CN101738056A - Refrigerator-type cold/warm air conditioning-power generating and showering multifunctional system device - Google Patents

Abstract

The invention relates to a refrigerator-type cold/warm air conditioning-power generating and showering multifunctional system device which comprises a refrigerator, a dual cold/warm air conditioner, a thermocouple temperature-difference power generating device, a refrigerator/heat source box dual cover, a storage battery, a warm air/hot water device, a heat source box and a showering device, wherein an evaporator and a condenser in the refrigerator are respectively connected with a thermocouple and a heat pipe so as to carry out temperature-difference power generation, a thermocouple power output plug is sequentially connected with an input power socket and a charge-discharge controller, the storage battery is connected with a power connection plug, the heat source box is connected with an electric heater and a temperature controller, and the water pump is connected with a showering nozzle, the heat source box and the cold/warm air conditioner; the refrigerator-type cold/warm air conditioning-power generating and showering multifunctional system device has multi-purposes; the refrigerator can be used as an air cooler and a warm air blower and used for heating water and showering when being used, and the evaporator and the condenser in the refrigerator can be used for regenerating the power and supplying the power for household appliances; and the refrigerator-type cold/warm air conditioning-power generating and showering multifunctional system device can save the electricity more than 80 percent and has energy-saving and pollution-free social and economic benefits.

Description

Refrigerator-type is cold/multifunctional system device of warm air conditioner-generating and shower

Technical field

Household electrical appliance (using refrigerator) more

Background technology:

Main several power-saving technologies of domestic refrigerator:

Refrigerator is as durable consumer goods, and the occupation rate of urban households has surpassed 85% at home, and domestic refrigerator market year, sales volume was above 1,000 ten thousand.As a kind of long-life batch (-type) power consumption product, the electric weight that refrigerator consumes in resident family is only second to Air-conditioningDevice, the energy conservation of refrigerator product is all paid much attention in countries in the world, the U.S., European Union, Japan etc. have all formulated strict energy consumption class requirement, Chinese Government has also formally implemented " household electric refrigerator power consumption limit value and energy efficiency grade " standard 1 month November in 2003, requires manufacturing enterprise to reduce the energy consumption level of refrigerator.Refrigerator manufacturer constantly promotes the refrigerator energy-saving index also by technological innovation, has had many enterprises to release day power consumption only 0.35 degree even 0.29 refrigerator of spending at present on the domestic market.From at present domestic and international producer refrigerator product, the main power-saving technology of refrigerator is as follows at present.

Conventional power-saving technology

Conventional power-saving technology mainly reduces the energy consumption of refrigerator from three aspects:

1, increasing refrigerator depth of foam general refrigerator refrigerating chamber depth of foam is 35mm to 45mm, and refrigerating chamber thickness is 60mm to 80mm.Energy-saving refrigerator is in order to reduce the radiation of cold to the external world, and the depth of foam of refrigerating chamber is increased to 55mm to 65mm, and the refrigerating chamber depth of foam increases to 85mm to 100mm even 120mm.

2, adopt the refrigerator of mechanical temperature controller single round-robin system cooling system mechanical temperature controller, single round-robin system cooling system not have power consumption parts such as computer plate, magnetic valve, adopt the freezer compressor start-stop of single round-robin system cooling system controlled by temperature of refrigerating chamber simultaneously, compare the refrigerator of double round robin cooling system, available machine time is short, comparatively power saving.

3, adopt high-efficient, no-freon compressor high-efficient, no-freon R600a compressor to be extensive use of on refrigerator, its energy efficiency value (COP) can reach 1.75, is the main means of refrigerator energy-saving.

The advantage that adopts conventional power-saving technology is that production technology is simple, reliability is high, the cost increase is less, but its shortcoming also clearly: blocked up foaming layer influences the aesthetic of refrigerator; Mechanical temperature controller operation is the side, need adjust the temperature gear according to the difference in season, and adopt single loop system refrigerator refrigerating capacity little (having only several kilograms usually), can not realize function such as quick-frozen, ability is relatively poor when freezing a large amount of FF.Adopting the refrigerator another one weakness of conventional power-saving technology is the inhomogeneities of power consumption, single round-robin system cooling system refrigerator is because its temperature is controlled by refrigerating chamber, must open the normal operation that temperature compensation means could guarantee refrigerator in the time of winter environment temperature lower (generally be lower than 16 degree), the power consumption of this compensation arrangement every day 0.24 spend more than.

Pressure reduction keeps technology

Refrigerator when work compressor compresses gaseous refrigerant becomes the liquid refrigerant of high pressure by heat radiation in condenser, enter steam raising in the evaporimeter of low pressure by capillary then, siphons away the heat in the refrigerator, reaches the purpose of refrigeration.Freezer compressor was mainly used in the pressure reduction of setting up between condenser and the evaporimeter in incipient 3 to 5 minutes, just can enter normal refrigerating state then, the waste that belonged to energy consumption in 3 to 5 minutes of this front.

Pressure reduction maintenance technology is by the break-make that a series of valve comes control piper is set on the refrigerator refrigeration pipe; valve conducting during compressor start refrigeration; valve closing when compressor shutdown; high-pressure refrigerant in the condenser is cut off and remains in the condenser; when starting shooting, can set up by compressor the pressure reduction between condenser and evaporimeter, the energy consumption that cuts the waste next time fast.

The advantage of this technology is the energy loss in the time of can reducing the compressor start, and shortcoming is that a plurality of valves and corresponding compressor release pipeline need be set on pipeline, and the pad of pipeline is more.

The energy-saving and frequency-variable technology

Converter technique is used very extensive in Japanese refrigerator industry, domestic refrigerator industry was tested converter technique since 1999, the frequency conversion refrigerator listing of many enterprises such as existing Haier, Hisense, Electrolux, Wuxi Panasonic on the market till now, with traditional rotating speed is that the compressor of 3000rpm is compared, frequency-changeable compressor has the advantage of soft start, low noise, high efficiency, high speed refrigerating capacity, its range of speeds 1800rpm to 4300rpm, energy efficiency value (COP) is the highest can to reach the phase more than 1.9.The refrigerator that adopts converter technique fast-refrigerating at short notice reaches the temperature of setting, then with the low speed continuous service, produce a small amount of cold and keep the interior temperature of refrigerator, the waste of energy of avoiding the high frequent start-stop to cause adopts the refrigerator of converter technique to compare with identical general refrigerator according to measuring and calculating and can save energy consumption more than 15%.

The shortcoming of converter technique is its cost height, and the price of frequency-changeable compressor is approximately 550 yuan to 800 yuan at present, is higher than the price of common high-efficient, no-freon compressor far away, and this also is the principal element that the restriction converter technique is promoted in Chinese refrigerator industry.Believe the development along with compressor and frequency conversion control technique, the price of frequency-changeable compressor finally can drop to universal scope.

The absolute technology of vacuum

Vaccum thermal insulation technique comes from the nineties in the application of refrigerator industry, utilizes the low thermal conduction characteristic under the vacuum condition to make heat-barrier material, is fixed in the refrigerator foaming layer to improve the refrigerator heat-proof quality.Present vacuum insulation product generally is to do core with the glass fibre combination product, composite aluminium film bag for packing fruits on and sealing vacuumize, its thermal conductivity factor only is 0.0025W/mK, and the thermal conductivity factor of pentamethylene foamed material commonly used is 0.019W/mK at present, according to test data, when vacuum heat-insulating material area coverage reach the refrigerator foaming aspect long-pending 70% the time, the relative energy consumption of refrigerator can reduce more than 24%, perhaps keep power consumption constant, the volume of refrigerator can increase more than 15%.

Vaccum thermal insulation technique is used widely in Japanese refrigerator industry, and companies such as Mitsubishi, Hitachi, Panasonic, Toshiba, Sanyo all adopted vaccum thermal insulation technique to reduce energy consumption of refrigerator in 2004 in the new product.The Wuxi PANASONIC has been released 220 liters of volumes, has been had the refrigerator of vacuum heat insulation materials on the domestic market, and power consumption only is 0.35 degree.Domestic refrigerator producer is also carrying out this The Application of Technology research, believes that just having product soon occurs.

The heat-insulating property of vacuum heat insulation materials excellence and ripe technology are promoted the use of for it possibility are provided, but this material is mainly by Japan factory production at present, price is approximately 40 dollars/square metre, and the continuous drop of its fancy price and domestic refrigerator price can influence the technology follow-up speed of domestic refrigerator.

The technical feasibility height of above power-saving technology, technological operation are better, obtain application in various degree in the large-scale refrigerator producer at home and abroad.Along with national governments to improving constantly that the energy Consumption of Refrigerator level requires, what power-saving technology also can obtain continuing applies.Simultaneously, phase-change material energy accumulating technique, the emerging power-saving technology of Linearkompressor innovation continue to bring out, and finally can improve the energy consumption level of whole refrigerator industry.

For this reason, the inventor provides a kind of novel the multifunctional system device of warm air conditioner-generating and shower " refrigerator-type is cold/".

Summary of the invention:

" heat pipe/thermocouple thermo-electric generation " novel apparatus is causing attracting attention of common people now.

The technical solution adopted for the present invention to solve the technical problems;

(A) (B1-1) evaporimeter in the refrigerator and (B3) condenser are being connected (J) thermocouple respectively and are connected with (D1) heat pipe and carry out thermo-electric generation warp (J5) thermocouple power supply output plug and connecting (DC1) in turn and import supply socket, (DCT) charging-discharging controller connect (DC) battery be connected (G1-3) power connecting plug of (G) heat source case one side with the gang socket of (DC7) power supply and connecting in turn (L1) Connection Block and (H1) temperature sensor that (L) electric heater is connected with (H) temperature controller reach (C) on (Q6) shower nozzle of (Q1) water pump connection and (G) heat source case top cold/heating air conditioner, (F) the dual-purpose lid of refrigerator/heat source case cold with (C)/heating air conditioner is connected with the top of (A) refrigerator with (G) heat source case respectively, constitute refrigerator-type of the present invention cold/multifunctional system device of warm air conditioner-generating and shower.

Innovative point of the present invention is:

Technology path one: the thermo-electric generation new technology that has adopted thermocouple to be connected with super heat-conductive pipe.

Technology path two: adopted the surplus cold/heat of evaporator of electric refrigerator and condenser to carry out the renewable resource that altitude temperature difference effect generates electricity.

Technology path three: adopted the surplus cold/heat of evaporator of electric refrigerator and condenser to make air conditioner.

Technology path four: adopted the surplus cold/heat of evaporator of electric refrigerator and condenser to carry out thermo-electric generation heating shower water.

Technology path five: the present invention is an a tractor serves several purposes; Refrigerator, air-cooler, warm-air drier and hot water and shower.

Beneficial effect of the present invention:

The present invention is an a tractor serves several purposes; As when refrigerator uses, can be used as air-cooler or warm-air drier and hot water and shower, and the evaporimeter in the available refrigerator and condenser generate electricity and are used for the power supply of household electrical appliance, economize on electricity has energy-conservation, free of contamination society and economy benefit more than 80%.

Description of drawings

Fig. 1: refrigerator circulation theory figure

Fig. 1-1: single channel cycle refrigerator refrigeration system schematic diagram;

Fig. 1-2: two-storage temperature refrigerator schematic diagram of refrigerating;

Fig. 2: refrigerator-type of the present invention is cold/the multifunctional system device schematic diagram of warm air conditioner-generating and shower;

Fig. 3: refrigerator outline drawing;

Fig. 4: inner refrigerating chamber of refrigerator and refrigerating chamber layout;

Fig. 5: refrigeration system of refrigerator device side diagram;

Fig. 6: refrigerator connects heat-pipe refrigerating device side diagram;

Fig. 7: refrigerator connects the positive diagram of heat-pipe refrigerating device;

Fig. 8: refrigerator connects heat-pipe refrigerating device profile diagram;

Fig. 9: the layout plane of heat pipe and fan diagram in cold/heating air conditioner;

Figure 10: the front of heat pipe and fan diagram in cold/heating air conditioner;

Figure 11: the positive diagram of refrigerator-type cold air conditioner apparatus;

Figure 12: the positive profile diagram of refrigerator-type cold air conditioner device;

Figure 13: refrigerator-type cold air conversion heating installation diagram;

Figure 13-1; The positive diagram of refrigerator-type cold air conditioner apparatus;

Figure 13-2: the positive diagram of refrigerator device;

Figure 13-3: cold/the heating air conditioner diagram;

Figure 14: the connection diagram of temperature difference electricity generation device of the present invention;

Figure 15: heating installation case apparatus diagram of the present invention:

Figure 15-1: the heating installation heat source case of time spent does not illustrate;

Figure 15-2: get the heating installation heat source case diagram when covering;

Figure 15-3: the heating installation case apparatus diagram of heating gas;

Figure 16: refrigerator of the present invention-heating installation connects the profile diagram;

Figure 17: hot water of the present invention-shower bath diagram;

Figure 17-1: built-in water pump type;

Figure 17-2: external water pump type;

Figure 17-3: hot water of the present invention-shower bath diagram;

Figure 18: the circuit connection diagram of system and device of the present invention shows.

Among the figure: (A) refrigerator, (EE) dual-purpose cold/heating air conditioner, (M) thermocouple temperature difference electricity generation device, the dual-purpose lid of (F) refrigerator/heat source case, (DC) battery, (GG) heating installation/hot water apparatus, (G) heat source case, (QQ) shower bath; (B1-1) evaporimeter, (B1-2) evaporimeter, (B2) air intake duct, (B3) condenser, (B4) drain pan, (B4-1) capillary, (B4-2) capillary, (B6) filter, (B7) compressor, (B8) drainpipe, (B9) evaporating pan, (B10) liquid reservoir, (B11) two-position three-way valve, (B12) device for drying and filtering, (B13) secondary condenser, (B14) thermal insulation board, (A1) refrigerator top cover, (A1-1) supply socket, (A1-2) connect power line, (A1-3) attachment plug, (A1-4) power supply gang socket, (A0) heat pipe patchhole, (A2) refrigerator left side wall, (A3) refrigerator right side wall, (A4) refrigerator bottom, (A5) refrigerating chamber, (A5-0) freezing chamber, (A6) evaporator room, (B1-1) evaporimeter, (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber, (C) cold/heating air conditioner, (C1) ventilation guard, (C0) cold/warm air conditioner inner chamber, (E) fan, (E1) fan power supply line, (E2) cold/heating air conditioner connects attaching plug, (K) fan power supply switch, (D1) heat pipe, (D1-1) condensation segment, (D1-2) adiabatic section, (D1-3) evaporator section, (D2) heat pipe, (D2-1) condensation segment, (D2-2) adiabatic section, (D2-3) evaporator section, (M0) outer cover, (W) inhale cold grid, (J) thermocouple, (J1) huyashi-chuuka (cold chinese-style noodles), (J3) power line, (J2) hot side, (J4) power line, (J5) thermocouple power supply output plug, (DC1) input supply socket, (DC2) connect electric wire, (DCT) charging-discharging controller, (DC3) connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) connect electric wire, (DC7) power supply gang socket, (G1) left side wall, (G1-1) heat source case supply socket, (G1-2) connect power line, (G1-3) power connecting plug, (G2) heat source case top, (G3) heat pipe patchhole, (G4) thermal source inner chamber, (G5) universal wheel, (H) temperature controller, (H1) temperature sensor, (H2) temperature control power line, (K02) pump power switch connecting line, (H3) power switch connecting line, (L) electric heater, (L1) Connection Block, (K0) pump power switch, (QX) connect the mouth of pipe, (00) hot water, (Q1) water pump, (Q2) cornue, (Q3) vertical pipes, (Q4) vertical adjusting pipe, (Q5) shower head handle, (Q6) shower nozzle, (00) thermal source (water or superconducting fluid), (X) low-temperature receiver or cold air, (Z) thermal source or heating installation.

The specific embodiment

Embodiment one:

In Fig. 1: (B1-1) evaporimeter, (B1-2) evaporimeter, (B3) condenser, (B4-1) capillary, (B4-2) capillary, (B7) compressor, (B10) liquid reservoir, (B11) two-position three-way valve, (B12) device for drying and filtering.

In the drawings: (B7) compressor connects (B3) condenser, (B12) device for drying and filtering, (B11) two-position three-way valve, (B4-1) capillary and (B1-1) evaporimeter, (B4-2) capillary and (B1-2) evaporimeter, (B10) liquid reservoir in turn, is connected (B7) compressor again and constitutes the loop and just formed refrigerator.

In Fig. 2: (A) refrigerator, (A5) refrigerating chamber, (B1-1) evaporimeter, (B3) condenser, (C) cold/heating air conditioner, (C1) ventilation guard, (E) fan, (D1) heat pipe, (D1-1) condensation segment, (D1-2) adiabatic section, (D1-3) evaporator section, (D2) heat pipe, (D2-1) condensation segment, (D2-2) adiabatic section, (D2-3) evaporator section, (M) thermocouple temperature difference electricity generation device, (W) inhale cold grid, (J) thermocouple, (J1) huyashi-chuuka (cold chinese-style noodles), (J3) power line, (J2) hot side, (J4) power line, (J5) thermocouple power supply output plug, (DC1) input supply socket, (DC2) connect electric wire, (DCT) charging-discharging controller, (DC) battery, (DC3) connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) connect electric wire, (DC7) power supply gang socket, (G) heat source case, (G1-3) power connecting plug, (H) temperature controller, (H1) temperature sensor, (L) electric heater, (L1) Connection Block, (00) thermal source (water or superconducting fluid), (X) low-temperature receiver or cold air, (Z) thermal source or heating installation.

In the drawings: connecting in (A5) refrigerating chamber upper end of (A) refrigerator (B1-1) evaporimeter upper end (C) cold/heating air conditioner; And (C) cold/connecting (D1-1) condensation segment, (D1-2) adiabatic section of (D1) heat pipe and (D1-3) evaporator section in the heating air conditioner; (D1) (D1-2) adiabatic section of connecting of heat pipe (D1-1) condensation segment and (D1-3) evaporator section from (C) cold/bottom of heating air conditioner passes to insert and is connected in (A5) refrigerating chamber; (D1-2) adiabatic section connect (C) cold/hole of the bottom face of heating air conditioner in and (A5) constituted low-temperature receiver in the hole of refrigerating chamber top end face and transmitted thermantidote; A side of (A) refrigerator back side (B1-1) evaporimeter connecting in turn (W) inhale cold grid and (J) the thermocouple one side (J1) huyashi-chuuka (cold chinese-style noodles) and (J2) hot side of (J3) power line and another side and (J4) power line and (J5) thermocouple power supply output plug form cooling source end, (J) (J2) hot side of thermocouple (D2-1) condensation segment (D2-2) adiabatic section of connecting (D2) heat pipe end of being connected (B3) condenser with (D2-3) evaporator section is formed the supplying heat source end, has constituted (M) thermocouple temperature difference electricity generation device; (J5) thermocouple power supply output plug is connecting (DC1) input supply socket, (DC2) in turn and connects electric wire, (DCT) charging-discharging controller, (DC) battery, (DC3) and connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) and connect electric wire, the gang socket of (DC7) power supply and formed and give (DC) charge in batteries and electric supply installation; (DC7) power supply gang socket connecting (G1-3) power connecting plug of (G) heat source case one side and connecting in turn (H1) temperature sensor that (L1) Connection Block and (L) electric heater be connected with (H) temperature controller reach (C) on (G) heat source case top cold/heating air conditioner; And (C) cold/connecting (D1-1) condensation segment, (D1-2) adiabatic section of (D1) heat pipe and (D1-3) evaporator section in the heating air conditioner; (D1) (D1-2) adiabatic section of connecting of heat pipe (D1-1) condensation segment and (D1-3) evaporator section from (C) cold/bottom of heating air conditioner passes to insert and is connected in (G) heat source case; (C) cold/connecting (E) fan outside in the heating air conditioner and connecting (C1) ventilation guard; (00) thermal source (water or superconducting fluid) is housed in (G) heat source case.

In Fig. 3～Fig. 5: (A) refrigerator, (A1) refrigerator top cover, (A1-1) supply socket, (A0) heat pipe patchhole, (A2) refrigerator left side wall, (A3) refrigerator right side wall, (A4) refrigerator bottom, (A5) refrigerating chamber, (A6) evaporator room, (B1-1) evaporimeter, (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber, (A0) heat pipe patchhole, (A2) refrigerator left side wall, (A3) refrigerator right side wall, (A4) refrigerator bottom, (A5) refrigerating chamber, (A6) evaporator room, (B1-1) evaporimeter, (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber, (B2) air intake duct, (B3) condenser, (B4) drain pan, (B6) filter, (B7) compressor, (B8) drainpipe, (B9) evaporating pan, (B10) secondary condenser, (B11) thermal insulation board.

In the drawings: on (A1) of (A) refrigerator refrigerator top cover, have (A0) heat pipe patchhole and be connected (A1-1) supply socket; (A5) refrigerating chamber lower end of upper end is connecting (A6) evaporator room in (A) refrigerator, in (A6) evaporator room, connecting (B1-1) evaporimeter, connecting (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber in the lower end of (A6) evaporator room in turn and constituting the cooling source and be connected the device that produces cold air.

In Fig. 6～Figure 13: (A5) refrigerating chamber, (A) refrigerator, (A1) refrigerator top cover, (A1-1) supply socket, (A0) heat pipe patchhole, (C) cold/heating air conditioner, (C1) ventilation guard, (E) fan, (K) fan power supply switch, (C0) cold/warm air conditioner inner chamber, (D1) heat pipe, (D1-1) condensation segment, (D1-2) adiabatic section, (D1-3) evaporator section, (B1-1) evaporimeter, (B3) condenser, (K) fan power supply switch, (E2) cold/heating air conditioner connects attaching plug, (A3) refrigerator right side wall, (A5) refrigerating chamber, (A5-0) frozen goods position, (A6) evaporator room, (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber, (B1-1) evaporimeter, (F) the dual-purpose lid of refrigerator/heat source case.

In the drawings: (C) cold/heating air conditioner by (C0) cold/(D1) heat pipe that the warm air conditioner inner chamber connects and (E) fan and (K) fan power supply switch and (C1) take a breath (E2) that guard is being connected below the bottom cold/heating air conditioner connection attaching plug forms; (C) cold/connecting (D1-1) condensation segment (D1-2) adiabatic section of (D1) heat pipe and (D1-3) evaporator section in the heating air conditioner; (D1) (D1-2) adiabatic section of connecting of heat pipe (D1-1) condensation segment and (D1-3) evaporator section from (C) cold/bottom of heating air conditioner pass insert be connected formed in (A5) refrigerating chamber dual-purpose (C) cold/the heating air conditioner device; (A5-0) frozen goods position is left in middle part in (A5) refrigerating chamber, and (D1) (D1-3) evaporator section of heat pipe connection is by the outer ring of " U " font layout in (A5) refrigerating chamber; (C) (D1-3) evaporator section that (D1) heat pipe connects in cold/heating air conditioner from (C) cold/bottom of heating air conditioner passes (A0) heat pipe patchhole that inserts in (A1) refrigerator top cover that is connected (A) refrigerator and is connected in (A5) refrigerating chamber, simultaneously, (C) cold/heating air conditioner lower end (E2) that connecting cold/heating air conditioner connects attaching plug and inserts in (A1-1) supply socket in (A1) refrigerator top cover that is connected (A) refrigerator and constituted refrigerator-type cold air conditioner apparatus; Take off dual-purpose (C) that (A1) refrigerator top cover of (A) refrigerator connects above cold/heating air conditioner, cover the dual-purpose lid of (F) refrigerator/heat source case again and just constituted the refrigerator device.

Embodiment two:

In Figure 14: (A) refrigerator, (A5) refrigerating chamber, (A6) evaporator room, (F) the dual-purpose lid of refrigerator/heat source case, (W) inhale cold grid, (M) thermocouple temperature difference electricity generation device, (M0) outer cover, (B1-1) evaporimeter, (B3) condenser, (C) cold/heating air conditioner, (C1) ventilation guard, (E) fan, (K) fan power supply switch, (D1) heat pipe, (D1-1) condensation segment, (D1-2) adiabatic section, (D1-3) evaporator section, (D2) heat pipe, (D2-1) condensation segment, (D2-2) adiabatic section, (D2-3) evaporator section, (J) thermocouple, (J1) huyashi-chuuka (cold chinese-style noodles), (J3) power line, (J2) hot side, (J4) power line, (J5) thermocouple power supply output plug, (DC1) input supply socket, (DC2) connect electric wire, (DCX) accumulator box, (DCT) charging-discharging controller, (DC) battery, (DC3) connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) connect electric wire, (DC7) power supply gang socket, (G) heat source case, (G1-3) power connecting plug, (H) temperature controller, (H1) temperature sensor, (L) electric heater, (L1) Connection Block, (00) thermal source (water or superconducting fluid), (G) heat source case, (E2) cold/heating air conditioner connects attaching plug, (G1-1) cold/heating air conditioner power supply gang socket.

In the drawings: (B1-1) evaporimeter one side that connects in (A6) of (A) refrigerator evaporator room is connecting (J4) power line that (J3) power line that (J1) huyashi-chuuka (cold chinese-style noodles) that (W) inhale cold grid and (J) thermocouple is connected is connected with (J2) hot side in turn, imports supply socket by (J5) thermocouple power supply output plug connection (DC1); Connecting (D2-1) condensation segment that (D2) heat pipe connects, (D2-2) adiabatic section and (D2-3) evaporator section at (J2) of (J) thermocouple hot side; (D2-3) evaporator section is connecting a side of (B3) condenser; Periphery at (J) thermocouple and (D2) heat pipe is being connected insulation (M0) outer cover; (DC1) the input supply socket is connecting (DC2) and is connecting (DC) battery that electric wire is connected with (DCT) charging-discharging controller in (DCX) accumulator box, (DC3) connection electric wire and (DC4) power output socket, be connected electric wire and (DC7) power supply gang socket with (DC6) by (DC5) attachment plug, constituted thermocouple generating-charging of the present invention-electric supply installation.

Embodiment three:

In Figure 15～Figure 16: (F) the dual-purpose lid of refrigerator/heat source case, (G) heat source case, (G1) left side wall, (G1-1) cold/heating air conditioner power supply gang socket, (G1-3) power connecting plug, (G2) heat source case top, (G3) heat pipe patchhole, (G4) thermal source inner chamber, (G5) universal wheel, (H) temperature controller, (H1) temperature sensor, (L) electric heater, (L1) Connection Block, (00) thermal source (water or superconducting fluid), (C) cold/heating air conditioner, (C1) ventilation guard, (E1) fan power supply line, (E2) cold/heating air conditioner connects attaching plug, (K) fan power supply switch, (E) fan, (D1) heat pipe, (D1-1) condensation segment, (D1-2) adiabatic section, (D1-3) evaporator section.

In the drawings: the dual-purpose lid of (F) refrigerator/heat source case that takes off (G2) heat source case top connection of (G) heat source case; Connecting on (G2) of (G) heat source case heat source case top (G1-1) cold/gang socket of heating air conditioner power supply and (G3) heat pipe patchhole; Connecting (G1-3) power connecting plug, (H) temperature controller and (L1) Connection Block at (G1) of (G) heat source case left side wall; In (G4) of (G) heat source case thermal source inner chamber, connecting (H1) temperature sensor and (L) electric heater, and inject (00) thermal source (water or superconducting fluid); (G) heat source case the bottom connecting (G5) universal wheel; Connecting on (G2) of (G) heat source case heat source case top (C) cold/heating air conditioner; (C) (E2) of cold/heating air conditioner cold/heating air conditioner connect attaching plug be connected with (G2) heat source case top of (G) heat source case (G1-1) cold/heating air conditioner power supply gang socket connection; (G3) heat pipe patchhole of (D1-3) evaporator section that (D1-1) condensation segment of (D1) heat pipe that (C) is connecting in cold/heating air conditioner is connected with (D1-2) adiabatic section above (G2) heat source case top of (G) heat source case is inserted in interior connection of (G4) thermal source inner chamber of (G) heat source case, constituted the heating installation case apparatus of heating gas of the present invention.

Embodiment four:

In Figure 17: (F) the dual-purpose lid of refrigerator/heat source case, (G) heat source case, (G1) left side wall, (G4) thermal source inner chamber, (G1-3) power connecting plug, (H) temperature controller, (H1) temperature sensor, (H2) temperature control power line, (L) electric heater, (L1) Connection Block, (QQ) shower bath, (K0) pump power switch, (QX) connect the mouth of pipe, (00) water, (Q1) water pump, (Q2) cornue, (Q3) vertical pipes, (Q4) pipe in the vertical adjusting, (Q5) shower head handle, (Q6) shower nozzle.

In the drawings: the top ports connection at (G) heat source case is covered with the dual-purpose lid of (F) refrigerator/heat source case, injects (00) water in (G4) of (G) heat source case thermal source inner chamber;

Connecting (G1-3) power connecting plug, (H) temperature controller and (L1) Connection Block at (G1) of (G) heat source case left side wall; In (G4) of (G) heat source case thermal source inner chamber, connecting (H1) temperature sensor and (L) electric heater, and inject (00) thermal source (water); (G) heat source case the bottom connecting (G5) universal wheel;

(QX) in the opposite side lower end of (G) heat source case connects the mouth of pipe and connects pipe (Q1) water pump, (Q2) cornue, (Q3) vertical pipes, (Q4) vertical adjusting in, (Q5) shower head handle and (K0) pump power switch and (Q6) shower nozzle in turn, constituted shower bath of the present invention.

Embodiment five:

In Figure 18: (EE) dual-purpose cold/heating air conditioner, (E) fan, (E1) power line, (E2) cold/heating air conditioner connects attaching plug, (K) fan power supply switch, (AA) pipe-thermocouple generating set, (A1-1) supply socket, (A1-2) connect power line, (A1-3) attachment plug, (A1-4) power supply gang socket, (J) thermocouple, (J1) huyashi-chuuka (cold chinese-style noodles), (J3) power line, (J2) hot side, (J4) power line, (J5) thermocouple power supply output plug, (DC1) input supply socket, (DC2) connect electric wire, (DCT) charging-discharging controller, (DC) battery, (DC3) connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) connect electric wire, (DC7) power supply gang socket, (GG) heating installation/hot water apparatus, (G1-1) heat source case supply socket, (G1-2) connect power line, (G1-3) attaching plug, (E2) cold/heating air conditioner connects attaching plug, (K) fan power supply switch, (H) temperature controller, (H1) temperature sensor, (H2) electric power connection line, (H3) power switch connecting line, (L) electric heater, (QQ) shower bath, (K0) pump power switch, (QX) connect the mouth of pipe, (00) hot water, (Q1) water pump, (K02) pump power switch connecting line, (K03) pump power connecting line, (Q2) cornue, (Q3) vertical pipes, (Q4) vertical adjusting pipe, (Q5) shower head handle, (Q6) shower nozzle.

In the drawings: (EE) dual-purpose cold/(E1) power line of (E) fan of connecting in turn in the heating air conditioner and (K) fan power supply switch and (E2) cold/heating air conditioner be connected interior (A1-1) supply socket of attaching plug and (AA) pipe-thermocouple generating set and be connected;

(AA) (A1-1) supply socket in the pipe-thermocouple generating set connects and is connecting (A1-2) connection power line in turn, (A1-3) attachment plug connects the gang socket of (A1-4) power supply again; (J) (J4) power line of (J1) huyashi-chuuka (cold chinese-style noodles) of thermocouple and (J3) power line and (J2) hot side is connected (DC1) input supply socket, (DC2) in turn through (J5) thermocouple power supply output plug and connects electric wire, (DCT) charging-discharging controller, (DC) battery, (DC3) and connect electric wire, (DC4) power output socket and connect in turn that (DC5) attachment plug, (DC6) connect electric wire, the gang socket of (DC7) power supply gang socket (DC7) power supply connects (G1-3) attaching plug more again; (GG) heating installation/hot water apparatus is connected power line through the supply socket of (G1-1) heat source case and connects (G1-3) attaching plug, (H) temperature controller, (H1) temperature sensor, (H2) electric power connection line, (H3) power switch connecting line, (L1) Connection Block, (L) electric heater in turn with (G1-2); (QQ) shower bath connects (Q5) shower head of (Q6) shower nozzle connection last (K0) pump power switch by (K02) pump power switch connecting line of (Q1) water pump connection, (K03) the pump power connecting line is connected the power line connection with (G1-2), and the circuit that has constituted system and device of the present invention connects.

Claims (9)

1. Refrigerator-type cold/multifunctional system device of warm air conditioner-generating and shower, comprise by (A) refrigerator, (EE) dual-purpose cold/heating air conditioner, (M) thermocouple temperature difference electricity generation device, the dual-purpose lid of (F) refrigerator/heat source case, (DC) battery, (GG) heating installation/hot water apparatus, (G) heat source case, (QQ) shower bath; (B1-1) evaporimeter, (B1-2) evaporimeter, (B2) air intake duct, (B3) condenser, (B4) drain pan, (B4-1) capillary, (B4-2) capillary, (B6) filter, (B7) compressor, (B8) drainpipe, (B9) evaporating pan, (B10) liquid reservoir, (B11) two-position three-way valve, (B12) device for drying and filtering, (B13) secondary condenser, (B14) thermal insulation board, (A1) refrigerator top cover, (A1-1) supply socket, (A1-2) connect power line, (A1-3) attachment plug, (A1-4) power supply gang socket, (A0) heat pipe patchhole, (A2) refrigerator left side wall, (A3) refrigerator right side wall, (A4) refrigerator bottom, (A5) refrigerating chamber, (A5-0) freezing chamber, (A6) evaporator room, (B1-1) evaporimeter, (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber, (C) cold/heating air conditioner, (C1) ventilation guard, (C0) cold/warm air conditioner inner chamber, (E) fan, (E1) fan power supply line, (E2) cold/heating air conditioner connects attaching plug, (K) fan power supply switch, (D1) heat pipe, (D1-1) condensation segment, (D1-2) adiabatic section, (D1-3) evaporator section, (D2) heat pipe, (D2-1) condensation segment, (D2-2) adiabatic section, (D2-3) evaporator section, (M0) outer cover, (W) inhale cold grid, (J) thermocouple, (J1) huyashi-chuuka (cold chinese-style noodles), (J3) power line, (J2) hot side, (J4) power line, (J5) thermocouple power supply output plug, (DC1) input supply socket, (DC2) connect electric wire, (DCT) charging-discharging controller, (DC3) connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) connect electric wire, (DC7) power supply gang socket, (G1) left side wall, (G1-1) heat source case supply socket, (G1-2) connect power line, (G1-3) power connecting plug, (G2) heat source case top, (G3) heat pipe patchhole, (G4) thermal source inner chamber, (G5) universal wheel, (H) temperature controller, (H1) temperature sensor, (H2) temperature control power line, (K02) pump power switch connecting line, (H3) power switch connecting line, (L) electric heater, (L1) Connection Block, (K0) pump power switch, (QX) connect the mouth of pipe, (00) hot water, (Q1) water pump, (Q2) cornue, (Q3) vertical pipes, (Q4) vertical adjusting pipe, (Q5) shower head handle, (Q6) shower nozzle, (00) thermal source (water or superconducting fluid), (X) low-temperature receiver or cold air, (Z) thermal source or heating installation constitute, and it is characterized in that; (A) (B1-1) evaporimeter in the refrigerator and (B3) condenser are being connected (J) thermocouple respectively and are connected with (D1) heat pipe and carry out thermo-electric generation warp (J5) thermocouple power supply output plug and connecting (DC1) in turn and import supply socket, (DCT) charging-discharging controller connect (DC) battery be connected (G1-3) power connecting plug of (G) heat source case one side with the gang socket of (DC7) power supply and connecting in turn (L1) Connection Block and (H1) temperature sensor that (L) electric heater is connected with (H) temperature controller reach (C) on (Q6) shower nozzle of (Q1) water pump connection and (G) heat source case top cold/heating air conditioner, (F) the dual-purpose lid of refrigerator/heat source case cold with (C)/heating air conditioner is connected with the top of (A) refrigerator with (G) heat source case respectively, constitute refrigerator-type of the present invention cold/multifunctional system device of warm air conditioner-generating and shower.
2. 2. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that; (B7) compressor connects (B3) condenser, (B12) device for drying and filtering, (B11) two-position three-way valve, (B4-1) capillary and (B1-1) evaporimeter, (B4-2) capillary and (B1-2) evaporimeter, (B10) liquid reservoir in turn, is connected (B7) compressor again and constitutes the loop and just formed refrigerator.
3. 3. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that; Connecting in (A5) refrigerating chamber upper end of (A) refrigerator (B1-1) evaporimeter upper end (C) cold/heating air conditioner; And (C) cold/connecting (D1-1) condensation segment, (D1-2) adiabatic section of (D1) heat pipe and (D1-3) evaporator section in the heating air conditioner; (D1) (D1-2) adiabatic section of connecting of heat pipe (D1-1) condensation segment and (D1-3) evaporator section from (C) cold/bottom of heating air conditioner passes to insert and is connected in (A5) refrigerating chamber; (D1-2) adiabatic section connect (C) cold/hole of the bottom face of heating air conditioner in and (A5) constituted low-temperature receiver in the hole of refrigerating chamber top end face and transmitted thermantidote; A side of (A) refrigerator back side (B1-1) evaporimeter connecting in turn (W) inhale cold grid and (J) the thermocouple one side (J1) huyashi-chuuka (cold chinese-style noodles) and (J2) hot side of (J3) power line and another side and (J4) power line and (J5) thermocouple power supply output plug form cooling source end, (J) (J2) hot side of thermocouple (D2-1) condensation segment of connecting (D2) heat pipe is connected the end composition supplying heat source end of (B3) condenser with (D2-3) evaporator section through (D2-2) adiabatic section, has constituted (M) thermocouple temperature difference electricity generation device; (J5) thermocouple power supply output plug is connecting (DC1) input supply socket in turn, (DC2) connect electric wire, (DCT) charging-discharging controller, (DC) battery, (DC3) connect electric wire, (DC4) power output socket, (DC5) attachment plug, (DC6) connect electric wire, (DC7) power supply gang socket formed be connected (G1-3) power connecting plug of (G) heat source case one side for the gang socket of electric supply installation (DC7) power supply (DC) charge in batteries and connecting in turn (L1) Connection Block and (H1) temperature sensor that (L) electric heater is connected with (H) temperature controller reach (C) on (G) heat source case top cold/heating air conditioner; And (C) cold/connecting (D1-1) condensation segment, (D1-2) adiabatic section of (D1) heat pipe and (D1-3) evaporator section in the heating air conditioner; (D1) (D1-2) adiabatic section of connecting of heat pipe (D1-1) condensation segment and (D1-3) evaporator section from (C) cold/bottom of heating air conditioner passes to insert and is connected in (G) heat source case; (C) cold/connecting (E) fan outside in the heating air conditioner and connecting (C1) ventilation guard; (00) thermal source (water or superconducting fluid) is housed in (G) heat source case.
4. 4. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that; On (A1) of (A) refrigerator refrigerator top cover, have (A0) heat pipe patchhole and be connected (A1-1) supply socket; (A5) refrigerating chamber lower end of upper end is connecting (A6) evaporator room in (A) refrigerator, in (A6) evaporator room, connecting (B1-1) evaporimeter, connecting (A7) refrigerating chamber, (A8) refrigerating chamber, (A9) refrigerating chamber in the lower end of (A6) evaporator room in turn and constituting the cooling source and be connected the device that produces cold air.
5. 5. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that; (C) cold/heating air conditioner by (C0) cold/(D1) heat pipe that the warm air conditioner inner chamber connects and (E) fan and (K) fan power supply switch and (C1) take a breath (E2) that guard is being connected below the bottom cold/heating air conditioner connection attaching plug forms; (C) cold/connecting (D1-1) condensation segment (D1-2) adiabatic section of (D1) heat pipe and (D1-3) evaporator section in the heating air conditioner; (D1) (D1-2) adiabatic section of connecting of heat pipe (D1-1) condensation segment and (D1-3) evaporator section from (C) cold/bottom of heating air conditioner pass insert be connected formed in (A5) refrigerating chamber dual-purpose (C) cold/the heating air conditioner device; (A5-0) frozen goods position is left in middle part in (A5) refrigerating chamber, and (D1) (D1-3) evaporator section of heat pipe connection is by the outer ring of " U " font layout in (A5) refrigerating chamber; (C) (D1-3) evaporator section that (D1) heat pipe connects in cold/heating air conditioner from (C) cold/bottom of heating air conditioner passes (A0) heat pipe patchhole that inserts in (A1) refrigerator top cover that is connected (A) refrigerator and is connected in (A5) refrigerating chamber, simultaneously, (C) cold/heating air conditioner lower end (E2) that connecting cold/heating air conditioner connects attaching plug and inserts in (A1-1) supply socket in (A1) refrigerator top cover that is connected (A) refrigerator and constituted refrigerator-type cold air conditioner apparatus; Take off dual-purpose (C) that (A1) refrigerator top cover of (A) refrigerator connects above cold/heating air conditioner, cover the dual-purpose lid of (F) refrigerator/heat source case again and just constituted the refrigerator device.
6. 6. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that: (B1-1) evaporimeter one side that connects in (A6) of (A) refrigerator evaporator room is connecting (J4) power line that (J3) power line that (J1) huyashi-chuuka (cold chinese-style noodles) that (W) inhale cold grid and (J) thermocouple is connected is connected with (J2) hot side in turn, imports supply socket by (J5) thermocouple power supply output plug connection (DC1); Connecting the side that (D2-1) condensation segment, (D2-2) adiabatic section and (D2-3) evaporator section (D2-3) evaporator section that (D2) heat pipe connects are being connected (B3) condenser at (J2) of (J) thermocouple hot side; Be connected insulation (M0) outer cover (DC1) input supply socket is connecting (DC2) and is connecting (DC) battery that electric wire is connected with (DCT) charging-discharging controller (DCX) accumulator box in, (DC3) connection electric wire and (DC4) power output socket in the periphery of (J) thermocouple and (D2) heat pipe, be connected electric wire and (DC7) power supply gang socket with (DC6) by (DC5) attachment plug, constituted thermocouple generating-charging of the present invention-electric supply installation.
7. 7. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that: take off the dual-purpose lid of (F) refrigerator/heat source case that (G2) heat source case top of (G) heat source case connects; Connecting on (G2) of (G) heat source case heat source case top (G1-1) cold/gang socket of heating air conditioner power supply and (G3) heat pipe patchhole; Connecting (G1-3) power connecting plug, (H) temperature controller and (L1) Connection Block at (G1) of (G) heat source case left side wall; In (G4) of (G) heat source case thermal source inner chamber, connecting (H1) temperature sensor and (L) electric heater, and inject (00) thermal source (water or superconducting fluid); (G) heat source case the bottom connecting (G5) universal wheel; Connecting on (G2) of (G) heat source case heat source case top (C) cold/heating air conditioner; (C) (E2) of cold/heating air conditioner cold/heating air conditioner connect attaching plug be connected with (G2) heat source case top of (G) heat source case (G1-1) cold/heating air conditioner power supply gang socket connection; (G3) heat pipe patchhole of (D1-3) evaporator section that (D1-1) condensation segment of (D1) heat pipe that (C) is connecting in cold/heating air conditioner is connected with (D1-2) adiabatic section above (G2) heat source case top of (G) heat source case is inserted in interior connection of (G4) thermal source inner chamber of (G) heat source case, constituted the heating installation case apparatus of heating gas of the present invention.
8. 8. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that; Top ports connection at (G) heat source case is covered with the dual-purpose lid of (F) refrigerator/heat source case, injects (00) water in (G4) of (G) heat source case thermal source inner chamber;

   Connecting (G1-3) power connecting plug, (H) temperature controller and (L1) Connection Block at (G1) of (G) heat source case left side wall; In (G4) of (G) heat source case thermal source inner chamber, connecting (H1) temperature sensor and (L) electric heater, and inject (00) thermal source (water); (G) heat source case the bottom connecting (G5) universal wheel;

   (QX) in the opposite side lower end of (G) heat source case connects the mouth of pipe and connects pipe (Q1) water pump, (Q2) cornue, (Q3) vertical pipes, (Q4) vertical adjusting in, (Q5) shower head handle and (K0) pump power switch and (Q6) shower nozzle in turn, constituted shower bath of the present invention.
9. 9. refrigerator-type according to claim 1 is cold/multifunctional system device of warm air conditioner-generating and shower, it is characterized in that; (EE) dual-purpose cold/(E1) power line of (E) fan of connecting in turn in the heating air conditioner and (K) fan power supply switch and (E2) cold/heating air conditioner be connected interior (A1-1) supply socket of attaching plug and (AA) pipe-thermocouple generating set and be connected; (AA) (A1-1) supply socket in the pipe-thermocouple generating set connects and is connecting (A1-2) connection power line in turn, (A1-3) attachment plug connects the gang socket of (A1-4) power supply again; (J) (J1) huyashi-chuuka (cold chinese-style noodles) of thermocouple is connected (DC1) input supply socket in turn with (J4) power line warp (J5) thermocouple power supply output plug of (J3) power line and (J2) hot side, (DC2) connects electric wire, (DCT) charging-discharging controller, (DC) battery, (DC3) connection electric wire, connection (DC5) attachment plug in turn again of (DC4) power output socket, (DC6) connection electric wire, the gang socket of (DC7) power supply; (DC7) power supply gang socket connects (G1-3) attaching plug again; (GG) heating installation/hot water apparatus is connected power line through the supply socket of (G1-1) heat source case and connects (G1-3) attaching plug, (H) temperature controller, (H1) temperature sensor, (H2) electric power connection line, (H3) power switch connecting line, (L1) Connection Block, (L) electric heater in turn with (G1-2); (QQ) shower bath connects (Q5) shower head of (Q6) shower nozzle connection last (K0) pump power switch by (K02) pump power switch connecting line of (Q1) water pump connection, (K03) the pump power connecting line is connected the power line connection with (G1-2), and the circuit that has constituted system and device of the present invention connects.

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