CN201383776Y - Multifunctional household appliance using temperature difference between cold water and hot water in vacuum flask to generate power - Google Patents

Abstract

The utility model discloses multifunctional household appliance using temperature difference between the cold water and the hot water in vacuum flask to generate power, which consists of a thermocouple, a heat pipe, a heat pipe radiator/ the thermocouple, a vacuum flask temperature difference generator and a handheld power generation cold/hot fan; the vacuum flask available in each family is filled with the hot water and the cold water for power generation, and filling the hot water once can generate power for 8-12 hours. The household appliance can be used for generating the power and charging, and has obvious effect particularly for the direct power utilization and the charging of the electric motor car. The household appliance can be used for various lamps and electrical appliances such as a non-electric and portable mini-type cold/warm air conditioner and the like without needing a battery, even without charging for the battery, is a future new energy resource with wide purposes, has the advantages of great social and economic benefits, low cost and easy installation and maintenance, is specially used for providing the power for cities, countries, organ, business, hospitals, armies, schools and field work, and is an ideal, free and environment-friendly green energy.

Description

A kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation

Affiliated technical field:

Energy-saving field and thermo-electric generation: with the thermo-electric generation and the miniature portable hand-holding type air conditioner of vacuum flask cold/heat source.

Background technology:

The thermo-electric generation technology is mainly used in scientific research, military affairs and space space industry at present, does not still have report with the thermo-electric generation technology of the cold/hot water in the vacuum flask.

Summary of the invention:

The ultimate challenge that 21st century is faced is exactly the energy! Having only solar energy is the most permanent energy.Decision-making strategically, development and use solar energy is as the nonvolatil energy of the mankind! We can say that it is " inexhaustible ".

Solve from the tactics innovation:

Rationally utilizing various resources, reduce the cost of its exploitation and conversion, is the important topic that faces in the new energy development.

According to above-mentioned present situation, the inventor has researched and developed out the patented technology of " a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation ".

Innovative point of the present invention is: the altitude temperature difference effect that utilizes solar energy to produce just can be used for round-the-clock thermo-electric generation.This has just solved the global problem of collecting, changing and store in the solar energy utilization.

One, thermal source can be stored thermal source with the temperature of high-temperature water (80 ℃～100 ℃) and air (30 ℃～45 ℃); Low-temperature receiver can be with running water (1 ℃～30 ℃) (available electric heater carries out complementation, economize on electricity more than 60%～80%) or various refrigerant (50 ℃～170 ℃) and winter environment low temperature (0 ℃～-40 ℃); Also the available electron refrigerating sheet carries out temperature difference adjustment.

Two, selected the thermo-electric generation sheet of thermocouple for use; If every two sides thermal gradient energy is at 60 ℃, then generating voltage can reach 3.5V, and electric current can reach 5A～50A～100A.The semiconductor thermoelectric generating has characteristics such as noiselessness, life-span length, stable performance.Can in subzero 40 degrees centigrade cold environment, start rapidly, therefore obtain application more and more widely in practice.

Three, selected super heat-conductive pipe for use; Big heat-transfer capability is arranged, and itself does not consume energy, movement-less part simple in structure and noise.Transmission course almost is an isothermal heat transfer, and thermal losses can be ignored substantially, a large amount of heats can be realized that by minimum sectional area remote transmission fast need not additionaling power.

Four, the utility model device, can be used for " generating " and " charging ", particularly to the direct electricity consumption and the charging of battery-operated motor cycle, has significant effect, do not need storage battery, more do not need storage battery is charged, just can be directly used in various " light fixtures " and non-electric, portable miniature cold/electrical appliances such as heating air conditioner.

Five, the utility model device is reproducible green energy resource.To be to solve the best that China and world energy sources jeopardize and effective technical means and scheme.

The technical scheme that its technical problem that solves the utility model adopts:

Adopted the super heat-conductive pipe technology in the utility model: " heat pipe " claims " super heat-conductive pipe " or " medium heat conduction pipe " again, is a kind of novel heat-conduction component that developed recently gets up.It has broken traditional is the heat transfer type of medium with water, a large amount of heats can be realized that by minimum sectional area remote transmission fast need not additionaling power, thereby realize purpose efficient, energy-conservation, low consumption.After tested, its heat transfer rate can reach 80～100 cels, is thousands of times of good conductors such as silver, copper, aluminium; Transmission course almost is an isothermal heat transfer, and thermal losses can be ignored substantially; And useful life was up to extremely tens thousand of hours up to ten thousand." heat pipe " has bigger heat-transfer capability, and heat pipe has been organized the less boiling of thermal resistance and the two kinds of phase transition process that condense cleverly, the conductive coefficient that makes it up to the several times of red copper conductive coefficient so that thousands of times." heat pipe " do not need delivery pump and seal lubrication, movement-less part simple in structure and noise.As: a heavy 0.34kg of long 0.6m diameter 13mm " heat pipe " carries the 200W energy under 100 ℃ of working temperatures, 0.5 ℃ of its temperature drop is 22.7kg and carry with the same long solid copper bar weight of homenergic, and the temperature difference is up to 70 ℃.The cold and hot fluid of " heat exchange of heat pipe " fully separately flows, and can be relatively easy to realize the complete countercurrent flow of cold and hot fluid; Simultaneously cold fluid and hot fluid all flows in that pipe is outer, because the outer heat exchange coefficient that flows of pipe is far above heat exchange coefficient mobile in the pipe, and the both sides heating surface all can adopt extended surface, and the recovery that is used for the lower heat energy of grade is very economical.

The characteristics of hot pipe technique: 1, high-speed thermal conduction effect; 2, in light weight and simple structure; 3, Temperature Distribution is average, can do the action of samming or isothermal; 4, big, the hot transmitting range of heat transfer amount is long; 5, there is not driving component, not power consumption itself; 6, can under the environment in the agravic field of force, use; 7, do not have heat to pass the restriction of direction, evaporation ends and condenser can be exchanged; 8, process easily to change the heat transfer direction; 9, durable, life-span length, reliable, keeping easy to store; 10, cheap.

Two, adopted thermocouple semiconductor temperature differential generating technology in the utility model:

Thermo-electric generation is a kind of novel generation mode, utilizes the Sai Beier effect that heat energy directly is converted to electric energy.

Semiconductor thermoelectric generation technology, its operation principle are at two semiconductor of different nature two ends a temperature difference to be set, so just produced direct voltage on semiconductor.Semiconductor generator so that semi-conductor thermo-electric generation module is made can generate electricity as long as there is the temperature difference to exist.

Semiconductor thermoelectric generates electricity that its internal resistance is little, high temperature resistant, when work noiselessness, pollution-free, characteristics such as non-maintaining, life-span length, stable performance, thereby be a kind of widely used portable power supplies.Can in subzero 40 degrees centigrade cold environment, start rapidly, therefore obtain application more and more widely in practice.

This electricity-generating method is that cold/heat energy directly is transformed into electric energy, and it is not only relevant with two junction temperatures, and relevant with used property of conductor.The advantage of this power generating method is the mechanical part that does not have rotation, does not have wear phenomenon, so can use for a long time, needs the very high thermal source of temperature but desire to reach high efficiency, and stacked (cascade or the staging) that utilize several layers of pyroelectric sometimes is to reach high efficiency effect.If the two sides thermal gradient energy reaches 60 degree Celsius, then generating voltage can reach 3.5V, and electric current can reach more than the 5A.

More and more higher along with the cry of protection environment, energy savings, to utilize thermo-electric generation be exactly the general orientation of development, from the miniature device to the large-scale power station, be applied to the practice from the laboratory theory more and more and go.

Innovative point of the present utility model is:

Just can generate electricity with hot water and cold water, simultaneously can be without accumulator jar.

Technology path one: (A1) power supply output line of thermocouple plate (A1+) positive electrode (A1-) negative electrode, (A1) (A1-1) thermal source face of thermocouple and (A1-2) low-temperature receiver face; (A2) thermocouple plate power supply output line (A2+) positive electrode (A2-) negative electrode, (A2) (A2-1) thermal source face (A2-2) low-temperature receiver face of thermocouple; (A1) (A1+) positive electrode of the power supply output line of thermocouple plate connects load power source, (A1-) negative electrode is connected in series with (A2) (A1+) positive electrode of thermocouple, (A2) thermocouple plate power supply output line (A2-) negative electrode connects load power source, has formed the circuit of series-fed; (A1) thermocouple plate (A2) thermocouple plate that is connected in series is formed the out-put supply of 7V (6V) DC generation; Can form 14V (12V) with 4 (A) thermocouple series connection; If association can increase output current, if the multi-disc series connection can improve output voltage again.

Technology path two: (C) (C1) heat-pipe radiator of heat-pipe radiator by (C1-1) left radiator piece and (C1-2) right radiator piece tie to connect through (D) Luo and form; Have on the right of (C1-1) left radiator piece (C0) heat pipe condenser section fixedly circular hole semicircle orifice, connecting (CA) left side in the bottom and connect frame, have (C0-1) left connecting hole in the front; Have on the left side of (C1-2) right radiator piece (C0) heat pipe condenser section fixedly circular hole semicircle orifice, connecting (CB) in the left side and connect frame, have (C0-2) left connecting hole in the front; Left and right sides radiator piece (C0) the heat pipe condenser section fixedly semicircle orifice of circular hole ties through (D) Luo and has constituted fixedly circular hole of (C0) heat pipe condenser section after connecing.

Technology path three: (C1) (C0) heat pipe condenser section of (C1-1) left radiator piece of heat-pipe radiator (B1-1) condensation segment (B1-2) adiabatic section of fixedly connecting (B1) heat pipe in the circular hole and (B1-0) of outer ring adiabatic plug and (B1-3) evaporation section; (C1-2) (C0) heat pipe condenser section of right radiator piece fixedly connects (B2) heat pipe, (B2-1) condensation segment, (B2-2) adiabatic section and (B1-0) of outer ring adiabatic plug and (B2-3) evaporation section in the circular hole; Through (D1) and (D2) the Luo bolt insert (C0-1) left connecting hole and (C0-2) connect to form same one in the right piece connecting hole; (CB1) connect with being connected of (CB2) heat-pipe radiator with (C1) heat-pipe radiator; (A1-1) thermal source face that connects (A2) thermocouple plate left side of (A1) thermocouple plate and series connection in (CB1) high temperature face of (CB-1) cold/hot cup and heat pipe radiator; (A1) (A2-2) low-temperature receiver face on (A2) thermocouple plate right side of thermocouple plate and series connection; (CB2) low temperature face that is connected (CB-2) cold water radiator again connects; Tie through (D3) Luo and to meet (CB1) and be connected frame with (CB2); (C/B) (CB-1) heat-pipe radiator of heat-pipe radiator ties through (D3) Luo and connects (CB-2) heat-pipe radiator and formed (2C/A) thermoelectric generator.

Technology path four: (C1) (C0) heat pipe condenser section of (C1-1) left radiator piece of heat-pipe radiator (B1-1) condensation segment (B1-2) adiabatic section of fixedly connecting (B1) heat pipe in the circular hole and (B1-0) of outer ring adiabatic plug and (B1-3) evaporation section; (C1-2) (C0) heat pipe condenser section of right radiator piece fixedly connects (B2) heat pipe, (B2-1) condensation segment, (B2-2) adiabatic section and (B1-0) of outer ring adiabatic plug and (B2-3) evaporation section in the circular hole; Insert through (D1) and (D2) Luo bolt and to connect to form same (C1) heat-pipe radiator connection of being connected of same one (CB1) and (CB2) heat-pipe radiator in (C0-1) left connecting hole and (C0-2) right piece connecting hole; (A1-1) thermal source face that connects (A2) thermocouple plate left side of (A1) thermocouple plate and series connection in (CB1) high temperature face of (CB-1) cold/hot cup and heat pipe radiator; (A1) (A2-2) low-temperature receiver face on (A2) thermocouple plate right side of thermocouple plate and series connection; (CB2) low temperature face that is connected (CB-2) cold water radiator again connects; Tie through (D3) Luo and to meet (CB1) and be connected frame with (CB2); (C/B) (CB-1) heat-pipe radiator of heat-pipe radiator ties through (D3) Luo and connects (CB-2) heat-pipe radiator and formed (2C/A) thermoelectric generator.

Technology path five: (2C/A) (B2-2) adiabatic section that is connected with (B2-3) evaporation section of (B2) heat pipe of (B1-2) adiabatic section of connecting of (B1-3) evaporation section of (B1) heat pipe of thermoelectric generator and (B1-0) of outer ring adiabatic plug and (B2-0) thermal insulation of outer ring fill in that insertion respectively is connected (F1-1) B1 heat pipe hole of (F) thermoelectric generator base and (F1-2) in the B2 heat pipe hole; Be connected about (CA) of (CB-1) and (CB-2) cold/hot cup and heat pipe radiator frame and (F1-3) of (F) thermoelectric generator base and (F1-4) connecting hole with (D4) (D5) Luo tie and formed (2C/F) thermoelectric generator base after connecing; Periphery on (2C/F) thermoelectric generator base is connecting (C/E) thermoelectric generator shell; Connect (H1) and (H2) vacuum flask below, forming connection (H1) and (H2) (2C/F) thermoelectric generator base of vacuum flask; (G) (G1-3) left knot that can be undone by a pull of vacuum flask framework upper end and (G1-5) right knot that can be undone by a pull (F1-4) that be connected (F) thermoelectric generator base above (2C/F) thermoelectric generator base (F1-6) block in the angle; Be connected (F1-5) below and (F1-7) keep off the arm of angle, formed a kind of multifunctional household electrical appliance of the present utility model with vacuum flask cold/hot water thermo-electric generation.

Technology path six: in (J) radiator cowl, connecting (K) heat-pipe radiator; (K) heat-pipe radiator comprises that (B3-2) adiabatic section that connected by (B3-3) condensation segment of (B3) heat pipe and (B3-0) of outer ring adiabatic plug and (B3-1) evaporation section form; (B3-0) of (B3-2) adiabatic section and outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connect (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid just formed of the present utility model non-electric cold/warm portable hand-holding type miniature hand-held cold/fan heater.

Technology path seven: in (J) radiator cowl, connecting (K) heat-pipe radiator; (K) heat-pipe radiator comprises that (B3-2) adiabatic section that connected by (B3-3) condensation segment of (B3) heat pipe and (B3-0) of outer ring adiabatic plug and (B3-1) evaporation section form; (B3-0) of (B3-2) adiabatic section and outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connect (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid just formed of the present utility model non-electric cold/warm portable hand-holding type miniature hand-held cold/fan heater.

(K/AM) self power generation changes in temperature radiator connects (C3-1) left radiator piece by (M) pectination radiator and connects adiabatic plug in (B3-3) condensation segment (B3-2) adiabatic section (B3-0) of (B3) heat pipe and (B3-1) evaporation section; Connection (C3-2) right radiator piece and (A1) power supply output line of thermocouple plate (A1+) positive electrode, (A1-) negative electrode again connect (L) pectination heat collector again; (B3-2) (B3-0) of adiabatic section and outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connect (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid; Connect (S) mini fan and (S1) electric fan power line and (P) mains switch on the left side of (M) pectination radiator, forming the cold/warm portable hand-holding type miniature air-conditioner of self power generation of the present utility model.

The beneficial effects of the utility model:

The insulation vacuum flask that utilizes the every household all to have connects heat pipe and thermocouple and just can generate electricity.Can be used for " generating " and " charging ", particularly to the direct electricity consumption and the charging of battery-operated motor cycle, has significant effect, do not need storage battery, more do not need storage battery is charged, just can be directly used in various " light fixtures " and non-electric, portable miniature cold/electrical appliances such as heating air conditioner.

Utilize vacuum flask to carry out the regenerative resource of the round-the-clock generating of thermo-electric generation, be following a kind of new forms of energy with extensive use, on the household electricity in rural area, will have great potential especially, be free of contamination, social benefit and economic benefit with tremendous influence, cheap, be easy to by dress and maintenance, apply fast, in a single day open in its market, influence to the whole world is immeasurable, be specially adapted to the city, the rural area, office, unit, commercial field, hospital, army, school, field work is used for the usefulness of light fixture and electricity consumption, is the desirable pollution-free green energy of not spending of people.

Description of drawings:

Fig. 1: thermocouple, heat pipe and heat-pipe radiator diagram:

Fig. 1-1: thermocouple cut-away view;

Fig. 1-2: heat pipe cut-away view;

Fig. 1-3: radiator cut-away view;

Fig. 1-4: Luo bolt diagram.

Fig. 2: heat-pipe radiator is made diagram:

Fig. 2-1: left module radiator three-view drawing shows;

Fig. 2-2: right module radiator three-view drawing shows;

Fig. 2-3: about piece connect three-view drawing and show.

Fig. 3: the thermoelectric generator shell connects the framework diagram of vacuum flask:

Fig. 3-1: thermoelectric generator shell diagram;

Fig. 3-2: thermoelectric generator base diagram;

Fig. 3-3: vacuum flask framework diagram.

Fig. 4: thermoelectric generator connects diagram:

Fig. 4-1; Radiator connects the heat pipe diagram;

Fig. 4-2: radiator connects the thermocouple diagram;

Fig. 4-3: thermoelectric generator diagram.

Fig. 5: thermoelectric generator connects the base diagram:

Fig. 5-1: thermoelectric generator base diagram;

Fig. 5-2: thermoelectric generator connects the base diagram.

Fig. 6: thermoelectric generator connects vacuum flask framework diagram:

Fig. 6-1: thermoelectric generator connects the shell diagram;

Fig. 6-2: thermoelectric generator connects vacuum flask framework diagram.

Fig. 7: a kind of multifunctional household electrical appliance diagram of the present utility model with vacuum flask cold/hot water thermo-electric generation.

Fig. 8: of the present utility model non-electric cold/warm portable hand-holding type miniature hand-held cold/the fan heater cut-away view.

Fig. 9: the cut-away view of the thermoelectric generator of the cold/warm portable hand-holding type miniature air-conditioner of self power generation of the present utility model.

Figure 10: the cut-away view of the cold/warm portable hand-holding type miniature air-conditioner of self power generation of the present utility model.

Among the figure: (A) (A2) (A2-1) (A2-2) low-temperature receiver face, (A2+) positive electrode, (A2-) negative electrode of thermal source face, (A1-2) of thermocouple plate, (A1+) positive electrode, (A1-) negative electrode, (A1-1) of thermocouple, (A1); (B) (B2) (B2-3) (B2-2) (B2-0) (B2-1) (B3-1) condensation segment of (B3-0) adiabatic plug, (B1-1) of (B3-2) adiabatic section, (B1-0) of (B3-1) evaporation section, (B1-2) of (B3) heat pipe, (B1-1) of heat pipe, (B1); (D) Luo bolt; (C) heat-pipe radiator, (C1) heat-pipe radiator, (C1-1) left radiator piece, (C0-1) left connecting hole, (CA) left side connect frame, fixedly circular hole, (C1-2) right radiator piece, (C0-2) right piece connecting hole, (CB) connect frame to (C0) heat pipe condenser section; (E) thermoelectric generator shell, (E1) thermoelectric generator shell, (E1-1) base connect lateral opening, (E1-2) vertical edge, (E1-3) top cover, (E1-4) handle, (E1-5) power output socket, (E1-6) generating indicator light, (E1-7) voltage and reduce indicator light; (F) (F1-6) Ka Jiao, (F1-5) (F1-7) keep off the angle for thermoelectric generator base, (F1) thermoelectric generator base, (F1-1) B1 heat pipe hole, (F1-2) B2 heat pipe hole, (F1-3) connecting hole, (F1-4); (G) vacuum flask framework, (G1) vertical edge, (G1-1) base, (G1-2) left knot that can be undone by a pull axle, (G1-3) left knot that can be undone by a pull, the right knot that can be undone by a pull of (G1-4) right knot that can be undone by a pull axle (G1-5); (C/B) heat-pipe radiator: (C/A) heat-pipe radiator/thermocouple: (CB-1) cold/hot cup and heat pipe radiator, (CB1) high temperature face, (CB-2) cold water radiator, (CB2) low temperature face; (2C/A) thermoelectric generator; (C/A) heat-pipe radiator/thermocouple: (2C/A) thermoelectric generator; (2C/F) thermoelectric generator base; (CB-1) cold/hot cup and heat pipe radiator, (CB-2) cold water radiator, (2C/F) thermoelectric generator base; (C/E) thermoelectric generator shell; (C/G) thermoelectric generator vacuum flask framework; (C/G) thermoelectric generator vacuum flask framework; (C/G) vacuum flask thermoelectric generator; (H) vacuum flask, (H1) hot water thermal insulating bottle, (H1-0) bottle cap, (B1-0) adiabatic plug, (H2) cold water vacuum flask, (H2-0) bottle cap, (B2-0) adiabatic plug, (Z) hot water, (X) cold water; (K/H) hand-held cold/fan heater, (J) radiator cowl, (K) heat-pipe radiator, (B) heat pipe, (H3) miniature vacuum flask, (H3-0) bottle cap, (R) hand-held bottle, (W) discharge changes in temperature gas, (Y) air inlet orifice plate; (K/AM) self power generation changes in temperature radiator, (L) pectination heat collector, (M) pectination radiator, (A1-2) low-temperature receiver face, (A2-1) thermal source face, (A2-2) low-temperature receiver face; (K/AMH) cold/Hot-air fan of hand-held generating, (Z/X) hot/cold source liquid; (P) mains switch, (S) mini fan, (S1) electric fan power line, (N) shell, (N1) left panel, (N2) top panel, (T) bottom pocket.

Embodiment:

Embodiment one:

In Fig. 1: (A) thermocouple, (A1) thermocouple plate, (A1+) positive electrode, (A1-) negative electrode, (A1-1) thermal source face, (A1-2) low-temperature receiver face, (A2) thermocouple plate, (A2+) positive electrode, (A2-) negative electrode, (A2-1) thermal source face, (A2-2) low-temperature receiver face; (B) heat pipe, (B1) heat pipe, (B1-3) condensation segment, (B1-2) adiabatic section, (B1-0) adiabatic plug, (B1-1) evaporation section, (D) Luo bolt.

Among the figure: (A1) power supply output line of thermocouple plate (A1+) positive electrode (A1-) negative electrode, (A1) (A1-1) thermal source face of thermocouple and (A1-2) low-temperature receiver face; (A2) thermocouple plate power supply output line (A2+) positive electrode (A2-) negative electrode, (A2) (A2-1) thermal source face (A2-2) low-temperature receiver face of thermocouple; (A1) (A1+) positive electrode of the power supply output line of thermocouple plate connects load power source, (A1-) negative electrode is connected in series with (A2) (A1+) positive electrode of thermocouple, (A2) thermocouple plate power supply output line (A2-) negative electrode connects load power source, has formed the circuit of series-fed; (A1) thermocouple plate (A2) thermocouple plate that is connected in series is formed the out-put supply of 7V (6V) DC generation; Can form 14V (12V) with 4 (A) thermocouple series connection; If association can increase output current, if the multi-disc series connection can improve output voltage again.

But according to the form below is selected to be connected as required.

Thermocouple thermoelectric power generation device-technical parameter

(B) heat pipe: (B1) (B1-0) is adiabatic to be filled in for the junction of (B1-3) condensation segment and radiator is being connected for (B1-2) adiabatic section and in the outer ring on the top of heat pipe, and the bottom is (B1-1) evaporation section, is metal pipe material, in fill with superconduction liquid.

In Fig. 1-3 and Fig. 2: (C) heat-pipe radiator, (C1) heat-pipe radiator, (C1-1) left radiator piece, (C0-1) left connecting hole, (CA) left side are connected frame, (C0) heat pipe condenser section fixedly circular hole, (C1-2) right radiator piece, (C0-2) right piece connecting hole, (CB) connect frame; (D) Luo bolt.

In the drawings: (C) (C1) heat-pipe radiator of heat-pipe radiator by (C1-1) left radiator piece and (C1-2) right radiator piece tie to connect through (D) Luo and form; Have on the right of (C1-1) left radiator piece (C0) heat pipe condenser section fixedly circular hole semicircle orifice, connecting (CA) left side in the bottom and connect frame, have (C0-1) left connecting hole in the front; Have on the left side of (C1-2) right radiator piece (C0) heat pipe condenser section fixedly circular hole semicircle orifice, connecting (CB) in the left side and connect frame, have (C0-2) left connecting hole in the front; Left and right sides radiator piece (C0) the heat pipe condenser section fixedly semicircle orifice of circular hole ties through (D) Luo and has constituted fixedly circular hole of (C0) heat pipe condenser section after connecing.

In Fig. 3; (E) thermoelectric generator shell, (E1) thermoelectric generator shell, (E1-1) base connect lateral opening, (E1-2) vertical edge, (E1-3) top cover, (E1-4) handle, (E1-5) power output socket, (E1-6) generating indicator light, (E1-7) voltage and reduce indicator light; (F) thermoelectric generator base, (F1) thermoelectric generator base, (F1-1) B1 heat pipe hole, (F1-2) B2 heat pipe hole, (F1-3) (F1-4) connecting hole, (D4) (D5) Luo bolt, (F1-6) Ka Jiao, (F1-5) (F1-7) keep off the angle; (G) vacuum flask framework, (G1) vertical edge, (G1-1) base, (G1-2) left knot that can be undone by a pull axle, (G1-3) left knot that can be undone by a pull, (G1-4) right knot that can be undone by a pull axle, (G1-5) right knot that can be undone by a pull.

In the drawings:

(E) thermoelectric generator shell: (E1) the thermoelectric generator shell by (E1-1) base connect lateral opening, (E1-2) vertical edge, (E1-3) top cover and (E1-4) handle form; On (E1-3) top cover, connecting (E1-5) power output socket, (E1-6) generating indicator light and (E1-7) voltage reduce indicator light; (F) thermoelectric generator base: on (F1) thermoelectric generator seating plane, have (F1-1) B1 heat pipe hole and (F1-2) B2 heat pipe hole and (F1-3) connecting hole; And on (F1) thermoelectric generator seating plane, connecting (F1-4) (F1-6) Ka Jiao, connecting (F1-5) below and (F1-7) keeping off the angle; (G) the vacuum flask framework by (G1) vertical edge and (G1-1) base form; And connecting (G1-2) left knot that can be undone by a pull axle and (G1-3) the left knot that can be undone by a pull that is connected, (G1-4) right knot that can be undone by a pull axle and (G1-5) the right knot that can be undone by a pull that is connected in (G1) on two sides vertical edge upper end; (E1) (E1-1) base on the thermoelectric generator shell connect lateral opening respectively through (D4) (D5) Luo tie to connect on (F1) thermoelectric generator seating plane and have (F1-3) (F1-4) connecting hole; (F1) (F1-6) Ka Jiao of thermoelectric generator base (F1-4) that connect above (F1-7) keeps off the angle with following connection the (F1-5) and connects (G1-3) the left knot that can be undone by a pull on (G) vacuum flask framework top and (G1-5) right knot that can be undone by a pull.

In Fig. 4:

(C/B) heat-pipe radiator: (C) heat-pipe radiator, (C1) heat-pipe radiator, (C1-1) left radiator piece, (C0-1) left connecting hole, (CA) left side connect frame, (C0) heat pipe condenser section fixedly circular hole, (C1-2) right radiator piece, (C0-2) right piece connecting hole; (C/A) heat-pipe radiator/thermocouple: (CB-1) cold/hot cup and heat pipe radiator, (CB1) high temperature face, (CB-2) cold water radiator, (CB2) low temperature face, (A1) thermocouple plate, (A1+) positive pole, (A1-) negative pole, (A2) thermocouple plate, (A2+) positive pole, (A2-) negative pole, (A1-1) thermal source face, (A1-2) low-temperature receiver face, (A2-1) thermal source face, (A2-2) low-temperature receiver face; (B1) heat pipe, (B1-3) evaporation section, (B1-2) adiabatic section, (B1-1) condensation segment, (B2) heat pipe, (B2-3) evaporation section, (B2-2) adiabatic section, (B2-1) condensation segment; (2C/A) (D2) Luo bolt of thermoelectric generator, (D1).

In the drawings: (C1) (C0) heat pipe condenser section of (C0) heat pipe condenser section of (C1-1) left radiator piece of heat-pipe radiator (B1-1) condensation segment (B1-2) adiabatic section of fixedly connecting (B1) heat pipe in the circular hole and (B1-0) of outer ring adiabatic plug and the right radiator piece of (B1-3) evaporation section (C1-2) (B1-0) thermal insulation of fixedly being connected (B2) heat pipe, (B2-1) condensation segment, (B2-2) adiabatic section and outer ring in the circular hole is filled in and (B2-3) evaporation section; Through (D1) and (D2) the Luo bolt insert (C0-1) left connecting hole and (C0-2) connect to form same one in the right piece connecting hole; (CB1) connect with being connected of (CB2) heat-pipe radiator with (C1) heat-pipe radiator; (A1-1) thermal source face that connects (A2) thermocouple plate left side of (A1) thermocouple plate and series connection in (CB1) high temperature face of (CB-1) cold/hot cup and heat pipe radiator; (A1) (A2-2) low-temperature receiver face on (A2) thermocouple plate right side of thermocouple plate and series connection; (CB2) low temperature face that is connected (CB-2) cold water radiator again connects; Tie through (D3) Luo and to meet (CB1) and be connected frame with (CB2); (C/B) (CB-1) heat-pipe radiator of heat-pipe radiator ties through (D3) Luo and connects (CB-2) heat-pipe radiator and formed (2C/A) thermoelectric generator.

In Fig. 5: (2C/A) (D4) (D5) Luo bolt of thermoelectric generator, (F) thermoelectric generator base, (F1) thermoelectric generator base, (F1-1) B1 heat pipe hole, (F1-2) B2 heat pipe hole, (F1-3) connecting hole, (D); (C/A) heat-pipe radiator/thermocouple: (2C/A) thermoelectric generator; (2C/F) thermoelectric generator base; (CB-1) cold/hot cup and heat pipe radiator, (CB-2) cold water radiator, (B1) heat pipe, (B1-3) evaporation section, (B1-2) adiabatic section, (B1-0) adiabatic plug, (B1-1) condensation segment, (B2) heat pipe, (B2-3) evaporation section, (B2-2) adiabatic section, (B2-0) adiabatic plug, (CA) left side connect frame, (B2-1) condensation segment, (D5) (D6) Luo bolt.

In the drawings: (2C/A) (B2-2) adiabatic section that is connected with (B2-3) evaporation section of (B2) heat pipe of (B1-2) adiabatic section of connecting of (B1-3) evaporation section of (B1) heat pipe of thermoelectric generator and (B1-0) of outer ring adiabatic plug and (B2-0) thermal insulation of outer ring fill in that insertion respectively is connected (F1-1) B1 heat pipe hole of (F) thermoelectric generator base and (F1-2) in the B2 heat pipe hole; Be connected about (CA) of (CB-1) and (CB-2) cold/hot cup and heat pipe radiator frame and (F1-3) of (F) thermoelectric generator base and (F1-4) connecting hole with (D4) (D5) Luo tie and formed (2C/F) thermoelectric generator base after connecing.

In Fig. 6～Fig. 7: (2C/F) thermoelectric generator base; (C/E) thermoelectric generator shell; (C/G) thermoelectric generator vacuum flask framework; (E) thermoelectric generator shell, (E1) thermoelectric generator shell, (E1-1) base connect lateral opening, (E1-2) vertical edge, (E1-3) top cover, (E1-4) handle, (E1-5) power output socket, (E1-6) generating indicator light, (E1-7) voltage and reduce indicator light; (X0) insulation material, (F) thermoelectric generator base; (G) vacuum flask framework, (G1) vertical edge, (G1-1) base, (G1-2) left knot that can be undone by a pull axle, (G1-3) left knot that can be undone by a pull, (G1-4) right knot that can be undone by a pull axle, (G1-5) right knot that can be undone by a pull.

In the drawings: the periphery on (2C/F) thermoelectric generator base is connecting (C/E) thermoelectric generator shell; Connect (H1) and (H2) vacuum flask below, forming connection (H1) and (H2) (2C/F) thermoelectric generator base of vacuum flask.(G) (G1-3) left knot that can be undone by a pull of vacuum flask framework upper end and (G1-5) right knot that can be undone by a pull (F1-4) that be connected (F) thermoelectric generator base above (2C/F) thermoelectric generator base (F1-6) block in the angle; Be connected (F1-5) below and (F1-7) keep off the arm of angle, formed a kind of multifunctional household electrical appliance of the present utility model with vacuum flask cold/hot water thermo-electric generation.

Embodiment two:

In Fig. 8: (K/H) hand-held cold/fan heater, (J) radiator cowl, (K) heat-pipe radiator, (B) heat pipe, (B3) heat pipe, (B3-1) evaporation section, (B3-2) adiabatic section, (B3-0) adiabatic plug, (B3-3) condensation segment, (H3) miniature vacuum flask, (H3-0) bottle cap, (R) hand-held bottle, (W) discharge changes in temperature gas, (Y) air inlet orifice plate, (Z/X) hot/cold source liquid.

In the drawings: in (J) radiator cowl, connecting (K) heat-pipe radiator; (K) heat-pipe radiator comprises that (B3-2) adiabatic section that connected by (B3-3) condensation segment of (B3) heat pipe and (B3-0) of outer ring adiabatic plug and (B3-1) evaporation section form; (B3-0) of (B3-2) adiabatic section and outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connect (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid just formed of the present utility model non-electric cold/warm portable hand-holding type miniature hand-held cold/fan heater.

Embodiment three:

In Fig. 9～Figure 10: (K/AM) self power generation changes in temperature radiator, (L) pectination heat collector, (B) heat pipe, (B3) heat pipe, (B3-2) adiabatic section, (B3-0) adiabatic plug, (B3-3) condensation segment, (C0) the fixing circular hole of heat pipe condenser section, (C3-1) left radiator piece, (M) pectination radiator, (C3-2) right radiator piece, (A) thermocouple, (A1) thermocouple plate, (A1+) positive electrode, (A1-) negative electrode, (A1-1) thermal source face, (A1-2) low-temperature receiver face, (A2) thermocouple plate, (A2+) positive electrode, (A2-) negative electrode, (A2-1) thermal source face, (A2-2) low-temperature receiver face, (H3) vacuum flask; (K/AMH) cold/Hot-air fan of hand-held generating, (Z/X) hot/cold source liquid; (P) mains switch, (A1+) out-put supply positive pole, (A1-) out-put supply negative pole, (S) mini fan, (S1) electric fan power line, (N) shell, (N1) left panel, (N2) top panel, (T) bottom pocket.

In the drawings:

(K/AM) self power generation changes in temperature radiator connects (C3-1) left radiator piece by (M) pectination radiator and connects adiabatic plug in (B3-3) condensation segment (B3-2) adiabatic section (B3-0) of (B3) heat pipe and (B3-1) evaporation section; Connection (C3-2) right radiator piece and (A1) power supply output line of thermocouple plate (A1+) positive electrode, (A1-) negative electrode again connect (L) pectination heat collector again; (B3-2) (B3-0) of adiabatic section and outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connect (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid; Connect (S) mini fan and (S1) electric fan power line and (P) mains switch on the left side of (M) pectination radiator, forming the cold/warm portable hand-holding type miniature air-conditioner of self power generation of the present utility model.

Claims (9)

1, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation comprises (A2) (A2-1) (A2-2) low-temperature receiver face, (A2+) positive electrode, (A2-) negative electrode of thermal source face, (A1-2) of thermocouple plate, (A1+) positive electrode, (A1-) negative electrode, (A1-1) by (A) thermocouple, (A1); (B) (B2) (B2-3) (B2-2) (B2-0) (B2-1) (B3-1) condensation segment of (B3-0) adiabatic plug, (B1-1) of (B3-2) adiabatic section, (B1-0) of (B3-1) evaporation section, (B1-2) of (B3) heat pipe, (B1-1) of heat pipe, (B1); (D) Luo bolt; (C) heat-pipe radiator, (C1) heat-pipe radiator, (C1-1) left radiator piece, (C0-1) left connecting hole, (CA) left side connect frame, fixedly circular hole, (C1-2) right radiator piece, (C0-2) right piece connecting hole, (CB) connect frame to (C0) heat pipe condenser section; (E) thermoelectric generator shell, (E1) thermoelectric generator shell, (E1-1) base connect lateral opening, (E1-2) vertical edge, (E1-3) top cover, (E1-4) handle, (E1-5) power output socket, (E1-6) generating indicator light, (E1-7) voltage and reduce indicator light; (F) (F1-6) Ka Jiao, (F1-5) (F1-7) keep off the angle for thermoelectric generator base, (F1) thermoelectric generator base, (F1-1) B1 heat pipe hole, (F1-2) B2 heat pipe hole, (F1-3) connecting hole, (F1-4); (G) vacuum flask framework, (G1) vertical edge, (G1-1) base, (G1-2) left knot that can be undone by a pull axle, (G1-3) left knot that can be undone by a pull, the right knot that can be undone by a pull of (G1-4) right knot that can be undone by a pull axle (G1-5); (C/B) heat-pipe radiator: (C/A) heat-pipe radiator/thermocouple: (CB-1) cold/hot cup and heat pipe radiator, (CB1) high temperature face, (CB-2) cold water radiator, (CB2) low temperature face; (2C/A) thermoelectric generator; (C/A) heat-pipe radiator/thermocouple: (2C/A) thermoelectric generator; (2C/F) thermoelectric generator base; (CB-1) cold/hot cup and heat pipe radiator, (CB-2) cold water radiator, (2C/F) thermoelectric generator base; (C/E) thermoelectric generator shell; (C/G) thermoelectric generator vacuum flask framework; (C/G) thermoelectric generator vacuum flask framework; (C/G) vacuum flask thermoelectric generator; (H) vacuum flask, (H1) hot water thermal insulating bottle, (H1-0) bottle cap, (B1-0) adiabatic plug, (H2) cold water vacuum flask, (H2-0) bottle cap, (B2-0) adiabatic plug, (Z) hot water, (X) cold water; (K/H) hand-held cold/fan heater, (J) radiator cowl, (K) heat-pipe radiator, (B) heat pipe, (H3) miniature vacuum flask, (H3-0) bottle cap, (R) hand-held bottle, (W) discharge changes in temperature gas, (Y) air inlet orifice plate; (K/AM) self power generation changes in temperature radiator, (L) pectination heat collector, (M) pectination radiator, (A1-2) low-temperature receiver face, (A2-1) thermal source face, (A2-2) low-temperature receiver face; (K/AMH) cold/Hot-air fan of hand-held generating, (Z/X) hot/cold source liquid; (P) mains switch, (S) mini fan, (S1) electric fan power line, (N) shell, (N1) left panel, (N2) top panel, (T) bottom pocket are formed, and it is characterized in that; (C) heat-pipe radiator connects (A1) thermocouple plate (C) heat-pipe radiator (F1) thermoelectric generator base (E1) thermoelectric generator shell (G) vacuum flask framework and (H1) and (H2) vacuum flask in turn, has constituted a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation of the present invention.

2, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; (A1) power supply output line of thermocouple plate (A1+) positive electrode (A1-) negative electrode, (A1) (A1-1) thermal source face of thermocouple and (A1-2) low-temperature receiver face; (A2) thermocouple plate power supply output line (A2+) positive electrode (A2-) negative electrode, (A2) (A2-1) thermal source face (A2-2) low-temperature receiver face of thermocouple; (A1) (A1+) positive electrode of the power supply output line of thermocouple plate connects load power source, (A1-) negative electrode is connected in series with (A2) (A1+) positive electrode of thermocouple, (A2) thermocouple plate power supply output line (A2-) negative electrode connects load power source, has formed the circuit of series-fed; (A1) thermocouple plate (A2) thermocouple plate that is connected in series is formed the out-put supply of 7V (6V) DC generation; Can form 14V (12V) with 4 (A) thermocouple series connection; If association can increase output current, if the multi-disc series connection can improve output voltage again.

3, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; (C) (C1) heat-pipe radiator of heat-pipe radiator by (C1-1) left radiator piece and (C1-2) right radiator piece tie to connect through (D) Luo and form; Have on the right of (C1-1) left radiator piece (C0) heat pipe condenser section fixedly circular hole semicircle orifice, connecting (CA) left side in the bottom and connect frame, have (C0-1) left connecting hole in the front; Have on the left side of (C1-2) right radiator piece (C0) heat pipe condenser section fixedly circular hole semicircle orifice, connecting (CB) in the left side and connect frame, have (C0-2) left connecting hole in the front; Left and right sides radiator piece (C0) the heat pipe condenser section fixedly semicircle orifice of circular hole ties through (D) Luo and has constituted fixedly circular hole of (C0) heat pipe condenser section after connecing.

4, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; (E) thermoelectric generator shell: (E1) the thermoelectric generator shell by (E1-1) base connect lateral opening, (E1-2) vertical edge, (E1-3) top cover and (E1-4) handle form; On (E1-3) top cover, connecting (E1-5) power output socket, (E1-6) generating indicator light and (E1-7) voltage reduce indicator light; (F) thermoelectric generator base: on (F1) thermoelectric generator seating plane, have (F1-1) B1 heat pipe hole and (F1-2) B2 heat pipe hole and (F1-3) connecting hole; And on (F1) thermoelectric generator seating plane, connecting (F1-4) (F1-6) Ka Jiao, connecting (F1-5) below and (F1-7) keeping off the angle; (G) the vacuum flask framework by (G1) vertical edge and (G1-1) base form; And connecting (G1-2) left knot that can be undone by a pull axle and (G1-3) the left knot that can be undone by a pull that is connected, (G1-4) right knot that can be undone by a pull axle and (G1-5) the right knot that can be undone by a pull that is connected in (G1) on two sides vertical edge upper end; (E1) (E1-1) base on the thermoelectric generator shell connect lateral opening respectively through (D4) (D5) Luo tie to connect on (F1) thermoelectric generator seating plane and have (F1-3) (F1-4) connecting hole; (F1) (F1-6) Ka Jiao of thermoelectric generator base (F1-4) that connect above (F1-7) keeps off the angle with following connection the (F1-5) and connects (G1-3) the left knot that can be undone by a pull on (G) vacuum flask framework top and (G1-5) right knot that can be undone by a pull.

5, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; (C1) (C0) heat pipe condenser section of (C1-1) left radiator piece of heat-pipe radiator (B1-1) condensation segment (B1-2) adiabatic section of fixedly connecting (B1) heat pipe in the circular hole and (B1-0) of outer ring adiabatic plug and (B1-3) evaporation section; (C1-2) (C0) heat pipe condenser section of right radiator piece fixedly connects (B2) heat pipe, (B2-1) condensation segment, (B2-2) adiabatic section and (B1-0) of outer ring adiabatic plug and (B2-3) evaporation section in the circular hole; Through (D1) and (D2) the Luo bolt insert (C0-1) left connecting hole and (C0-2) connect to form same one in the right piece connecting hole; (CB1) connect with being connected of (CB2) heat-pipe radiator with (C1) heat-pipe radiator; (A1-1) thermal source face that connects (A2) thermocouple plate left side of (A1) thermocouple plate and series connection in (CB1) high temperature face of (CB-1) cold/hot cup and heat pipe radiator; (A1) (A2-2) low-temperature receiver face on (A2) thermocouple plate right side of thermocouple plate and series connection; (CB2) low temperature face that is connected (CB-2) cold water radiator again connects; Tie through (D3) Luo and to meet (CB1) and be connected frame with (CB2); (C/B) (CB-1) heat-pipe radiator of heat-pipe radiator ties through (D3) Luo and connects (CB-2) heat-pipe radiator and formed (2C/A) thermoelectric generator.

6, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; (2C/A) (B2-2) adiabatic section that is connected with (B2-3) evaporation section of (B2) heat pipe of (B1-2) adiabatic section of connecting of (B1-3) evaporation section of (B1) heat pipe of thermoelectric generator and (B1-0) of outer ring adiabatic plug and (B2-0) thermal insulation of outer ring fill in that insertion respectively is connected (F1-1) B1 heat pipe hole of (F) thermoelectric generator base and (F1-2) in the B2 heat pipe hole; Be connected about (CA) of (CB-1) and (CB-2) cold/hot cup and heat pipe radiator frame and (F1-3) of (F) thermoelectric generator base and (F1-4) connecting hole with (D4) (D5) Luo tie and formed (2C/F) thermoelectric generator base after connecing.

7, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; Periphery on (2C/F) thermoelectric generator base is connecting (C/E) thermoelectric generator shell; Connect (H1) and (H2) vacuum flask below, forming connection (H1) and (H2) (2C/F) thermoelectric generator base of vacuum flask; (G) (G1-3) left knot that can be undone by a pull of vacuum flask framework upper end and (G1-5) right knot that can be undone by a pull (F1-4) that be connected (F) thermoelectric generator base above (2C/F) thermoelectric generator base (F1-6) block in the angle; Be connected (F1-5) below and (F1-7) keep off the arm of angle, formed a kind of multifunctional household electrical appliance of the present utility model with vacuum flask cold/hot water thermo-electric generation.

8, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; In (J) radiator cowl, connecting (K) heat-pipe radiator; (K) heat-pipe radiator comprises that (B3-2) adiabatic section that connected by (B3-3) condensation segment of (B3) heat pipe and (B3-0) of outer ring adiabatic plug and (B3-1) evaporation section form; (B3-0) of (B3-2) adiabatic section and outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connect (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid just formed of the present utility model non-electric cold/warm portable hand-holding type miniature hand-held cold/fan heater.

9, a kind of multifunctional household electrical appliance with vacuum flask cold/hot water thermo-electric generation according to claim 1 is characterized in that; (K/AM) self power generation changes in temperature radiator connects (C3-1) left radiator piece by (M) pectination radiator and connects adiabatic plug in (B3-3) condensation segment (B3-2) adiabatic section (B3-0) of (B3) heat pipe and (B3-1) evaporation section; Connection (C3-2) right radiator piece and (A1) power supply output line of thermocouple plate (A1+) positive electrode, (A1-) negative electrode again, connect again (L) pectination heat collector (B3-2) adiabatic section and (B3-0) of outer ring adiabatic plug and (B3-1) evaporation section insert and be connected in (H3-0) bottle cap of (H3) miniature vacuum flask, connection (H3) miniature vacuum flask again; In (H3) miniature vacuum flask, fill with (Z/X) hot water/low-temperature receiver liquid; Connect (S) mini fan and (S1) electric fan power line and (P) mains switch on the left side of (M) pectination radiator, forming the cold/warm portable hand-holding type miniature air-conditioner of self power generation of the present utility model.

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