A ₁) and (8A ₂) parallel connection, its titting water outlet (8E ₁) and (8E ₂) through magnetic valve (14X ₁) and (14X ₂) be tightly connected with pipeline and threeway (18V), and the last hole of threeway (18V) is tightly connected with connecting pipe and its admitting pipe joint of heat storage water tank (5) (5F), two water cooled condenser (8A ₁) and (8A ₂) its admitting pipe joint (8F ₁) and (8F ₂) be tightly connected with connecting pipe and threeway (18W), and the last hole of threeway (18W) is tightly connected with connecting pipe and its titting water outlet of heat storage water tank (5) (5E), two water cooled condenser (8A ₁) and (8A ₂) but the temperature controller (7 of design temperature is housed respectively ₁) with (7 ₂), or two steam compression type refrigerating heating (A independently ₁) and (A ₂) its water cooled condenser (8A ₁) and (8A ₂) in parallel with heat storage water tank (5) three, its titting water outlet (8E ₁) and (8E ₂) respectively by magnetic valve (14X ₁) and (14X ₂) and its admitting pipe joint of heat storage water tank (5) (5F ₁) and (5F ₂) be tightly connected respectively, and condenser (8A ₁) and (8A ₂) its admitting pipe joint (8F ₁) and (8F ₂) respectively by magnetic valve (14Y ₁) and (14Y ₂) heat storage water tank and (5) its titting water outlet (5E ₁) and (5E ₂) be tightly connected two water cooled condenser (8A respectively ₁) and (8A ₂) but the temperature controller (7 of design temperature is housed respectively ₁) with (7 ₂), or two steam compression type refrigerating heating (A independently ₁) and (A ₂) its water cooled condenser (8A) is combined into one, both walk the metallic coil (8H of cold-producing medium ₁) and (8H ₂) be installed in its inner bag of same condenser (8A), its titting water outlet of condenser (8A) (8E) is tightly connected with pipeline and its admitting pipe joint of heat storage water tank (5) (5F) through magnetic valve (14X), and its water inlet pipe interface (8F) of condenser (8A) is tightly connected with pipeline and its titting water outlet of heat storage water tank (5) (5E) through magnetic valve (14Y).

10. according to claim 1,2,3,4,5,6,7 or 8 described compound units, it is characterized in that it is compression-type refrigeration heating equipment and the compound unit of air source hot pump water heater (26A), or it is compression-type refrigeration heating equipment and the compound unit of water source heat pump water heater (26B), or it is compression-type refrigeration heating equipment and the ground compound unit of seedbed pump water heater (26C), or it is compression-type refrigeration heating equipment and the compound unit of being made up of air source and water source of double heat source heat pump water heater (26AB), or it is compression-type refrigeration heating equipment and the compound unit of being made up of air source and source, ground of double heat source heat pump water heater (26AC), or it is compression-type refrigeration heating equipment and the compound unit of being made up of water source and source, ground of double heat source heat pump water heater (26BC), and the compound unit of compression-type refrigeration heating equipment and air source hot pump water heater (26A) is characterized in that with the heat energy of containing in the air be thermal source, by in the compression-type refrigeration heating (A) being that to absorb the heat energy of containing in the air source (28A) be thermal source for cold-producing medium evaporation in its metal coil pipe (11I) of evaporimeter (11A) of heat transferring medium with the air, fan (13H) and fan electromotor (13J) thereof have the band grid on evaporator shell (13L) ventilation window is housed at the back side of its metal coil pipe (13I) of evaporimeter (11A), and the compound unit of compression-type refrigeration heating equipment and water source heat pump water heater (26B) is characterized in that with the heat energy of containing in the water source be thermal source, by in the compression-type refrigeration heating (A) being that to absorb the heat energy of containing in the water source (28B) be thermal source for cold-producing medium evaporation in its metallic coil of evaporimeter (11B) (11H) of heat transferring medium with water, the metallic coil (11H) of cold-producing medium is housed away in evaporimeter (11B), and the water as heat transferring medium is housed in the evaporimeter (11B), its titting water outlet of evaporimeter (11B) (11E) is tightly connected through the inlet channel (21) of magnetic valve (14K) with water source (26B), its admitting pipe joint of evaporimeter (11B) (11F) is tightly connected through the outlet conduit (22) of water circulating pump (23) with water source (28B), and compression-type refrigeration heating equipment and the compound unit of earth source heat pump water heater (26C) are characterized in that with the heat energy of containing in the earth's crust be thermal source, by being that to absorb the heat energy of containing in the earth's crust (28C) be thermal source for cold-producing medium evaporation in its metallic coil of evaporimeter (11B) (11H) of heat transferring medium in the compression-type refrigeration heating (A) with water or antifreezing liquid, and water or antifreezing liquid as heat transferring medium are housed in the evaporimeter (11B) and between metallic coil (11H) outer wall, its admitting pipe joint of evaporimeter (11B) (11F) is through being tightly connected through recycle liquid pump (24) and buried its outlet conduit of U-shaped pipe (22) of fin (29) of being with in the earth's crust (28C), the titting water outlet (11E) of evaporimeter (11B) is tightly connected by the inlet channel (21) of magnetic valve (14K) with the U-shaped pipe, and compression-type refrigeration heating equipment and the compound unit of being made up of air source (26A) and water source (26B) of double heat source heat pump water heater (26AB) are characterized in the heat energy contained in the air and be pair thermals source with the heat energy of containing in the water source, by the interior evaporimeter that with water is the evaporimeter (11B) of heat transferring medium as water resource heat pump of compression-type refrigeration heating (A), and be the evaporimeter of the heat exchanger (20A) of heat transferring medium as air source heat pump by one in parallel with evaporimeter (11B) with the air, and the compression-type refrigeration heating equipment be pair thermals source by air source and its characteristics of the compound unit of double heat source heat pump water heater (26AC) of forming of source, ground with the heat energy contained in the air with the heat energy of containing in the earth's crust, by the interior evaporimeter that with water is the evaporimeter (11B) of heat transferring medium as earth source heat pump of compression-type refrigeration heating (A), and be the evaporimeter of the heat exchanger (20A) of heat transferring medium as air source heat pump by one in parallel with evaporimeter (11B) with the air, and the compression-type refrigeration heating equipment be pair thermals source by water source and its characteristics of the compound unit of double heat source heat pump water heater (26BC) of forming of source, ground with the heat energy contained in the water source with the heat energy of containing in the earth's crust, by in the compression-type refrigeration heating (A) be with water the evaporimeter (11B) of heat transferring medium as the evaporimeter of earth source heat pump again as the evaporimeter of earth source heat pump, its admitting pipe joint of evaporimeter (11B) (11F) is through threeway (18K ₂) and the outlet conduit (22A) at water circulating pump (23A) and water source (23B) be tightly connected, its admitting pipe joint (11F) is through threeway (18K again ₂) and its outlet pipe of U-shaped pipe (22B) of water circulating pump (23B) and buried band fin (29) in the earth's crust be tightly connected, its titting water outlet of evaporimeter (11B) (11E) is through threeway (18K ₁), elbow (25A ₁) and magnetic valve (14K ₁) be tightly connected with the inlet channel (21A) at water source (28B), its titting water outlet (11E) is through threeway (18K again ₁) and magnetic valve (14K ₂) be tightly connected with its water inlet pipe of U-shaped pipe (21B), its titting water outlet of evaporimeter (11B) (11F) is through threeway (18K ₂), elbow (25A ₂) and water circulating pump (23A) and its outlet conduit of water source (28B) (22A) be tightly connected, its admitting pipe joint (11F) is through threeway (18K again ₂) and water circulating pump (23B) and its outlet conduit of U-shaped pipe (22B) be tightly connected.

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