SU1341377A1 - Magnetic heat engine - Google Patents

Abstract

And:) () b) С 1Ч || И1 v ;. b. igsh ..; ... willow. n | .- ;. ve stationary.x ii iU pr.i ii: / K ii, ix (.п. i4ii..i 19 yriiiHOBOK and iio.iBo, 1 е i iKiiu.ri.,: i., i; iinnoi. гь 11 ( c-G () Я11111 11 magnets 9 12 out i, cut in vi and iTKTopon, shift 1 s otgts and with:.; 0 other pipe I BU), ib axis poio | ia and ravor m N 1.o / cll 110 |) cr / knosgs. E. icAUMi .S I); backups to i-. 1, I hiiii I. | ui: H (Ii; NSH oiro i.ncMori Ma 1H | 1 |, 1. H1, K magnets 1 rm 1c, 1H1o on iii ii GAKOS NNO I 1: 4: iai NO 1 Hblii MO .U i: neither d. 11,110 (and rpiiCI and I. KI:. I.:. I ili I: ii, / h, h.: IOC 10Y11 1; I; ii g.. H × DVa a; g, I. ca I iBi.). (((Hf, illHH rl) i; i, i:; i. kip.) I -; ....; ixojiiix ca., ij: s. H 11.1. (L

Description

The invention relates to mechanical engineering, namely to magnetic-thermal motors, which generate a magnetic moment on the rotor due to a change in the magnetization of thermomagnetic elements during heating and cooling, and can be radiated to E by the composition of stationary and forward power devices. .

The aim of the invention is to increase power by using additional magnetisation of the body mass to increase the magnetic moment of the rotor.

On | {) u. 1 shows a schematic diagram of an 11red, 1-dagged motor; in fig. 2 - 11ed, 1a1 motor and 1b from the initial position 1 1 j.ieMeHTOB before starting work, perspective view; in fig. 3 one of the m; and | -k1) n magnetic circuit of the proposed move- 1.1 mm. pai | H,; io mashptam ro jura and thermo m: g iUi I Hi, iN .leMCinaM enclosures.

agnit111 -te ||. | s () 1 .l contains .jijjiiyc 1 an1), 1e1P: They are fixed in it by the stationary memory 2 and thermally magnetic (.1 3 (i in the form of Ten; ioBi) ix g |) ub. In case 1 of bearings 7 we install MaiiinTiUiiM yugor 8, pa someone 1) ohm-I Dii.iCHiii. Chopo. PPGG.i.poye permanent magnet 1Y 12 1 () one for each (1Y;), 1meite L fi soogvegsGENMPYu. . VlaE UHTi, 9 12 vipul- iifni.i in the zide of sectors 1,3, mutually shifting n, | July 14 is the shaft of S ot S and is equal to each other, but it is ok). E, 1st iT, i 3 D) n | 1kren.1en1,1 to KOfiiiycy 1 in n,: 1oskos 1ch v4 Kri | ioB 13. Building 1 in the form of dis. i-iii; i, iai r1i 1op) () nppaemno1C) matter, Mill no) () water forms 2 machine-like peppies in position of sectors 1.4 and a progive with the use of pen-moving magnets :). | elements.} N. TsevolviyE, 1e Permanent magpit 2 d,: 1 up-: 1Ч1 and 1П1 const) print type can 1 b) GG1; 1 (1), 1 ень 1 пр 1 вари м те, на на на п частей частей на на на на на на на на на на 11 11 11 11 11 11 11 11 еред еред и и зад зад зад зад зад зад зад зад ((i i i i (i ог roguer s) (1lpen1, пз iieMarnirrnoro м-Г1 рiа.1а. Those |) page 1 si, meMIHIiii1i, MEMIHIiIiIiIiTIiIiIiIiIIIiIiIrIrIa1a .nio nieiii.i in the form of fittings. along X-section1)) P11 displacement of magi- tic 9 12 arcs () org of wavy plates 17 made of thermo-magnetic Maiepiia.ia, attached to only one of the ends, leiiiii hollow sealed radial ki 18, with the other ends fixed in a case 1. Pipe 18 is evacuated1 1, tea- (apo.cn. Heat, carry, 1st and third, iii of the gravitating material,: 1a, which is heated, for example, to 100 110 ° С ManinTHiiie properties, and at 80–90 ° С, 1gco and si, 1n is magnetized in weak magneto1.1x by, tons x. Tubes 18 are heat pipelines (thermo siphope E) 1 | with the areas of evaporation and confection, located on the outer and EuiyTpenHnx of their cabinets.

(both sides) of thermomagnetized elements, 3 V HEATED) E nozzles 19 for preparing Eiapa and nozzles 20 D.YE EEOD- water oh. I impose hardness. Nozzles

19 are connected to the coil 21, located inside the heat accumulator 22, by means of pipelines with electro-magnetic valves 23 installed therein. The nozzles 20 are connected to the coolant reservoir 24 by means of pipelines with electro-magnetic valves 25 installed in them ..

Electromagnetic valves 23 (Fig. 2) of the joint venture with a distributor 26 electr0

0

pulses located on the shaft 14 of the rotor 8 and made in the form of cams 27, the spans of which are arranged in the plane parallel to the axis of symmetry of the EE-side magnets 9-- 12 of the rotor 8, interacting with pairs of EE 28 with some pairs) 1m of exEelectric. specified by EEI. Electromagnetics valves 25 are connected with another (lacé distributor of 29 electropulses, also located on the pa, lu 14 of the rotor 8 and made in the form of cu0, Eacchkov 30 ЕЕ Eiap koEetaktov 31.

VEEK, EYUCHATE, EE) .32 E is intended for a single-time supply of an electric pulse to all e, 1 ect) a signal E1ITE1E, its class 23 E, EI of their otkreE) Pi. The electrolytic EE 33 with KLEEEan 34 pre, 1E) EEOE is about pressure OE1 s, it is necessary to create the necessary pressure, -1EE1 and cooling liquid in the system and to inject it into the coil 21 of the TELELEVAL accumulator 22 through the reverse ELEVATOR 35 in the moments, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, the moment, or the time, the moment, the reversed EEG, go to it . Distribute. The power supply is 36 EEO connected to the sensor, 37 teEeEtures and EARNING for EE directing a part of Eyutka cools cooling liquid to the radiator 38 GEO eegeee sensor 37. Sensor 39 is used to measure the pressure of the Eiapa BE1 set E coil 21

5 DRAWINGS 40. Drosse, EILE Crane 41 1Education for regul, EiR () VAP (EYE flow rate, EE flow to electromagnetics) 1m valves 23, To coil 21 EEnter valve, you need to go to the drawer 23, the valves 23, to the coil 21 d, its metering temperatureE) E thermomagnetic (EEE) EX e, EeeE tov 3 -6.

An electric heater 45 and a flat heat pipe 46 are installed in the heat accumulator 22 to accumulate the heat energy. The cavities around the thermal magnetic elements 3-6 are connected to the drainage reservoir 24 tubes 47. The check valve 48 is designed to provide the necessary pressure in the cooling system . The main switch 49 is intended to be connected to the electrical circuit of the current source 50 and is connected for joint control with the switches 43, 32 and the throttling valve 41.

The engine works in the following way.

5B of the initial position (FIGS. 1 and 2), the heat accumulator 22 is charged with thermal energy, the rotor 8 is located in the Application, one of its magnet 9 is dissolving and, opposite to the thermomagnetic element 3, the thermomagnetic elements 3-6 are cold (after a long standing). The throttle valve 41 is closed, the drug inside the coil 21 is missing, the solenoid valve 42 is de-energized and closed, the main switch 49 is turned off. The temperature of the liquid in the tank 24 is equal to the ambient temperature, and at the command of the sensor 37, the radiator 38 is disconnected from the cooling system by the control valve 36.

The engine is started by the lever of the throttle valve 41. Before opening the metering section of the valve 41, the switches 49 and 43 are turned on, the electric pump 33 starts working, the electromagnetic valve 42 opens, the fluid from the cooling system is injected through the non-return valve 35 into the coil 21, where high temperature of the heat-accumulating composition produces steam with a temperature of 700-750 ° C. When the vapor pressure reaches a predetermined value, the sensor 39 is activated, the warning lamp 40 lights up and the check valve 35 closes.

As the lever of the throttle valve 41 nk moves further, the main switch 32 is blended and at the same time the metering section starts to open, through which the steam, having a high pressure and temperature, rushes along the carbon ions to the solenoid valves 23.

Since when the switch 32 is turned on, all the valves 23 iiap open into the nozzles 19 and heat all the thermomagnetic elements 3-6. Having warmed up to the temperature of the Curie point of the alloy from which elements 3-6 are made1) 1, the latter lose their magnetic properties and magnets 9-12 no longer hold elements 3-6. During further movement of the crane lever 41, the pushbutton switch 32 is turned off, all valves 23, except valve 23 of element 3, are closed and steam continues to flow only to thermomagnetic element 3. The previously activated ecpump 33 delivers fluid to solenoid valves 25, through which sprayed in the nozzles 20, the liquid falls on the elements 4 and 5, as their valves 25 are open (contacts 28 are closed).

After the key switch 32 is turned off, the liquid cools only elements 4 and 5, and elements 3 and 6 remain heated: element 3 due to the fact that high temperature steam acts on the Fiero, and element 6 because of the residual temperature.

Since elements 3 and 6 are heated to the Curie temperature of the alloy from which they are made, they do not possess magnetic properties and do not hold magnets 9 and 12 around themselves, and element 5 does not interact with magnet 11, since they are diametrically located at this moment.

The magnet 10, which is ib, 1nzi KJIOMKH of element 4, tends to attract iioc. ie.i him and turns the rotor 8 counterclockwise (Fig. 2). The magnetic field of the permanent magnet 10 magnetizes the thermomagnetic material of the element 4 and part of the body I of the engine. An additional permanent magnet 2 (Fig. 3) contributes to the increase in the attraction of magnet 10 to element 10 by element 4. d which enhances the magnetic flux in the circuit.

After the rotor 14 shaft 8 of the iioBefins is 90 ° and the magnet 10 of the rotor 8 is opposite the thermomagnetic element 4, the cam 27 also rotates by 90 °:: contacts 28 (second pair), in pe5

As a result, through the corresponding valve 23 and nozzle 19, the thermomagnetic element 4 begins to receive steam from the coil 21, oh, 1h 4t) is limited by the Curie temperature and1 terre recorder properties.

Q In this case, the magnet 10 stops at; 1e | 1zhivat- with extruder 4, but the porofia 8 iijio termination continues at the expense of the mutual magnet 1 1 with e, pemeptom 5. Yes, the first on-line sanction is repeated with the successive and ( Anm () is a thermomagnetic e.1e 1ent 3 ti magnet5 MP 9 12 rotor H with iio.i holding a continuous rotation of il. i: i 14.

After the kick () .k-1 / k; 1yup1a liquid nrO1 reregs a schp selection I en. ia from elements 3 6 to SO П1) С. (below the point

QC) with their material), the sensor is flashing, 37 and opens with K.iaiian 3i i. the extent to which part of the liquid is bypassed. radi.ch- I op 38, in the result of which); a pura of liquid n () holdings and n) e.U. 1 and S (i 90 (.. Since the temperature difference: between the values 5 and mn 80 80 90 C (below the Kürn point of the material e, 1 elements 3 () n 100 C. IiibiHie Curie points) is 20 GF G. .. ngprei and laden with e. 3 (in this interval, a gap B | ie0 meni. Ge1 1 to the core and uniform npipeiu and okhazhdenik) is carried out for the elements 3 li also contributes to their appearance in the form of tented sump pipes. When steam has the maximum temperature on the order of 700 75 (1 s., pop.chaeg through nozzles 19 (phi1. 1, 3) to the lower parts

5 tubes 18, ten-posit.n, nn three settled in this zone evaporates, and with it the load 1 goes up in the middle of the scene. Condensing condensation on the surface of Ks in the condensation zones, gives steam nm of CBOI. heat and heats them, bhp this b, |; and the gift to the property of tep0, -1pipes, the temperature ") comes to us. the time interval to temperature is evaporation. (1 unit of tubes 18 of the heads of N and aeaaaaaa, 1ı1o with steam from the nozzle 19.

When ku, packet 27 opens contacts 28. valve 23 closes, H (J o.1 depressed - H1a ZDKOST1) does not flow into (|) as long as the corresponding magnet is 9, 10. 11 and. w 12 rotor 8 will not come out from: 1poy 1i, - | imodeyst1 and

with an appropriate thermomagnetic element 3, 4, 5 or 6.

In order to increase the speed of rotation of the shaft 14, the flow area in the throttle valve 41 is increased, while the elements 3-6 through the nozzles 19 are supplied with a larger amount of high temperature steam and the elements 3-6 heat up faster. In order to prevent excessive overheating of elements 3-6, the temperature is controlled by a thermometer 44. When the temperature of elements 3-6 is exceeded, 110-120 ° C covers valve 41 and the steam consumption decreases.

The use of high-temperature industrial heat waste, electricity or concentrated solar energy as a source of heat energy of a heat accumulator 22 will eliminate or reduce the pollution of the environment.

Claims (3)

1. Magneto-thermal engine, comprising a housing with a fixed permanent magnet installed in it, thermomagnetic elements in the form of heat pipes, -V-i38 33 J associated with the means of their heating and cooling, and a magnetic rotor installed in the housing, characterized in that, in order to increase power by using additional rotor magnets mounted on the rotor to increase the magnetic moment of the rotor, additional magnetization of the housing mass is each element, made in the form of sectors, mutually shifted along the axis of the rotor and evenly spaced around its circumference, the elements attached to the body in the planes of the sectors, and the body in the form made th magnetic core of magnetically permeable material fixed magnet forms a magnetic circuit in the position opposite sectors elements. 2. An engine according to Claim 1, characterized in that at least one fixed permanent magnet is additionally installed in the magnetic core. 3. The engine for PP. 1 and 2, characterized in that, in order to simplify the construction, the stationary permanent magnets are made of pre-magnetized body parts. 46 21 22 FIG. one FIG. J