CN203891946U - V-shaped heat energy power equipment - Google Patents

Abstract

The utility model relates to V-shaped heat energy power equipment. The V-shaped heat energy power equipment comprises a heat collector, a heat preservation pipe, a gasification reactor, an atomizer, air cylinders, a piston, a piston ring, an automatic exhaust valve, a cooler, a liquid storage pot, a pressure valve, a connecting rod, a crankshaft, a heat preservation layer, a rotary shaft and a machine casing; the adjacent air cylinders are arranged together with a certain included angle; the included angle gamma between central lines of the left column of air cylinders and the right column of air cylinders is smaller than 180 degrees; the two groups of air cylinders form into a plane of the included angle; the air cylinders are arranged in a V shape from the lateral side. The V-shaped heat energy power equipment has the advantages of shortening the machine body length and height due to the V-shaped structure; having large space and allowing expansion of the air cylinder diameter to improve the discharge capacity and the power due to the fact that the air cylinder are arranged in a mutually staggered mode; enabling working mediums to be used in a recycling mode and being free of pollution; enabling the conversion efficiency of thermal energy to be from 65 to 98 %; allowing replacement of conventional energy resource consumption and being high in economic benefit, energy saving and environmental friendly and small in noise.

Description

A kind of V-type thermal powerplant

Technical field

The utility model belongs to thermal powerplant field, especially utilizes solar energy, underground heat, high-temperature gas, engine thermal energy or the tail gas of inflammable matter burning generation, the thermal power transfer such as high-temperature gas of factory's discharge become the power equipment of kinetic energy.

Background technique

Traditional power equipment has steamer, internal-combustion engine, external-combustion engine.

Steamer: be unable to do without boiler, whole device is heaviness but also huge not only; The pressure and temperature of initial steam can not be too high, and exhaust pressure can not be too low, and the thermal efficiency is difficult to improve; It is a kind of reciprocator, inertia confinement the raising of rotating speed; Working procedure is discontinuous, and the flow of steam is restricted, and has also just limited the raising of power.

Internal-combustion engine: complex structure, higher to demanded fuel, the cleanliness of fuel is required strictly to environmental pollution.

External-combustion engine, if Stirling engine is wherein a kind of, Stirling engine and internal-combustion engine relatively possess following advantage:

Be applicable to the various energy, no matter be liquid, gaseous state or solid-state fuel, when adopting heat-carrying system (as heat pipe) indirect heating, almost can use any high temperature heat source (solar energy radioisotope and nuclear reaction etc.), and motor itself (except heater) does not need to do any change.Stirling engine, without compressor boost, uses general blower fan to meet the demands, and allows fuel to have higher impurity content simultaneously; Stirling engine single-machine capacity is little, and unit capacity is from 20-50kw, the increase and decrease power system capacity that can suit measures to local conditions; Simple in structure, number of components is fewer 40% than internal-combustion engine, and room for price-cut is large; Maintenance cost is low.

Stirling engine is when operation, due to continuous burning in the firing chamber of fuel outside cylinder, the working medium that is independent of combustion gas is absorbed heat by heater, and press Stirling circulation and externally do work, therefore avoid pinking acting and the intermittent combustion process of similar internal-combustion engine, thereby realized efficient, low noise and low emission operation.Efficient: overall energetic efficiency reaches more than 80%; Low noise: at the bottom of 1 meter of bare machine noise in 68dBA; Low emission: exhaust emissions reaches Europe 5 standards.

Because working medium is not burnt, external-combustion engine has been avoided the quick-fried acting problem of the shake of traditional combustion engine, thereby has realized high efficiency, low noise, low pollution and low operating cost.The external-combustion engine various inflammable gass that can burn, as rock gas, biogas, petroleum gas, hydrogen, coal gas etc., the also liquid fuel such as incendivity diesel oil, liquefied petroleum gas (LPG), can also burn wood, and utilizes solar energy etc.As long as hot chamber reaches 700 ℃, the equipment operation of can doing work, ambient temperature is lower, and generating efficiency is higher.The advantage of external-combustion engine maximum is to exert oneself not affected by altitude with efficiency, is very suitable for high altitude localities and uses.

Simultaneously Stirling engine remain subject matter and shortcoming be: manufacture cost is higher, and working medium sealing technique is more difficult, and reliability and the life-span of Sealing also have problems, and cost of material is high, and power adjustments control system is more complicated, and machine is comparatively heavy; The cost of expansion chamber, pressing chamber, heater, cooling chamber, regenerator etc. is high, and heat loss is 2-3 times of explosive motor etc.

Organic rankine cycle system comprises pump, vaporizer, decompressor, generator, condenser etc.Heat collector absorbs solar irradiance, and in heat collector, heat exchange medium temperature raises, and heat transferring medium is passed to organic working medium by vaporizer heat.Organic working medium is level pressure heating in vaporizer, and the gaseous state organic working medium of high pressure enters decompressor expansion acting, drives generator generating; The organic working medium that decompressor afterbody is discharged enters level pressure condensation in condenser, and the organic working medium of condensator outlet enters vaporizer and completes power generation cycle one time after pump pressurization.

Organic rankine cycle system exists conversion efficiency not high, and volume is large, need to be by baroque decompressor acting.

V-type engine, briefly exactly all cylinders are divided into two groups, adjacent cylinders is arranged to (180 ° of the angle γ < of left and right two row cylinder centerlines) together with certain angle, make two groups of cylinder shapes plane in an angle, cylinder is in the shape of the letter V (common angle is 60 °) from the side, therefore claim V-type engine.

Compare with distribution form in upright arrangement, V-type engine has shortened length and the height of body, and lower mounting point can, so that Designer designs the vehicle body that air resistance coefficient is lower, be had benefited from cylinder subtend to arrange simultaneously, also can offset part vibration, make engine running more smooth-going.Owing to being staggeredly arranged between cylinder, therefore between cylinder, there is larger space, be convenient to like this improve discharge capacity and power by expanding cylinder diameter.The cylinder of V-type engine all at angle subtend arrange, can offset part vibration.Deficiency is: the shortcoming of V-type engine is to use two cylinder heads, and structure is comparatively complicated.After its width strengthens in addition, space, motor both sides is less, is difficult for arranging other device again.

Summary of the invention

The cost that the utility model has overcome the expansion chamber that external-combustion engine exists, pressing chamber, heater, cooling chamber, regenerator etc. is high, and heat loss is the problems such as 2-3 times of explosive motor; Having overcome organic rankine cycle system needs decompressor or steam turbine, the technical barrier that manufacture cost is high; Overcome the problem that internal-combustion engine V-type engine structure is comparatively complicated, manufacture cost is high.The V-type thermal powerplant the utility model proposes is to have adopted existing V-type engine structure, in conjunction with the thermodynamic apparatus of Stirling engine, organic rankine cycle system and internal-combustion engine V-type engine advantage.By heat collector, gasification reactor being heated after heat absorption, make the swollen promotion piston of working medium high-temperature gasification Peng produce kinetic energy acting.

The utility model provides that a kind of thermal energy conversion efficiency is high, working medium can recycle, can adjust working medium quantity within the scope of peak output adjusts output power, can adjust by adjusting temperature the thermal powerplant of output power, machine stable output power.

The technical solution adopted in the utility model is: a kind of V-type thermal powerplant, comprises heat collector, thermal insulation pipe, gasification reactor, atomizer, cylinder, piston, piston ring, automatic control pressure vent, cooler, liquid container, pressure valve, connecting rod, bent axle, thermal insulation layer, rotatingshaft and casing; Casing upper cylinder is divided into two groups, adjacent cylinder arranged together with certain angle, and 180 ° of the angle γ < of left and right two row cylinder centerlines, two groups of cylinder shapes plane in an angle, cylinder is arranged and is in the shape of the letter V from the side; In cylinder, be respectively equipped with piston, piston is provided with piston ring; Piston connects connecting rod, and connecting rod connects bent axle, bent axle connection of rotating axle, and rotatingshaft is fixed on casing by bearing; Heat collector connects gasification reactor by thermal insulation pipe, and gasification reactor inlet end is provided with atomizer, and atomizer is by pipeline Bonding pressure valve, and pressure valve connects liquid container by pipeline; Gasification reactor is arranged on the top dead center of cylinder; The lower dead center of cylinder is provided with automatic control pressure vent, and automatic control pressure vent connects cooler by pipeline, and cooler connects liquid container by pipeline; Cylinder skin is provided with thermal insulation layer.

Further, described heat collector can absorb the heat energy such as high-temperature gas that high-temperature gas, exhaust gases of internal combustion engines, factory that solar energy, underground heat, inflammable matter burning produce discharge.

Further, described gasification reactor comprises pressure vessel, gasification heat-conducting plate, pore, atomizer, and gasification heat-conducting plate is arranged on pressure vessel, and on gasification heat-conducting plate, array is provided with pore, and pressure vessel inlet end is provided with atomizer.

Further, the associated bent axle of described pressure valve, often completes the open and close of a circulating pressure valve once.

The method of above-mentioned V-type thermal powerplant acting is: two groups of left and right cylinder becomes V-structure, and the middle cylinder of two cylinders of left side cylinder ragged edge and the right forms one group and does work simultaneously; The right two cylinders of cylinder ragged edge and the middle cylinder in the left side form one group and do work simultaneously; Heat collector absorb high-temperature gas, engine thermal energy or tail gas that solar energy, underground heat, inflammable matter burning produces, the heat energy such as high-temperature gas that factory discharges directly or by pipeline transferring heat to gasification reactor, in pipeline, be provided with mobile heat-conducting medium; Liquid working substance is injected into atomizer by pressure valve and carries out atomization, and gasification reactor is to the expansion of gasifying of the working medium of atomization; During the lower dead center of piston arrives cylinder, acting gas is discharged by automatic control pressure vent, the gaseous working medium of discharging is cooling by cooler, now another organizes the top dead center of piston arrives cylinder, this pressure valve to cylinder is opened, and liquid working substance is injected into gasification expansion promotion piston in gasification reactor by atomizer and does work; Pressure valve is open and close in turn, and the piston in two groups of cylinders does work in turn and drives rotatingshaft rotation, and rotatingshaft flywheel driven is exported kinetic energy.

The utility model has the advantages that: 1) V-structure has shortened length and the height of body; 2) between cylinder, be staggeredly arranged, have larger space, can expand cylinder bore and improve discharge capacity and power; 3) working medium circulation is used, pollution-free; 4) thermal energy conversion efficiency 65%-98%; 5) can adjust machine cylinder capacity and quantity adjustment output power according to power demand; 6) in power range, can adjust fluid injection and adjust output power reaching most; 7) to working medium gasify acting whole process do not produce pinking; 8) can substitute conventional energy resource consumption, economic benefit is high, energy-conserving and environment-protective, and noise is little.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model gasification reactor structural representation;

Fig. 3 is V-type engine structural drawing;

In figure: 1 is heat collector; 2 is thermal insulation pipe; 3 is gasification reactor; 4 is atomizer; 5 is cylinder; 6 is piston; 7 is piston ring; 8 is automatic control pressure vent; 9 is cooler; 10 is liquid container; 11 is pressure valve; 12 is connecting rod; 13 is bent axle; 14 is thermal insulation layer; 15 is rotatingshaft; 16 is casing; 17 is pressure vessel; 18 is gasification heat-conducting plate; 19 is pore.

Embodiment

With reference to accompanying drawing, mode of execution of the present utility model is:

Embodiment 1

A V-type thermal powerplant, comprises heat collector 1, thermal insulation pipe 2, gasification reactor 3, atomizer 4, cylinder 5, piston 6, piston ring 7, automatic control pressure vent 8, cooler 9, liquid container 10, pressure valve 11, connecting rod 12, bent axle 13, thermal insulation layer 14, rotatingshaft 15 and casing 16; Casing 16 upper cylinders 5 are divided into two groups, adjacent cylinder 5 is arranged together to 180 ° of the angle γ < of left and right two row cylinder 5 center lines, two groups of cylinder 5 shapes plane in an angle with certain angle, cylinder 5 is arranged and is in the shape of the letter V from the side, and common angle is 60 °; In cylinder 5, be respectively equipped with piston 6, piston 6 is provided with piston ring 7; Piston 6 connects connecting rod 12, and connecting rod 12 connects bent axle 13, bent axle 13 connection of rotating axles 15, and rotatingshaft 15 is fixed on casing 16 by bearing; Heat collector 1 connects gasification reactor 3 by thermal insulation pipe 2, and gasification reactor 3 inlet ends are provided with atomizer 4, and atomizer 4 is by pipeline Bonding pressure valve 11, and pressure valve 11 connects liquid container 10 by pipeline; Gasification reactor 3 is arranged on the top dead center of cylinder 5; The lower dead center of cylinder 5 is provided with automatic control pressure vent 8, and automatic control pressure vent 8 connects cooler 9 by pipeline, and cooler 9 connects liquid container 10 by pipeline; Cylinder 5 skins are provided with thermal insulation layer 14.

Embodiment 2

As the V-type thermal powerplant in embodiment 1, described gasification reactor 3 comprises pressure vessel 17, gasification heat-conducting plate 18, pore 19, atomizer 4, gasification heat-conducting plate 18 is arranged on pressure vessel 17, and on gasification heat-conducting plate 18, array is provided with pore 19, and pressure vessel 17 inlet ends are provided with atomizer 4.The associated bent axle 13 of described pressure valve 11, often completes the open and close of a circulating pressure valve once; The present embodiment be take 6 air cylinder structures as example, and two groups of left and right cylinder becomes V-structure, and the middle cylinder of two cylinders of left side cylinder ragged edge and the right does work simultaneously; The right two cylinders of cylinder ragged edge and the middle cylinder in the left side do work simultaneously; V-type thermal powerplant cylinder 5 quantity are generally 5,6,8,10,12,16.

Claims (4)

1. a V-type thermal powerplant, comprises heat collector (1), thermal insulation pipe (2), gasification reactor (3), atomizer (4), cylinder (5), piston (6), piston ring (7), automatic control pressure vent (8), cooler (9), liquid container (10), pressure valve (11), connecting rod (12), bent axle (13), thermal insulation layer (14), rotatingshaft (15) and casing (16); It is characterized in that, casing (16) upper cylinder (5) is divided into two groups, adjacent cylinder (5) is arranged together with certain angle, 180 ° of the angle γ < of left and right two row cylinder (5) center lines, two groups of cylinders (5) shape plane in an angle, cylinder (5) is arranged and is in the shape of the letter V from the side; In cylinder (5), be respectively equipped with piston (6), piston (6) is provided with piston ring (7); Piston (6) connects connecting rod (12), and connecting rod (12) connects bent axle (13), bent axle (13) connection of rotating axle (15), and rotatingshaft (15) is fixed on casing (16) by bearing; Heat collector (1) connects gasification reactor (3) by thermal insulation pipe (2), and gasification reactor (3) inlet end is provided with atomizer (4), and atomizer (4) is by pipeline Bonding pressure valve (11), and pressure valve (11) connects liquid container (10) by pipeline; Gasification reactor (3) is arranged on the top dead center of cylinder (5); The lower dead center of cylinder (5) is provided with automatic control pressure vent (8), and automatic control pressure vent (8) connects cooler (9) by pipeline, and cooler (9) connects liquid container (10) by pipeline; Cylinder (5) skin is provided with thermal insulation layer (14).

2. V-type thermal powerplant as claimed in claim 1, is characterized in that, described heat collector (1) can absorb the high-temperature gas that high-temperature gas, exhaust gases of internal combustion engines, factory that solar energy, underground heat, inflammable matter burning produces discharge.

3. V-type thermal powerplant as claimed in claim 1, it is characterized in that, described gasification reactor (3) comprises pressure vessel (17), gasification heat-conducting plate (18), pore (19), atomizer (4), gasification heat-conducting plate (18) is arranged on pressure vessel (17), the upper array of gasification heat-conducting plate (18) is provided with pore (19), and pressure vessel (17) inlet end is provided with atomizer (4).

4. V-type thermal powerplant as claimed in claim 1, is characterized in that the associated bent axle of described pressure valve (11) (13) often completes the open and close of a circulating pressure valve once.