CN101144390A - Crankshaft transmission low-temperature multi-cylinder piston engine - Google Patents

Abstract

The invention discloses a crankshaft drive low temperature multi-cylinder piston engine, and comprises a crankshaft drive multi-cylinder piston flywheel working system being composed of a crankshaft, a cylinder, a piston crankshaft connecting rod and a crankshaft connecting rod bearing. The invention is characterized in that a group of connecting block of the crankshafts consists of five crankshaft main journals, four crankshaft connecting rod journals, and eight crankshaft main journals and crankshaft connecting rod journals; in addition, the invention also comprises a low boiling point medium steam generation supply recovery system being composed of a heat source, a low boiling point medium steam formation tank, low boiling point medium steam and the liquid backflow buffer tank, an electromagnet control circuit. When the heat source is opened and the electromagnet control circuit is switched on, a delivery and exhaust switch, a piston, a crankshaft, an outward output gear, a flywheel and a plastic wheel in the four cylinders start to run. The invention adopts the low boiling point medium steam to drive the crankshaft piston to run to provide power outwards, the oil and gas resources does not require to be consumed, and the carbon dioxide cannot be discharged to pollute the environment, thereby the invention performs a function of environment protection.

Description

Crankshaft transmission low-temperature multi-cylinder piston engine

Technical field

The present invention relates to multi-cylinder piston engine, especially relate to a kind of crankshaft transmission low-temperature multi-cylinder piston engine.

Technical background

At present the high temperature multi-cylinder piston engine generally by bent axle, cylinder, piston, fuel tank, send oil pipe, oil nozzle, spark plug, snorkel, offgas duct, flywheel, driving gear, sensor, control mechanism and control circuit etc. to form, its acting medium is fuel oil or combustion gas, this just needs to consume the non-renewable petroleum resources of a large amount of preciousnesses, and discharge great amount of carbon dioxide, pollute empty vapour, influence environmental quality, cause greenhouse effect.

Summary of the invention

The purpose of this invention is to provide and a kind ofly promote the bent axle piston motion power outwards to be provided, neither need to consume the crankshaft transmission low-temperature multi-cylinder piston engine that petroleum resources can not discharged the empty vapour of carbon dioxide pollution, protection environment yet with low boiling point working medium steam.

The object of the present invention is achieved like this: the present invention includes bent axle transmission multi-cylinder piston flywheel working system, it is by bent axle, crankshaft main journal bearing bracket and bearing, cylinder, piston, piston ring, the piston crankshaft-link rod, the crankshaft-link rod bearing, the connecting rod piston coupling arrangement, output gear, flywheel, plastic wheel and the compositions such as plastic channel that sensor is installed, on plastic wheel, be processed with loophole, feature is that in the bent axle one group is by five crankshaft main journals, four rod journals, the coupling block of eight crankshaft main journals and rod journal is formed, two planes that rod journal constituted, centre in four rod journals are vertical with two planes that rod journal constituted, outside, middle two rod journals are in anti-phase position in a plane, two rod journals in outside also are in anti-phase position in a plane; In addition, the present invention comprises that also low boiling point working medium steam produces the supply reclaiming system, and it is formed jar, vapour table, low boiling point working medium steam and liquid return knock out drum thereof, valve, steam delivery tube, back-steam liquid pipe, sent vapour switch, steam discharge switch, electromagnet, control circuit for electromagnet, cylinder steam inlet and cylinder steam ouput to form by thermal source, steam pipe, low boiling point working medium steam.When thermal source, steam pipe, steam delivery tube and back-steam liquid pipe are opened, when control circuit for electromagnet is connected, send the piston in piston in the vapour switch, the piston in the steam discharge switch, four cylinders to move, bent axle will rotate, and externally output gear, flywheel, plastic wheel will rotate.

When a pairing steam-cylinder piston in two rod journals that are in anti-phase position was in the extreme higher position, the pairing steam-cylinder piston of another rod journal necessarily was in extreme lower position; Piston is in the cylinder of extreme higher position in next admission constantly, the corresponding vapour switch opens of sending, and the steam discharge switch cuts out; Piston is in the cylinder of extreme lower position at next moment steam discharge, and the corresponding vapour switch that send cuts out the steam discharge switch opens.Send a steam inlet is arranged on the vapour switch, two steam ouputs, steam inlet links to each other with steam delivery tube, steam ouput links to each other with the steam inlet that rod journal is in two cylinders of anti-phase position, when two one of steam ouputs were opened, another was closed; Two steam inlets, a steam ouput are arranged on the steam discharge switch, steam ouput links to each other with back-steam liquid pipe, steam inlet links to each other with the steam ouput that rod journal is in two cylinders of anti-phase position, when one of steam inlet is opened, another is closed, and when the steam inlet of a cylinder was opened, steam ouput was necessarily closed, when steam ouput was opened, steam inlet was necessarily closed; Send vapour switch, steam discharge switch all to form by cylinder sleeve, band piston, spring, electromagnet and control circuit for electromagnet, the pairing band piston of vapour switch and steam discharge switch that send of two cylinders that rod journal is in anti-phase position moves simultaneously, corresponding electromagnet coil be simultaneously dead electricity or electric, coil losing electricity or electric be by the determining positions of rod journal.

When being in the extreme higher position as the pairing rod journal of certain cylinder, the action of respective sensor control circuit, coil losing electricity, the band piston is in the raw; And another rod journal that is in anti-phase position is when being in the extreme higher position, the action of respective sensor control circuit, and it is electric that coil gets, and the band piston is in oppressed state; Orthogonal two countercylinders in rod journal plane are pairing send vapour switch and steam discharge switch electromagnet dead electricity time and the electric time all differs for four/one-period.

The present invention improves on the basis of traditional bent axle transmission high temperature multi-cylinder piston engine and the motor that obtains, and is specific as follows:

1, designed that thermal source, steam pipe, low boiling point working medium steam form jar, low boiling point working medium steam and liquid return knock out drum, steam delivery tube, back-steam liquid pipe, sent vapour switch, steam discharge switch, electromagnet, control circuit for electromagnet, cylinder steam inlet, cylinder steam ouput, band loophole or the plastic wheel of permanent magnetic sheet, the plastic channel of belt sensor, made multi-cylinder piston engine just can start with low boiling point working medium steam;

2, low boiling point working medium and steam thereof can be multiple the thermal source heating, can recycle, reduce and pollute, add hot water with solar energy or hot tail vapour or electric furnace usually and form steam as thermal source;

3, one group in the bent axle has been designed there is the bent axle on two mutually perpendicular rod journal planes favourable, can not produce dull the piston motion smoothness;

4, designed according to sensor and transmitted the control circuit that information accurately promotes to send vapour switch and steam discharge switch motion;

5, the present invention can isolated operation as motor, also can on the basis of traditional bent axle transmission high temperature multi-cylinder piston engine, install thermal source additional, steam pipe, low boiling point working medium steam forms jar, low boiling point working medium steam and liquid return knock out drum thereof, steam delivery tube, back-steam liquid pipe, send the vapour switch, the steam discharge switch, one-way valve, the vapour adjustable valve, electromagnet, control circuit for electromagnet, the cylinder steam inlet, the cylinder steam ouput, the plastic wheel of band loophole or permanent magnetic sheet, the plastic channel of belt sensor constitutes the dual-purpose motor that both can also can use low boiling point working medium with fuel oil.

Description of drawings

Fig. 1 is the machine construction principle schematic representation of crankshaft transmission low-temperature four cylinder piston engines of the present invention;

Fig. 2 is that low boiling point working medium steam of the present invention produces the route schematic representation that supply is reclaimed;

Fig. 3 is the structural representation of bent axle;

Fig. 4 is the structure of plastic wheel and the schematic representation of unthreaded hole or magnetic sheet distribution;

Fig. 5 is the structural representation that the plastic channel of photo coupler is installed and is processed with the plastic wheel of loophole;

Fig. 6 is the structural representation that the plastic channel of Hall transducer is installed and the plastic wheel of magnetic sheet is installed;

The electromagnet power supply circuit figure that send steam discharge switch when Fig. 7 is photo coupler for the rod journal position transducer;

Fig. 8 is the electromagnet power supply circuit figure that send the steam discharge switch of Hall transducer for the rod journal position transducer.

Embodiment

Below in conjunction with embodiment the present invention is described in further detail, but should understands the scope that scope of the present invention is not limited only to these embodiments.

Embodiment 1: be example with the four cylinder engine

The present invention produces the supply reclaiming system by bent axle transmission four cylinder piston flywheel working systems and low boiling point working medium steam and forms, bent axle transmission four cylinder piston flywheel working systems bent axle 1-2 again wherein, 1-3,1-4, crankshaft main journal bearing bracket and bearing 1-5, cylinder 1-6, cylinder steam inlet 2-19, cylinder steam ouput 2-20, piston 1-7, piston ring 1-8, piston crankshaft-link rod 1-9, crankshaft-link rod bearing 1-10, connecting rod piston coupling arrangement 1-11, output gear 1-12, flywheel 1-13, plastic wheel 1-14 and the compositions such as plastic channel 1-16 that sensor is installed, on plastic wheel 1-14, be processed with loophole 1-15, bent axle 1-2 is again by crankshaft main journal 1-2a, 1-2b, 1-2c, 1-2d, 1-2e forms, bent axle 1-3 is by rod journal 1-3a, 1-3b, 1-3c, 1-3d forms, bent axle 1-4 is by the coupling block 1-4a of crankshaft main journal and rod journal, 1-4b, 1-4c, 1-4d, 1-4e, 1-4f, 1-4g, 1-4h forms, bent axle 1-2,1-3,1-4 constitutes one group of 1-1 in the bent axle, crankshaft main journal bearing bracket and bearing 1-5 are by crankshaft main journal bearing bracket and bearing 1-5a, 1-5b, 1-5c, 1-5d, 1-5e forms, cylinder 1-6 is by cylinder 1-6a, 1-6b, 1-6c, 1-6d forms, piston 1-7 is by piston 1-7a, 1-7b, 1-7c, 1-7d forms, piston ring 1-8 is by piston ring 1-8a, 1-8b, 1-8c, 1-8d forms, piston crankshaft-link rod 1-9 is by piston crankshaft-link rod 1-9a, 1-9b, 1-9c, 1-9d forms, crankshaft-link rod bearing 1-10 is by crankshaft-link rod bearing 1-10a, 1-10b, 1-10c, 1-10d forms, connecting rod piston coupling arrangement 1-11 is by connecting rod piston coupling arrangement 1-11a, 1-11b, 1-11c, 1-11d forms, loophole 1-15 on the plastic wheel is by loophole 1-15a, 1-15b, 1-15c, 1-15d, 1-15e forms, the groove 1-16 that sensor is housed is by sensor 1-18a, 1-18b, 1-19a, 1-19b, 1-20a, 1-20b, 1-21a, 1-21b, 1-22a, 1-22b forms, piston is contained in the cylinder, one on connecting rod is contained on the coupling arrangement of piston, and the other end is contained on the rod journal by bearing.

Crankshaft main journal 1-2a, 1-2b, 1-2c, 1-2d, 1-2e are contained in respectively among crankshaft main journal bearing bracket and bearing 1-5a, 1-5b, 1-5c, 1-5d, the 1-5e, output gear 1-12 is contained on the main journal 1-2e on bent axle right side by key, flywheel 1-13 and plastic wheel 1-14 go up by key and are contained on the main journal 1-2a in bent axle left side, and plastic channel 1-16 is contained in the top of plastic wheel 1-14 by support.

Low boiling point working medium steam produces the supply reclaiming system by thermal source 2-1, steam pipe 2-2, low boiling point working medium steam forms a jar 2-3, vapour table 2-4, low boiling point working medium steam and liquid return knock out drum 2-5 thereof, valve 2-6, steam delivery tube 2-7, back-steam liquid pipe 2-8, send vapour switch 2-9,2-10, steam discharge switch 2-11,2-12, electromagnet 2-13,2-14,2-15,2-16, control circuit for electromagnet 2-17,2-18, cylinder steam inlet 2-19, cylinder steam ouput 2-20 forms, wherein thermal source 2-1 adds water heater and the pipeline that hot water forms water vapor by solar energy or hot tail vapour or electric furnace and forms, valve 2-6 is by vapour adjustable valve 2-6a, 2-6b, 2-6c, one-way valve 2-6d, 2-6e, 2-6f forms, steam delivery tube 2-7 is by steam delivery tube 2-7a, 2-7b, 2-7c, 2-7d, 2-7e, 2-7f forms, back-steam liquid pipe 2-8 is by back-steam liquid pipe 2-8a, 2-8b, 2-8c, 2-8d, 2-8e, 2-8f forms, send vapour switch 2-9 by cylinder sleeve 2-9a, band piston 2-9b, spring 2-9c, steam inlet 2-9d, steam ouput 2-9e, 2-9f forms, send vapour switch 2-10 by cylinder sleeve 2-10a, band piston 2-10b, spring 2-10c, steam inlet 2-10d, steam ouput 2-10e, 2-10f forms, steam discharge switch 2-11 is by cylinder sleeve 2-11a, band piston 2-11b, spring 2-11c, steam ouput 2-11d, steam inlet 2-11e, 2-11f forms, steam discharge switch 2-12 is by cylinder sleeve 2-12a, band piston 2-12b, spring 2-13c, steam ouput 2-12d, steam inlet 2-12e, 2-12f forms, electromagnet 2-13 is by secured core 2-13a, movable core 2-13b, coil 2-13c, push rod 2-13d, push rod supports 2-13e, push pedal 2-13f forms, electromagnet 2-14 is by secured core 2-14a, movable core 2-14b, coil 2-14c, push rod 2-14d, push rod supports 2-14e, push pedal 2-14f forms, electromagnet 2-15 is by secured core 2-15a, movable core 2-15b, coil 2-15c, push rod 2-15d, push rod supports 2-15e, push pedal 2-15f forms, electromagnet 2-16 is by secured core 2-16a, movable core 2-16b, coil 2-16c, push rod 2-16d, push rod supports 2-16e, push pedal 2-16f forms, four cylinder steam inlet 2-19 are by steam inlet 2-19a, 2-19b, 2-19c, 2-19d forms, and four cylinder steam ouput 2-20 are by steam ouput 2-20a, 2-20b, 2-20c, 2-20d forms.

The steam pipe 2-2 of thermal source 2-1 connects low boiling point working medium steam by vapour adjustable valve 2-6a and forms steam pipe 2-2 among jar 2-3, low boiling point working medium steam forms a jar 2-3 and meets vapour table 2-4 again, again by one-way valve 2-6e, vapour adjustable valve 2-6b picks steam pipe 2-7, meet low boiling point working medium steam and liquid return knock out drum 2-5 thereof by one-way valve 2-6f again, low boiling point working medium steam and liquid return knock out drum 2-5 thereof connect low boiling point working medium steam by one-way valve 2-6f again and form a jar 2-3, by vapour adjustable valve 2-6c, one-way valve 2-6d takes back vapour-liquid pipe 2-8, (in the middle of vapour adjustable valve 2-6c and one-way valve 2-6d, also can insert vacuum pump and quicken the vapour-liquid backflow), steam delivery tube 2-7a picks the steam inlet 2-9d of vapour switch 2-9, steam delivery tube 2-7b picks the steam inlet 2-10d of vapour switch 2-10, send the steam ouput 2-9e of vapour switch 2-9,2-9f is by steam delivery tube 2-7c, 2-7d meets cylinder 1-6d, the steam inlet 2-19d of 1-6a, 2-19a, send the steam ouput 2-10e of vapour switch 2-10,2-10f is by steam delivery tube 2-7e, 2-7f meets cylinder 1-6b, the steam inlet 2-19b of 1-6c, 2-19c, the run in steam ouput 2-11d of vapour switch 2-11 of back-steam liquid pipe 2-8a, the run in steam ouput 2-12d of vapour switch 2-12 of back-steam liquid pipe 2-8b, the steam inlet 2-11e of steam discharge switch 2-11,2-11f is by back-steam liquid pipe 2-8c, 2-8d meets cylinder 1-6d, the steam ouput 2-20d of 1-6a, 2-20a, the steam inlet 2-12e of steam discharge switch 2-12,2-12f is by back-steam liquid pipe 2-8e, 2-8f meets cylinder 1-6b, the steam ouput 2-20b of 1-6c, 2-20c; The secured core 2-13a of electromagnet 2-13 fixes, movable core 2-13b becomes to flexibly connect with push rod 2-13d lower end, push rod 2-13d upper end becomes to flexibly connect with push pedal 2-13f, push pedal 2-13f presses close to band piston 2-9b left end, the upper end becomes to flexibly connect with push rod support 2-13e among the push rod 2-13d, the A point of the E termination control circuit 2-17a of coil 2-13c, the ground of F termination control circuit 2-17a; The secured core 2-14a of electromagnet 2-14 fixes, movable core 2-14b becomes to flexibly connect with push rod 2-14d lower end, push rod 2-14d upper end becomes to flexibly connect with push pedal 2-14f, push pedal 2-14f presses close to band piston 2-10b left end, the upper end becomes to flexibly connect with push rod support 2-14e among the push rod 2-14d, the B point of the M termination control circuit 2-17b of coil 2-14c, the ground of N termination control circuit 2-17b; The secured core 2-15a of electromagnet 2-15 fixes, movable core 2-15b becomes to flexibly connect with push rod 2-15d lower end, push rod 2-15d upper end becomes to flexibly connect with push pedal 2-15f, push pedal 2-15f presses close to band piston 2-12b right-hand member, the upper end becomes to flexibly connect with push rod support 2-15e among the push rod 2-15d, the B point of the P termination control circuit 2-17b of coil 2-15c, the ground of Q termination control circuit 2-17b; The secured core 2-16a of electromagnet 2-16 fixes, movable core 2-16b becomes to flexibly connect with push rod 2-16d lower end, push rod 2-16d upper end becomes to flexibly connect with push pedal 2-16f, push pedal 2-16f presses close to band piston 2-11b right-hand member, the upper end becomes to flexibly connect with push rod support 2-15e among the push rod 2-16d, the A point of the R termination control circuit 2-17a of coil 2-16c, the ground of S termination control circuit 2-17a.

Control circuit 2-17 is that the rod journal position transducer send steam discharge switch electromagnet power supply circuit when being photo coupler, and control circuit 2-17a is coil 2-13c, 2-16c power supply, and control circuit 2-17b is coil 2-14c, 2-15c power supply.

Control circuit 2-17a is made up of phototube 1-18b, 1-21b, triode BG1a-BG4a, photo coupler TLP1a, TLP2a, field effect transistor NMOS1a, controllable silicon SCR 1a, resistance R 1a-R8a, diode D1a, coil 2-13c, 2-16C and power supply.The collector electrode of phototube 1-18b connects positive source, emitter and the base stage that meets triode BG1a after resistance R 1a connects, the emitter of triode BG1a connects the base stage of triode BG2a, the common port of triode BG1a, BG2a collector electrode with connect positive source after resistance R 2a connects, the emitter of triode BG2a connects the anode of the diode of photo coupler TLP1a, the minus earth of diode; The collector electrode of phototube 1-21b connects positive source, emitter and the base stage that meets triode BG3a after resistance R 3a connects, the emitter of triode BG3a connects the base stage of triode BG4a, the common port of triode BG3a, BG4a collector electrode with connect positive source after resistance R 5a connects, the emitter of triode BG4a connects the anode of the diode of photo coupler TLP2a, the minus earth of diode; The termination power positive pole of resistance R 6a, ground connection after the other end is connected with R4a, the drain electrode of field effect transistor NMOS1a connects positive source, the common port connecting resistance R6a of transistor collector among grid and the photo coupler TLP1a, the common port of R4a, transistor emitter ground connection among the photo coupler TLP1a, the source electrode connecting resistance R7a of field effect transistor NMOS1a, R8a, the common port of controllable silicon SCR 1a anode, the E end of coil 2-13c, the negative electrode of the R termination controllable silicon SCR 1a of 2-16c (being the A point), the F end of coil 2-13c, the S end ground connection of 2-16c, the other end of transistor collector connecting resistance R7a among the photo coupler TLP2a, emitter connects the control utmost point of controllable silicon SCR 1a, the other end ground connection of resistance R 8a, the negative electrode of diode D1a connects the negative electrode of controllable silicon SCR 1a, plus earth.

Control circuit 2-17b is made up of phototube 1-19b, 1-20b, triode BG1b-BG4b, photo coupler TLP1b, TLP2b, field effect transistor NMOS1b, controllable silicon SCR 1b, resistance R 1b-R8b, diode D1b, coil 2-14c, 2-15c and power supply.The collector electrode of phototube 1-19b connects positive source, emitter and the base stage that meets triode BG1b after resistance R 1b connects, the emitter of triode BG1b connects the base stage of triode BG2b, the common port of triode BG1b, BG2b collector electrode with connect positive source after resistance R 2b connects, the emitter of triode BG2b connects the anode of the diode of photo coupler TLP1b, the minus earth of diode; The collector electrode of phototube 1-20b connects positive source, emitter and the base stage that meets triode BG3b after resistance R 3b connects, the emitter of triode BG3b connects the base stage of triode BG4b, the common port of triode BG3b, BG4b collector electrode with connect positive source after resistance R 3b connects, the emitter of triode BG4b connects the anode of the diode of photo coupler TLP2b, the minus earth of diode; The termination power positive pole of resistance R 6b, ground connection after the other end is connected with R4b, the drain electrode of field effect transistor NMOS1b connects positive source, the common port connecting resistance R6b of transistor collector among grid and the photo coupler TLP1b, the common port of R4b, transistor emitter ground connection among the photo coupler TLP1b, the source electrode connecting resistance R7b of field effect transistor NMOS1b, R8b, the common port of controllable silicon SCR 1b anode, the M end of coil 2-14c, the negative electrode of the P termination controllable silicon SCR 1b of 2-15c (being the B point), the N end of coil 2-14c, the Q end ground connection of 2-15c, the other end of transistor collector connecting resistance R7b among the photo coupler TLP2b, emitter connects the control utmost point of controllable silicon SCR 1b, the other end ground connection of resistance R 8b, the negative electrode of diode D1b connects the negative electrode of controllable silicon SCR 1b, plus earth.Loophole 1-15e, sensor 1-22a, 1-22b give over to tachometric survey and use.

Embodiment 2: be example with the four cylinder engine

Embodiment 2 except that plastic wheel, sensor is installed plastic channel and control circuit and embodiment 1 different, all the other are all identical with embodiment 1:

Plastic wheel 1-14 goes up the position identical with loophole 1-15 position and posts permanent magnetic sheet 1-18A, 1-19A, 1-20A, 1-21A, 1-22A, the place identical with light emitting diode 1-18a, 1-19a, 1-20a, 1-21a, 1-22a position is housed among the groove 1-16 of sensor Hall transducer 1-18B, 1-19B, 1-20B, 1-21B, 1-22B are installed.

Control circuit 2-18 is that the rod journal position transducer send steam discharge switch electromagnet power supply circuit when being Hall transducer, and control circuit 2-18a is coil 2-13c, 2-16c power supply, and control circuit 2-18b is coil 2-14c, 2-15c power supply.

Control circuit 2-18a is made up of Hall transducer 1-18B, 1-21B, triode BG1c-BG4c, photo coupler TLP1c, TLP2c, field effect transistor NMOS1c-NMOS3c, controllable silicon SCR 1c, resistance R 1c-R14c, diode D1c, coil 2-13c, 2-16c and power supply.The input anode of Hall transducer 1-18B connects positive source, ground connection after negative pole is connected with resistance R 11c, the grid of the public termination field effect transistor NMOS2c of output head anode and resistance R 1c one end, negative pole and the source electrode that meets field effect transistor NMOS2c after resistance R 10c connects, the other end of resistance R 1c, the common port of triode BG1c base stage, the drain electrode of field effect transistor NMOS2c with connect positive source after resistance R 9c connects, the emitter of triode BG1c connects the base stage of triode BG2c, triode BG1c, the common port of BG2c collector electrode with connect positive source after resistance R 2c connects, the emitter of triode BG2c connects the anode of the diode among the photo coupler TLP1c, the minus earth of diode; The input anode of Hall transducer 1-21B connects positive source, ground connection after negative pole is connected with resistance R 13c, the grid of the public termination field effect transistor NMOS3c of output head anode and resistance R 3c one end, negative pole and the source electrode that meets field effect transistor NMOS3c after resistance R 12c connects, the other end of resistance R 3c, the common port of triode BG3c base stage, the drain electrode of field effect transistor NMOS3c with connect positive source after resistance R 14c connects, the emitter of triode BG3c connects the base stage of triode BG4c, triode BG3c, the common port of BG4c collector electrode with connect positive source after resistance R 5c connects, the emitter of triode BG4c connects the anode of the diode of photo coupler TLP2c, the minus earth of diode; The termination power positive pole of resistance R 6c, ground connection after the other end is connected with R4c, the grid of field effect transistor NMOS1c, the common port connecting resistance R6c of transistor collector among the photo coupler TLP1c, the common port of R4c, transistor emitter ground connection among the photo coupler TLP1c, the drain electrode of field effect transistor NMOS1c connects positive source, source electrode connecting resistance R7c, R8c, the common port of controllable silicon SCR 1c anode, the E end of coil 2-13c, the negative electrode of the R termination controllable silicon SCR 1a of 2-16c (being the A point), the F end of coil 2-13c, the S end ground connection of 2-16c, the other end of transistor collector connecting resistance R7c among the photo coupler TLP2c, emitter connects the control utmost point of controllable silicon SCR 1c, the anode of the termination controllable silicon SCR 1c of resistance R 8c, the other end ground connection, the negative electrode of diode D1c connects the anode of controllable silicon SCR 1c, the other end ground connection.

Control circuit 2-18b is by Hall transducer 1-19B, 1-20B, triode BG1d-BG4d, photo coupler TLP1d, TLP2d, field effect transistor NMOS1d-NMOS3d, controllable silicon SCR 1d, resistance R 1d-R14d, diode D1d, coil 2-14c, 2-15c and power supply are formed, the input anode of Hall transducer 1-19B connects positive source, ground connection after negative pole is connected with resistance R 11d, the grid of the public termination field effect transistor NMOS2d of output head anode and resistance R 1d one end, negative pole and the source electrode that meets field effect transistor NMOS2d after resistance R 10d connects, the other end of resistance R 1d, the common port of triode BG1d base stage, the drain electrode of field effect transistor NMOS2d with connect positive source after resistance R 9d connects, the emitter of triode BG1d connects the base stage of triode BG2d, triode BG1d, the common port of BG2d collector electrode with connect positive source after resistance R 2d connects, the emitter of triode BG2d connects the anode of the diode among the photo coupler TLP1d, the minus earth of diode; The input anode of Hall transducer 1-20B connects positive source, ground connection after negative pole is connected with resistance R 13d, the grid of the public termination field effect transistor NMOS3d of output head anode and resistance R 3d one end, negative pole and the source electrode that meets field effect transistor NMOS3d after resistance R 12d connects, the other end of resistance R 3d, the common port of triode BG3d base stage, the drain electrode of field effect transistor NMOS3d with connect positive source after resistance R 14d connects, the emitter of triode BG3d connects the base stage of triode BG4d, triode BG3d, the common port of BG4d collector electrode with connect positive source after resistance R 5d connects, the emitter of triode BG4d connects the anode of the diode of photo coupler TLP2d, the minus earth of diode; The termination power positive pole of resistance R 6d, ground connection after the other end is connected with R4d, the grid of field effect transistor NMOS1d, the common port connecting resistance R6d of transistor collector among the photo coupler TLP1d, the common port of R4d, transistor emitter ground connection among the photo coupler TLP1d, the drain electrode of field effect transistor NMOS1d connects positive source, source electrode connecting resistance R7d, R8d, the common port of controllable silicon SCR 1d anode, the M end of coil 2-14c, the negative electrode of the P termination controllable silicon SCR 1b of 2-15c (being the B point), the N end of coil 2-14c, the Q end ground connection of 2-15c, the other end of transistor collector connecting resistance R7d among the photo coupler TLP2d, emitter connects the control utmost point of controllable silicon SCR 1d, the anode of the termination controllable silicon SCR 1d of resistance R 8d, the other end ground connection, the negative electrode of diode D1d connects the anode of controllable silicon SDR1d, the other end ground connection.

Loophole 1-15e, sensor 1-22A, 1-22B give over to tachometric survey and use.

Embodiment 3:

Embodiment 3 can copy embodiment 1, makes crankshaft transmission low-temperature multi-cylinder piston engines such as single cylinder, eight cylinders, twelve-cylinder, 16 cylinders, the one or more output gears of the common promotion of each group in the bent axle.

Embodiment 4:

On traditional bent axle transmission high temperature multi-cylinder or the piston-engined basis of single cylinder, install the thermal source among the embodiment 1 additional, steam pipe, low boiling point working medium steam forms jar, low boiling point working medium steam and liquid return knock out drum thereof, steam delivery tube, back-steam liquid pipe, send the vapour switch, the steam discharge switch, one-way valve, the vapour adjustable valve, electromagnet, control circuit for electromagnet, the cylinder steam inlet, the cylinder steam ouput, the plastic wheel of band loophole or permanent magnetic sheet, the plastic channel of belt sensor constitutes the dual-purpose motor that both can also can use low boiling point working medium with fuel oil.

Claims (3)

1. crankshaft transmission low-temperature multi-cylinder piston engine, comprise bent axle transmission four cylinder piston flywheel working systems, bent axle transmission four cylinder piston flywheel working systems bent axle (1-2 again wherein, 1-3,1-4), crankshaft main journal bearing bracket and bearing (1-5), cylinder (1-6), cylinder steam inlet (2-19), cylinder steam ouput (2-20), basic (1-7) lives, piston ring (1-8), piston crankshaft-link rod (1-9), crankshaft-link rod bearing (1-10), connecting rod piston coupling arrangement (1-11), output gear (1-12), flywheel (1-13), plastic wheel (1-14) and the plastic channel compositions such as (1-16) of sensor is installed, on plastic wheel (1-14), be processed with loophole (1-15), bent axle (1-2) is again by crankshaft main journal (1-2a, 1-2b, 1-2c, 1-2d, 1-2e) form, bent axle (1-3) is by rod journal (1-3a, 1-3b, 1-3c, 1-3d) form, bent axle (1-4) is by the coupling block (1-4a of crankshaft main journal and rod journal, 1-4b, 1-4c, 1-4d, 1-4e, 1-4f, 1-4g, 1-4h) form, bent axle (1-2,1-3,1-4) a group (1-1) in the formation bent axle, crankshaft main journal bearing bracket and bearing (1-5) are by crankshaft main journal bearing bracket and bearing (1-5a, 1-5b, 1-5c, 1-5d, 1-5e) form, cylinder (1-6) is by cylinder (1-6a, 1-6b, 1-6c, 1-6d) form, piston (1-7) is by piston (1-7a, 1-7b, 1-7c, 1-7d) form, piston ring (1-8) is by piston ring (1-8a, 1-8b, 1-8c, 1-8d) form, piston crankshaft-link rod (1-9) is by piston crankshaft-link rod (1-9a, 1-9b, 1-9c, 1-9d) form, crankshaft-link rod bearing (1-10) is by crankshaft-link rod bearing (1-10a, 1-10b, 1-10c, 1-10d) form, connecting rod piston coupling arrangement (1-11) is by connecting rod piston coupling arrangement (1-11a, 1-11b, 1-11c, 1-11d) form, loophole on the plastic wheel (1-15) is by loophole (1-15a, 1-15b, 1-15c, 1-15d, 1-15e) form, the groove (1-16) that sensor is housed is by sensor (1-18a, 1-18b, 1-19a, 1-19b, 1-20a, 1-20b, 1-21a, 1-21b, 1-22a, 1-22b) form, piston is contained in the cylinder, one on connecting rod is contained on the coupling arrangement of piston, the other end is contained on the rod journal by bearing, crankshaft main journal (1-2a, 1-2b, 1-2c, 1-2d, 1-2e) be contained in crankshaft main journal bearing bracket and bearing (1-5a respectively, 1-5b, 1-5c, 1-5d, 1-5e), output gear (1-12) is contained on the main journal (1-2e) on bent axle right side by key, flywheel (1-13) and plastic wheel (1-14) are gone up by key and are contained on the main journal (1-2a) in bent axle left side, plastic channel (1-16) is contained in the top of plastic wheel (1-14) by support, it is characterized in that: comprise that also low boiling point working medium steam produces the supply reclaiming system, low boiling point working medium steam produces the supply reclaiming system by thermal source (2-1), steam pipe (2-2), low boiling point working medium steam forms jar (2-3), vapour table (2-4), low boiling point working medium steam and liquid return knock out drum (2-5) thereof, valve (2-6), steam delivery tube (2-7), back-steam liquid pipe (2-8), send vapour switch (2-9,2-10), steam discharge switch (2-11,2-12), electromagnet (2-13,2-14,2-15,2-16), control circuit for electromagnet (2-17,2-18), cylinder steam inlet (2-19), cylinder steam ouput (2-2 0) is formed, wherein thermal source (2-1) adds water heater and the pipeline that hot water forms water vapor by solar energy or hot tail vapour or electric furnace and forms, valve (2-6) is by vapour adjustable valve (2-6a, 2-6b, 2-6c), one-way valve (2-6d, 2-6e, 2-6f) form, steam delivery tube (2-7) is by steam delivery tube (2-7a, 2-7b, 2-7c, 2-7d, 2-7e, 2-7f) form, back-steam liquid pipe (2-8) is by back-steam liquid pipe (2-8a, 2-8b, 2-8c, 2-8d, 2-8e, 2-8f) form, send vapour switch (2-9) by cylinder sleeve (2-9a), band piston (2-9b), spring (2-9c), steam inlet (2-9d), steam ouput (2-9e, 2-9f) form, send vapour switch (2-10) by cylinder sleeve (2-10a), band piston (2-10b), spring (2-10c), steam inlet (2-10d), steam ouput (2-10e, 2-10f) form, steam discharge switch (2-11) is by cylinder sleeve (2-11a), band piston (2-11b), spring (2-11c), steam ouput (2-11d), steam inlet (2-11e, 2-11f) form, steam discharge switch (2-12) is by cylinder sleeve (2-12a), band piston (2-12b), spring (2-13c), steam ouput (2-12d), steam inlet (2-12e, 2-12f) form, electromagnet (2-13) is by secured core (2-13a), movable core (2-13b), coil (2-13c), push rod (2-13d), push rod supports (2-13e), push pedal (2-13f) is formed, electromagnet (2-14) is by secured core (2-14a), movable core (2-14b), coil (2-14c), push rod (2-14d), push rod supports (2-14e), push pedal (2-14f) is formed, electromagnet (2-15) is by secured core (2-15a), movable core (2-15b), coil (2-15c), push rod (2-15d), push rod supports (2-15e), push pedal (2-15f) is formed, electromagnet (2-16) is by secured core (2-16a), movable core (2-16b), coil (2-16c), push rod (2-16d), push rod supports (2-16e), push pedal (2-16f) is formed, four cylinder steam inlets (2-19) are by steam inlet (2-19a, 2-19b, 2-19c, 2-19d) form, four cylinder steam ouputs (2-20) are by steam ouput (2-20a, 2-20b, 2-20c, 2-20d) form;

The steam pipe (2-2) of thermal source (2-1) connects low boiling point working medium steam by vapour adjustable valve (2-6a) and forms steam pipe (2-2) in jar (2-3), low boiling point working medium steam forms jar (2-3) and connects vapour table (2-4) again, again by one-way valve (2-6e), vapour adjustable valve (2-6b) is picked steam pipe (2-7), connect low boiling point working medium steam and liquid return knock out drum (2-5) thereof by one-way valve (2-6f) again, low boiling point working medium steam and liquid return knock out drum (2-5) thereof connect low boiling point working medium steam by one-way valve (2-6f) again and form jar (2-3), by vapour adjustable valve (2-6c), one-way valve (2-6d) takes back vapour-liquid pipe (2-8), steam delivery tube (2-7a) is picked the steam inlet (2-9d) of vapour switch (2-9), steam delivery tube (2-7b) is picked the steam inlet (2-10d) of vapour switch (2-10), send the steam ouput (2-9e of vapour switch (2-9), 2-9f) by steam delivery tube (2-7c, 2-7d) meet cylinder (1-6d, steam inlet (2-19d 1-6a), 2-19a), send the steam ouput (2-10e of vapour switch (2-10), 2-10f) by steam delivery tube (2-7e, 2-7f) meet cylinder (1-6b, steam inlet (2-19b 1-6c), 2-19c), the run in steam ouput (2-11d) of vapour switch (2-11) of back-steam liquid pipe (2-8a), the run in steam ouput (2-12d) of vapour switch (2-12) of back-steam liquid pipe (2-8b), steam inlet (the 2-11e of steam discharge switch (2-11), 2-11f) by back-steam liquid pipe (2-8c, 2-8d) meet cylinder (1-6d, steam ouput (2-20d 1-6a), 2-20a), the steam inlet (2-12e of steam discharge switch (2-12), 2-12f) by back-steam liquid pipe (2-8e, 2-8f) meet cylinder (1-6b, steam ouput (2-20b 1-6c), 2-20c); The secured core (2-13a) of electromagnet (2-13) is fixing, movable core (2-13b) becomes to flexibly connect with push rod (2-13d) lower end, push rod (2-13d) upper end becomes to flexibly connect with push pedal (2-13f), band piston (2-9b) left end is pressed close in push pedal (2-13f), the upper end becomes to flexibly connect with push rod support (2-13e) in the push rod (2-13d), (A) point of (E) termination control circuit (2-17a) of coil (2-13c), (F) ground of termination control circuit (2-17a); The secured core (2-14a) of electromagnet (2-14) is fixing, movable core (2-14b) becomes to flexibly connect with push rod (2-14d) lower end, push rod (2-14d) upper end becomes to flexibly connect with push pedal (2-14f), band piston (2-10b) left end is pressed close in push pedal (2-14f), the upper end becomes to flexibly connect with push rod support (2-14e) in the push rod (2-14d), (B) point of (M) termination control circuit (2-17b) of coil (2-14c), (N) ground of termination control circuit (2-17b); The secured core (2-15a) of electromagnet (2-15) is fixing, movable core (2-15b) becomes to flexibly connect with push rod (2-15d) lower end, push rod (2-15d) upper end becomes to flexibly connect with push pedal (2-15f), band piston (2-12b) right-hand member is pressed close in push pedal (2-15f), the upper end becomes to flexibly connect with push rod support (2-15e) in the push rod (2-15d), (B) point of (P) termination control circuit (2-17b) of coil (2-15c), (Q) ground of termination control circuit (2-17b); The secured core (2-16a) of electromagnet (2-16) is fixing, movable core (2-16b) becomes to flexibly connect with push rod (2-16d) lower end, push rod (2-16d) upper end becomes to flexibly connect with push pedal (2-16f), band piston (2-11b) right-hand member is pressed close in push pedal (2-16f), the upper end becomes to flexibly connect with push rod support (2-15e) in the push rod (2-16d), (A) point of (R) termination control circuit (2-17a) of coil (2-16c), (S) ground of termination control circuit (2-17a).

2. crankshaft transmission low-temperature multi-cylinder piston engine as claimed in claim 1, it is characterized in that: control circuit (2-17a) is by phototube (1-18b, 1-21b), triode (BG1a-BG4a), photo coupler (TLP1a, TLP2a), field effect transistor (NMOS1a), controllable silicon (SCR1a), resistance (R1a-R8a), diode (D1a), coil (2-13c, 2-16c) form with power supply, the collector electrode of phototube (1-18b) connects positive source, emitter and the base stage that meets triode (BG1a) after resistance (R1a) is connected, the emitter of triode (BG1a) connects the base stage of triode (BG2a), triode (BG1a, BG2a) common port of collector electrode with connect positive source after resistance (R2a) is connected, the emitter of triode (BG2a) connects the anode of the diode of photo coupler (TLP1a), the minus earth of diode; The collector electrode of phototube (1-21b) connects positive source, emitter and the base stage that meets triode (BG3a) after resistance (R3a) is connected, the emitter of triode (BG3a) connects the base stage of triode (BG4a), the common port of triode (BG3a, BG4a) collector electrode with connect positive source after resistance (R5a) is connected, the emitter of triode (BG4a) connects the anode of the diode of photo coupler (TLP2a), the minus earth of diode; One termination power positive pole of resistance (R6a), ground connection after the other end is connected with (R4a), the drain electrode of field effect transistor (NMOS1a) connects positive source, common port connecting resistance (the R6a of transistor collector in grid and the photo coupler (TLP1a), R4a) common port, transistor emitter ground connection in the photo coupler (TLP1a), source electrode connecting resistance (the R7a of field effect transistor (NMOS1a), R8a), the common port of controllable silicon (SCR1a) anode, (E) end of coil (2-13c), the negative electrode of (R) termination controllable silicon (SCR1a) (2-16c), (F) end of coil (2-13c), (S) end ground connection (2-16c), the other end of transistor collector connecting resistance (R7a) in the photo coupler (TLP2a), emitter connects the control utmost point of controllable silicon (SCR1a), the other end ground connection of resistance (R8a), the negative electrode of diode (D1a) connects controllable silicon (negative electrode of SCR1a0, plus earth;

Control circuit (2-17b) is by phototube (1-19b, 1-20b), triode (BG1b-BG4b), photo coupler (TLP1b, TLP2b), field effect transistor (NMOS1b), controllable silicon (SCR1b), resistance (R1b-R8b), diode (D1b), coil (2-14c, 2-15c) form with power supply, the collector electrode of phototube (1-19b) connects positive source, emitter and the base stage that meets triode (BG1b) after resistance (R1b) is connected, the emitter of triode (BG1b) connects the base stage of triode (BG2b), triode (BG1b, BG2b) common port of collector electrode with connect positive source after resistance (R2b) is connected, the emitter of triode (BG2b) connects the anode of the diode of photo coupler (TLP1b), the minus earth of diode; The collector electrode of phototube (1-20b) connects positive source, emitter and the base stage that meets triode (BG3b) after resistance (R3b) is connected, the emitter of triode (BG3b) connects the base stage of triode (BG4b), the common port of triode (BG3b, BG4b) collector electrode with connect positive source after resistance (R3b) is connected, the emitter of triode (BG4b) connects the anode of the diode of photo coupler (TLP2b), the minus earth of diode; One termination power positive pole of resistance (R6b), ground connection after the other end is connected with (R4b), the drain electrode of field effect transistor (NMOS1b) connects positive source, common port connecting resistance (the R6b of transistor collector in grid and the photo coupler (TLP1b), R4b) common port, transistor emitter ground connection in the photo coupler (TLP1b), source electrode connecting resistance (the R7b of field effect transistor (NMOS1b), R8b), the common port of controllable silicon (SCR1b) anode, (M) end of coil (2-14c), the negative electrode of (P) termination controllable silicon (SCR1b) (2-15c), (N) end of coil (2-14c), (Q) end ground connection (2-15c), the other end of transistor collector connecting resistance (R7b) in the photo coupler (TLP2b), emitter connects the control utmost point of controllable silicon (SCR1b), the other end ground connection of resistance (R8b), the negative electrode of diode (D1b) connects the negative electrode of controllable silicon (SCR1b), plus earth.

3. crankshaft transmission low-temperature multi-cylinder piston engine as claimed in claim 1, it is characterized in that: control circuit (2-18a) is by Hall transducer (1-18B, 1-21B), triode (BG1c-BG4c), photo coupler (TLP1c, TLP2c), field effect transistor (NMOS1c-NMOS3c), controllable silicon (SCR1c), resistance (R1c-R14c), diode (D1c), coil (2-13c, 2-16c) form with power supply, the input anode of Hall transducer (1-18B) connects positive source, ground connection after negative pole is connected with resistance (R11c), the grid of the public termination field effect transistor (NMOS2c) of output head anode and resistance (R1c) end, negative pole and the source electrode that meets field effect transistor (NMOS2c) after resistance (R10c) is connected, the other end of resistance (R1c), the common port of triode (BG1c) base stage, the drain electrode of field effect transistor (NMOS2c) with connect positive source after resistance (R9c) is connected, the emitter of triode (BG1c) connects the base stage of triode (BG2c), triode (BG1c, BG2c) common port of collector electrode with connect positive source after resistance (R2c) is connected, the emitter of triode (BG2c) connects the anode of the diode in the photo coupler (TLP1c), the minus earth of diode; The input anode of Hall transducer (1-21B) connects positive source, ground connection after negative pole is connected with resistance (R13c), the grid of the public termination field effect transistor (NMOS3c) of output head anode and resistance (R3c) end, negative pole and the source electrode that meets field effect transistor (NMOS3c) after resistance (R12c) is connected, the other end of resistance (R3c), the common port of triode (BG3c) base stage, the drain electrode of field effect transistor (NMOS3c) with connect positive source after resistance (R14c) is connected, the emitter of triode (BG3c) connects the base stage of triode (BG4c), triode (BG3c, BG4c) common port of collector electrode with connect positive source after resistance (R5c) is connected, the emitter of triode (BG4c) connects the anode of the diode of photo coupler (TLP2c), the minus earth of diode; One termination power positive pole of resistance (R6c), ground connection after the other end is connected with (R4c), the grid of field effect transistor (NMOS1c), common port connecting resistance (the R6c of transistor collector in the photo coupler (TLP1c), R4c) common port, transistor emitter ground connection in the photo coupler (TLP1c), the drain electrode of field effect transistor (NMOS1c) connects positive source, source electrode connecting resistance (R7c, R8c), the common port of controllable silicon (SCR1c) anode, (E) end of coil (2-13c), the negative electrode of (R) termination controllable silicon (SCR1a) (2-16c), (F) end of coil (2-13c), (S) end ground connection (2-16c), the other end of transistor collector connecting resistance (R7c) in the photo coupler (TLP2c), emitter connects the control utmost point of controllable silicon (SCR1c), the anode of one termination controllable silicon (SCR1c) of resistance (R8c), the other end ground connection, the negative electrode of diode (D1c) connects the anode of controllable silicon (SCR1c), the other end ground connection;

Control circuit (2-18b) is by Hall transducer (1-19B, 1-20B), triode (BG1d-BG4d), photo coupler (TLP1d, TLP2d), field effect transistor (NMOS1d-NMOS3d), controllable silicon (SCR1d), resistance (R1d-R14d), diode (D1d), coil (2-14c, 2-15c) form with power supply, the input anode of Hall transducer (1-19B) connects positive source, ground connection after negative pole is connected with resistance (R11d), the grid of the public termination field effect transistor (NMOS2d) of output head anode and resistance (R1d) end, negative pole and the source electrode that meets field effect transistor (NMOS2d) after resistance (R10d) is connected, the other end of resistance (R1d), the common port of triode (BG1d) base stage, the drain electrode of field effect transistor (NMOS2d) with connect positive source after resistance (R9d) is connected, the emitter of triode (BG1d) connects the base stage of triode (BG2d), triode (BG1d, BG2d) common port of collector electrode with connect positive source after resistance (R2d) is connected, the emitter of triode (BG2d) connects the anode of the diode in the photo coupler (TLP1d), the minus earth of diode; The input anode of Hall transducer (1-20B) connects positive source, ground connection after negative pole is connected with resistance (R13d), the grid of the public termination field effect transistor (NMOS3d) of output head anode and resistance (R3d) end, negative pole and the source electrode that meets field effect transistor (NMOS3d) after resistance (R12d) is connected, the other end of resistance (R3d), the common port of triode (BG3d) base stage, the drain electrode of field effect transistor (NMOS3d) with connect positive source after resistance (R14d) is connected, the emitter of triode (BG3d) connects the base stage of triode (BG4d), triode (BG3d, BG4d) common port of collector electrode with connect positive source after resistance (R5d) is connected, the emitter of triode (BG4d) connects the anode of the diode of photo coupler (TLP2d), the minus earth of diode; One termination power positive pole of resistance (R6d), ground connection after the other end is connected with (R4d), the grid of field effect transistor (NMOS1d), common port connecting resistance (the R6d of transistor collector in the photo coupler (TLP1d), R4d) common port, transistor emitter ground connection in the photo coupler (TLP1d), the drain electrode of field effect transistor (NMOS1d) connects positive source, source electrode connecting resistance (R7d, R8d), the common port of controllable silicon (SCR1d) anode, (M) end of coil (2-14c), the negative electrode of (P) termination controllable silicon (SCR1b) (2-15c), (N) end of coil (2-14c), (Q) end ground connection (2-15c), the other end of transistor collector connecting resistance (R7d) in the photo coupler (TLP2d), emitter connects the control utmost point of controllable silicon (SCR1d), the anode of one termination controllable silicon (SDR1d) of resistance (R8d), the other end ground connection, the negative electrode of diode (D1d) connects the anode of controllable silicon (SCR1d), the other end ground connection.

Images