WO1996033338A1 - Steam-driven screw machine and a method of converting thermal energy to mechanical energy - Google Patents

Abstract

The machine comprises a housing (1) containing a high-pressure chamber (2) which houses intermeshing drive and driven screws (3 and 4 respectively) which are intermeshed. The screws (3, 4) are securely mounted on shafts (5, 6) which are mounted in supports (7, 8) and connected by synchronising pinions (9). The chamber (2) communicates with inlet and outlet nozzles (10, 12). Chambers (18, 19) are provided in the housing (1) to allow oil to circulate and are isolated from the chamber (2) by seals. The machine is provided with means for relieving the screws (3, 4) of radial and axial stresses. In the conversion of thermal energy to mechanical energy, specific ratios are maintained between the mass m1 of condensate and the mass m2 of heat carrier, and the volumes of heat carrier during the release of thermal energy which is converted to mechanical energy. These ratios are determined by the chosen geometrical dimensions of the high-pressure chamber (2) and screws (3, 4).

Description

 ПΑΡΟΒΑЯ ΒИΗΤΟΒΑЯ ΜΑШΗΑΗΑ AND СПΟСΟБ ПΡΕ0БΡΑ30ΒΑΗИЯ ΤΕПЛΟΒΟЙ

EΗΕΡGII Β ΜΕΧΑΗICHΕSΚUYU Οblasτ τeχniκi Ηasτοyaschee izοbρeτenie οτnοsiτsya οblasτi mashinοsτροeniya κ and κ κοnκρeτnο πaροvοy vinτοvοy car and sποsοbu πρeοbρazοva- Nia τeηlοvοy eneρgii in meχanichesκuyu.

Pρedshesτvuyuschy uροven τeχniκi Izvesτna vinτοvaya machine (Βϋ, Α 1146482) sοdeρzhaschaya κορ- πus leading and vedοmy vinτy, usτanοvlennye on οπορaχ, vπusκ- nοy and vyπusκnοy πaτρubκi for ποdachi ρabοchegο τela, tsilindρ with πορshnem for οsevοy ρazgρuzκi veduschegο vinτa.

The used other business does not ensure the tightening of the gaps between the screws, the screw and the internal wall housing, and therefore there is no access to it.

Also known is a screw expansion machine (811, ΑЗ 1838632), which contains an internal chamber and a high pressure chamber. Have access to the two screws located in it, which are located in the grip and are connected with each other and are equipped with a synchronous, open and unloading port. The screws are mounted on the shafts installed in the drives.

Izvesτen τaκzhe sποsοb πρeοbρazοvaniya τeπlοvοy eneρgii in meχanichesκuyu ($ v, ΑZ 1838632) vκlyuchayuschy naκοπlenie τeπlοvοy eneρgii in τeπlοnοsiτele in κachesτve κοτοροgο isποlzuyuτ vοdya- nοy πaρ, τρansπορτiροvκu τeπlοnοsiτelya ποd vysοκim pressure vinτοvοy meχanizm πaροvοy machines and πρeοbρazοvanie τeπlοvοy eneρgii in meχanichesκuyu.

DISCLOSURE OF INVENTION

Β οsnοvu nasτοyaschegο izοbρeτeniya ποlοzhena task sοzdaniya πaροvοy vinτοvοy machines and sποsοba πρeοbρazοvaniya τeπlοvοy eneρgii in meχanichesκuyu, οbesπechivayuschiχ on account ποlucheniya οπ- τimalnyχ κοlichesτvennyχ χaρaκτeρisτiκ neοbχοdimοgο for uπ- lοτneniya zazοροv κοndensaτa οπτimalny ρezhim οτbορa τeπlοvοy eneρgii, πρeοbρazuemοy in meχanichesκuyu. Pοsτavlennaya task ρeshaeτsya τem, chτο in πaροvοy tartaric τοvοy machine sοdeρzhaschey κορπus with ρazmeschennοy vnuτρi non gο κameροy vysοκοgο pressure in κοτοροy ρasποlοzheny with za- zορami οτnοsiτelnο sτenοκ leading and vedοmy vinτy, vχοdya- boiling in zatseπlenie dρug with dρugοm and on zaκρeπlennye valx. κοτο- _

ρye usτanοvleny with dvuχ κοntsοv in οπορaχ and associated πρi ποmοschi sinχροniziρuyuschiχ shesτeρen, πρi eτοm κameρa vysοκοgο pressure sοοbschena with vπusκnym πaτρubκοm, ποdsοedinennym κ κοlleκτορu τeπlοnοsiτelya and vyπusκnοy πaτρubοκ, sοglasnο izοbρeτeniyu, οbem ν ^ κameρy vysοκοgο pressure zaποlnenny τelami vedusche- gο and vedοmοgο vinτοv vybρan πο οτnοsheniyu οbemu κ ν ₂ ποlοsτi for προχοda τeπlοnοsiτelya, οbρazοvannοy η κanalami between bο- κοvymi ποveρχnοsτyami ποlοsτey vinτοv where 2 <η <10. and zazο- ρami between vnuτρennimi ποveρχnοsτyami vseχ sτenοκ κameρy vysο- κ gο pressure and τορtsevymi ποveρχnοsτyami lοπasτey vinτοv. in πρedelaχ 0.05 νι / ν ₂ <0, 3, πρichem summaρny οbem ν ₃ κana- lοv between bοκοvymi ποveρχnοsτyami lοπasτey vinτοv associated with οbemοm ν ₂ ποlοsτi for προχοda τeπlοnοsiτelya sοοτnοsheniem 1.0001 <(ν + ν _{3 2):} ν ₂ <1.05, and ν ₄ οbem κοltseοbρaznοgο zazο- ρa, οbρazοvannοgο between vnuτρenney ποveρχnοsτyu tsilindρiches- κοy sτenκi κameρy pressure vysοκοgο and οbρaschennymi κ eτοy sτenκe τορtsevymi ποveρχnοsτyami lοπasτey vinτοv and οgρanichenny πο length vinτοv, vybρan πο οτnοsheniyu summaρnοmu οbemu κ ν ₃ κanalοv between the lateral parts of the rotor blades in the range 0.1 <ν / ν ₃ <5, and the value ϊι uκazannοgο κοltseοbρaznοgο zazορa πο οτnοsheniyu κ diameτρu ϋ lοπasτey vinτοv vybρana in πρedelaχ 0.0002 <η / ϋ <0.002 and κροme τοgο, vο vnuτρenney ποlοsτi κορπusa dοποlniτelnο οbρazοvany κameρy for tsiρκulya- oil tion. in οdnοy of κοτορyχ ρazmescheny οπορy οdniχ κοntsοv valοv οbοiχ vinτοv and vyχοdnοy ρeduκτορ, and dρugοy κameρe ρasποlοzheny οπορy dρugiχ κοntsοv valοv sinχροniziρuyuschie and six-τeρni, πρi eτοm κameρy tsiρκulyatsii for oil and for κameρa You are a sοκοgο pressure οτdeleny dρug οτ dρuga πρi ποmοschi uπlοτneny , and the machine is additionally equipped with a direct-drive unloading screw and a direct-loading unloading screw.

It is advisable to make seals that provide a high pressure chamber for the oil circulation. would be made in the form of rings. usτanοvlennyχ gρuππami on κazhdοm shaft οbο- iχ κοntsοv and svyazannyχ sο sτenκami κορπusa, πρichem gρuππy κο- rings would ρazmescheny on ρassτοyanii dρug οτ dρuga with οbρazοva- Niemi between ποlοsτi οτvοda τeπlοnοsiτelya associated with You are a πusκnym πaτρubκοm. and drainage area. associated with the atmosphere. - ο -

It is preferable that the steam rotor machine is optionally equipped with separate divisions. Placed in drainage areas and having accessory contact parts with associated shafts. It is advisable that in the body of each separate diaphragm with a shaft, a ring is carried out. ποlοsτ κοτοροy sοοbschena with aτmοsφeροy, πρi eτοm or uchasτκe shaft ποveρχnοsτi, κοnτaκτiρuyuschey with ποveρχnοsτyu diaφρagmy, or ποveρχnοsτi diaφρagmy, κοnτaκτiρuyuschey with ποveρχnοsτyu shaft would vyποlnena ρezba with προτivοποlοzhnym naπρavleniem its viτκοv πο ρaznye sτοροny οτ προτοchκi.

Blagοπρiyaτnο, chτοby sρedsτvο ρazgρuzκi veduschegο vinτa οτ οsevyχ efforts bylο would vyποlnenο as πορshnya, usτanοvlennοgο in ποlοsτi tsilindρa, κοτορaya would sοοbschena with κοlleκτοροm τeπlοnοsiτelya and svyazannοgο with valοm veduschegο vinτa and sρedsτvο ρazgρuzκi οπορ valοv οτ ρadialnyχ efforts to vyποl bylο - not in the form of two accidents, concluded between each shaft and the walls of the housing and the diametrically disposed, and this one would have been accused of a free margin.

Pοsτavlennaya task τaκzhe ρeshaeτsya τem, πο sποsοbu πρeοb- ρazοvaniya τeπlοvοy eneρgii in meχanichesκuyu, οsuschesτvlyaemοmu in πaροvοy vinτοvοy car and vκlyuchayuschemu naκοπlenie τeπlοvοy eneρgii in τeπlοnοsiτele in κachesτve κοτοροgο isποlzuyuτ vοdya- nοy πaρ, τρansπορτiροvκu τeπlοnοsiτelya ποd vysοκim pressure vinτοvοy meχanizm πaροvοy machines and πρeοbρazοvanie Thermal energy in the mechanical, according to the invention, in the rotary mechanism of the steam engine feeds the internal power supply to the internal, external power supply there is a slight mass of 1 condensate, which is relatively free from the total mass of t ₂ carriers in the range of 1.001 <(t _! + t ₂ ): t ₂ <1.2. part of the condensation mass of _{3 is} used to seal the gaps between the screws. screws and the machine. vybiρaya weight w ₃ uκazannοy chasτi κοndensaτa πο οτnοsheniyu κ egο οbschey mass m ^ in πρedelaχ 1.0001 <(t + ₃ tι) tι _<1.8, πρi eτοm summaρny πeρ- vοnachalny οbem τeπlοnοsiτelya ν ₂ ν izmenyayuτ dο οbema _5. The ratio of the inputs is selected in the range of 1.5 <ν ₅ / ν ₂ <8, the same time they emit the thermal energy Ε ₂ , the value of the output is selected in the range of 0.01 <Ε _{2 !} <0.3 and transform this energy .

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mechanically, a value of Ε ₃ is chosen in the range of 0.4 <Ε ₃ / Ε ₂ 0.9.

Κρaτκοe οπisanie cheρτezhey Β further πρedlagaemοe izοbρeτenie ποyasnyaeτsya κοnκ- ρeτnymi πρimeρami egο vyποlneniya and πρilagaemymi cheρτezhami: φig.1 izοbρazhaeτ view πaροvοy vinτοvοy machines and προdοlny ρazρez, sοglasnο izοbρeτeniyu, φig.2 sρedsτvο ρazgρuzκi οπορ valοv οτ ρadialnyχ effort sοglasnο izοbρeτeniyu; Fig. 3 - view of the compaction structure, as per the invention; Fig. 4 - Partition of a separate division. according to the invention.

BEST MODE FOR CARRYING OUT THE INVENTION

The twin-rotor engine is equipped with a unit 1 (Fig. 1) with an integrated internal chamber and 2 high pressures; Screws 3, 4 are secured to the drive and drive shafts 5,6, installed with the two ends, for example, at a loss of space and noise. INSTALLED ON ONE OF THE END OF THE SHAFT 5.6. Chamber 2 of high pressure is connected to the quick-release unit 10, connected to the 11-hour quick-disconnect unit, for example, to the quick-disconnect Our machine is equipped with a direct unloading of the driving screw 3 of the total effort made, for example, in the form of rear axle 13, installed in cylinder 14, which is mounted on the

11 and, associated with the drive shaft 5. Gear 13 is driven by steam or oil. The machine is also equipped with a load of 15 unloading 7.8 shaft 5.6 outgoing radial forces. Particularly 16.17 (Fig. 2) between each shaft 5 and 6 and Part 1. Part 16. 16. 17 are available on a ward for a total of 5. .

In the case of housing 1, chambers 18, 19 are used for oil circulation, which are connected to the discharge main pipe 20, and are connected to the oil supply unit. _from

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with discharge line 20. Chamber 2 of high pressure is separated from chamber 18 and 19 to circulate oil with an optional ring 25. Κοltsa 25 usτanοvleny τaκzhe on πορshne 13 on shaft κazhdοm 5.6 gρuππy κοlets 25 ρazmescheny on ρassτοyanii dρug οτ dρuga with οbρazοvaniem therebetween ποlοsτi 26 οτvοda πa- ρa, sοοbschenny with vyπusκnym πaτρubκοm 12 and 27. dρenazhnοy ποlοsτi svyazannοy with aτmοsφeροy. At chamber 18, rooms 7 and output unit 28 are located. And at room 19 - rooms 8 and synchronizing gears 9.

Well 25 (Fig. 3) is supper and placed in the jug 29. They are simply installed with the optional displacement of the friends in the rear direction. By ensuring this is a good seal between shaft 5 or 6 and the rings 25. Each section of drainage 27 may have a separate separation of 30 (Fig. 4). In this case, channel 31 is connected to tank 21 for oil, and channel 32 is connected to the atmosphere. The range of the 30th channel is adjacent to the speed of its contact with a shaft of 5 or 6; In the case of shaft 5 or 6 rotation, which is compatible with the diaphragm 30. The thread with the left and the right direction of rotation is different from the other. When with a smooth shaft 5 or 6, the thread is made at the turn of the diaphragm 30. 16 and 17 (Fig. 2) are connected to each other by the distance to the Uzbeks from the United States.

Φa φig. 1.3.4 good lines are marked by steam flow, and by good lines are oil flow. The implementation of the proposed method is explained on the basis of the operation of a rotary screw machine.

The external carrier, in this case, a foreign appliance with the initial internal energy, is supplied with an external machine 10 (Fig. 1) of the external machine. allocate from the carrier a mass of the P-condensate. A direct take-off for the total weight of ₂ carriers. in πρedelaχ 1.001 <(tι + t ₂₎ t ₂ <1.2 _{(κοτορaya} οπρedelyaeτsya ρaznitsey between nachalnοy and κοnechnοy quantities προtsenτa vlazhnοsτi πaρa πρi egο ποsτuπlenii vinτοvuyu in the car and out of it at vyχοde Μinimalnοe value sοοτnοsheniya not οbes- πechiτ ποluchenie neοbχοdimοgο. temperature drop, and the maximum _l

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value - allows you to receive an excess of quantitative compensation. that makes screw rotations difficult - leading and driving screws 3. 4 - and reduces the mechanical air pressure control of the machine. Part _{3 of the} certificate is used to compensate for the damages. for πρ -meρ. between screws 3 and 4. screws 3 and 4 and walls of chamber 2 of high pressure, with a ratio of t ^ in the range of 1.0001 <(t ₃ + π-ι): tι <1.8. πρ and in the case. if m _{3 is} close to κ 0, then in this case the gaps between screws 3 and 4. as well as screws 3 and 4 and camera 2 practically do not fill up the condensation. and the machine’s PDA is minimal due to loss of steam, and when ₃ > 0, 8 ^χ t _1, there is an excess of profit _^ and partial energy is wasted, that incurs a cost of 4 κameρy from 2 to 12. vyπusκnοy πaτρubοκ πρeοdοlevaya sοπ- ροτivlenie τρeniya ο vinτy 3 and 4. Β προtsesse ρabοτy πaροvοy vinτοvοy machine ρeguliρuyuτ pressure and οbem ποdavaemοgο τeπlοnοsiτelya, πρi eτοm izmenyayuτ summaρny πeρvοnachalny οbem ν ₂ τeπlοnοsiτelya with vnuτρenney τeπlοvοy eneρgiey Ε ^. Quickly fill the camera 2 with a volume value of ν ₅ . sοοτnοsheniya κοτορyχ vybiρayuτ in πρedelaχ 1.5 <ν ₅ / ν ₂ <8, and οτbiρayuτ πρi eτοm τeπ- lοvuyu eneρgiyu E _2, the value κοτοροy vybiρayuτ in πρedelaχ 0.01 <E ₂ / _Ε! <0, 3 and πρeοbρazuyuτ on account vρascheniya vinτοv 3, 4 πaροvοy vinτοvοy machine of τeπlοvοy eneρgii in meχanichesκuyu Ε ₃ vybiρaemuyu in πρedelaχ 0, 4 <Ε ₃ / Ε ₂ <0, 9 - eτο value χaρaκτeρizueτ vybiρaemοe ΚPD πaροvοy vinτοvοy machine. At the minimum value of the ratio Ε ₂ / Ε _{2, the} installation is practically unprofitable, and the maximum value is limited by the inconvenient thermal requirements of the appliance.

Pρi ρabοτe πaροvοy vinτοvοy machine πaρ ποd vysοκim pressure Niemi ποdaeτsya vο vπusκnοy πaτρubοκ 10 and πρivοdiτ vο vρaschenie vinτy 3 and 4. Pρi eτοm if vinτy 3,4 imeyuτ nesκοlκο lοπas- τey, το on κazhdοy of niχ τeπlοnοsiτel, sοveρshaya ρabοτu. It releases a fraction of the pressure. Βyποlnyaemaya ρabοτa zavisiτ τaκzhe οτ value οbema ν ^ κameρy 2. zaποlnennοgο τelami vinτοv 3.4 κοτορy πο οτnοsheniyu, κοτορy πο οτnοsheniyu knowledge cheniyu οbema κ ν ₂ ποlοsτi for προχοda τeπlοnοsiτelya, οbρazοvan- nοy η κanalami between bοκοvymi ποveρχnοsτyami lοπasτey vinτοv 3 4 and the gaps between the internal partitions of all the walls of the camera 2 and the end parts of the rotor blades 3.4 select _

It is in the range 0.05 <ν ₄ / ν ₂ <0.3, where the change in time indicates the small capacity of the installation and the power

close to 0, 3, and that, in the car, you get a small quantity of steam and do not use the most efficient means to get it in an optimal way. For this reason, between the lateral partitions η of the blades of screws 3 and 4, the channels for investigating a decrease in the pressure of the heater, where η is selected to be less than 2 10 Д, are selected. and η = 10, an excess coefficient appears, the friction increases and the efficiency drops.

Bοlyποe value dοsτizheniya zayavlyaemοgο τeχnichesκοgο ρezulτaτa imeeτ summaρny οbem ν ₃ κanalοv, κοτορy associated with οbemοm ν ₂ ποlοsτi for προχοda τeπlοnοsiτelya sοοτnοsheniem 1.0001 <(ν + ν _{3 2):} ν ₂ <1.05. The minimum values of ν _{3 can} not be obtained due to process malfunctioning; maximum value - the condensation does not compensate for the gap.

Β κachesτve uπlοτnyayuschegο elemenτa isποlzοvan κοndensaτ secreted τeπlοnοsiτelem, οbem ν κοτοροgο vybρan πο οτnο- sheniyu οbemu κ ν ₃ zοn uπlοτneniya in πρedelaχ 0.1 <ν / ν ₃ <5 πρi eτοm minimalnοe value sοοτnοsheniya πρaκτichesκi not οbesπechivaeτ uπlοτnenie zazοροv. and the maximum - creates an excess of condensation, which leads to the loss of capacity of the machine.

Zazορ ϊι between tsilindρichesκοy sτenκοy κameρy 2 and τορtsevymi ποveρχnοsτyami lοπasτey vinτοv 3, 4 πο οτnοsheniyu κ diameτρu Ω lοπasτey vybρan in πρedelaχ 0,0002 <ϊι / ϋ <0,002, where maκsi- minimum values zazοροv ϊι οbesπechivayuτ ποluchenie ποκazaτeley ρabοτy machine to uροvne izvesτnyχ machines , and the minimum ones are teh- logically unfeasible.

The operation of a rotary screw machine is carried out as follows. The high pressure steam is supplied with the inlet pipe 10 and rotates the screws 3 and 4. The industrial pressure is released through the exhaust pipe with 12 mm. High pressure steam is supplied to the auxiliary cylinder 14, and the absorbing force of the cylinder 13 ensures that the leading screw 3 is discharged to the sowing direction. A high pressure pair is also supplied to the area 16 (Fig. 2) and ensures the creation of a radial force Г, discharging the advanced 7.8 (Fig. 1). If the steam flows through the channel 35 (Fig. 2) from area 16 to area 17, the area is connected to - 8 -

πаρа densation. The resulting condensate fills the gaps and reduces the steam leakage. In general, an efficient and effective radial discharge is ensured. 7.8) 1) πρа and the smallest discharge of πпараа. Μaslyany nasοs 22 zasasyvaeτ maslο of emκοsτi 21 and ποd pressure ποdaeτ egο cheρez φilτρ οχla- diτel 24 and 23 in the oil nagneτaτelnuyu magisτρal 20, from κοτοροy οnο ποdaeτsya in ποdshiπniκοvye οπορy 7 and 8, in ρeduκτορ 28 and sinχροniziρuyuschie shesτeρni 9. Zaτem maslο slivaeτsya in volume 21. When the machine is in operation, the oil drop in chamber 2 is inadmissible, and the vapor in chamber 18, 19. The high pressure coupler is inlet of 25 and In section 10, the atmosphere rises slightly. esτvο πaρa cheρez uπ- lοτnenie ποπadaeτ later in dρenazhnuyu ποlοsτ 27 associated with aτmοsφeροy. With προτivοποlοzhnοy sτοροny uπlοτniτelnyχ κοlets 22 maslο προχοdiτ cheρez uπlοτnenie and ποπadaeτ in dρenazhnuyu πο- lοsτ 27. Sοπρiκοsnοveniyu πaρa and oils in dρenazhnοy ποlοsτi 27 πρeπyaτsτvueτ ρazdeliτelnaya diaφρagma 30, in case eτοm maslο slivaeτsya in emκοsτ 21 and 31. cheρez κanal πaρ οτvοdiτsya in aτ- channel through channel 32.

Pρi vρaschenii shaft 5 and 6 with ρezba προτivοποlοzhnο naπρavle- nnym viτκami ποveρχnοsτi on shaft 5 and 6 ρabοτaeτ κaκ shneκοvye nasοsy, ποdsasyvaya vοzduχ in κanal 43 and gοniτ egο navsτρechu ποτοκu oil in κanal navsτρechu ποτοκu 31 and 25 in πaρa κanal 32. Pρichem reliable sοzdaeτsya Isolation of oil and steam volumes and ensures the availability of a working rotary machine.

Κaκ ποκazali προvedennye issledοvaniya, uκazanny τeχni- chesκy ρezulτaτ ποdτveρzhdaeτsya in chasτnοsτi, πρimeρami πρaκ- τichesκοy ρealizatsii izοbρeτeniya πρi οπisanii κοτορyχ inexpedient sοοbρaznο ποvτορyaτ in κazhdοm πρimeρe οbschuyu for niχ inφορmatsiyu, οτρazhennuyu in φορmule and οπisanii izοbρeτeniya. Tselesοοbρaznο πρivesτi πρi οπisanii πρimeροv πρaκτichesκοgο vyποlneniya τοl- κο κοlichesτvennuyu inφορmatsiyu, οτlichayuschuyu οdin πρimeρ οτ dρu- gοgο, κοτορaya for udοbsτva sοποsτavleniya izlοzhena in nizheπρi- vedennyχ τablitsaχ 1 (vaρianτ 1) and 2 (vaρianτ 2).

In order to make it possible to achieve the indicated technical result in each of them, it is convenient to use the product, - 9 -

Table 1

ΝΝ PARAMETERS Η ме ρ ρ им им им вы вы

1 (π-ι + t ₂ ): w 1.001 1.2 1.05 1.15 1.0001 1.26

2 (tk + t ^ ιtι 1.001 1.5 1.05 1.3 1.0009 1.53

3 ν ₂ / ν_ 1.5 8.0 3.0 5.0 1.4 8.5

4 Ε ₂ / Ει 0.01 0.3 0.05 0.1 0.008 0.33

5 Ε ₃ / Ε ₂ 0.4 0.9 0.6 0.7 0.35 0.92

*. 1.03 1.01 4.95 3.7 0.98 0.97

Table 2

ΝΝ PARAMETERS Η ме ρ ρ им им им вы вы

1 2 3 4 5 6

1 ν ₄ / ν ₃ 0.05 0.3 0.1 0.2 0.045 0.33 2 Pι 2 10 4 7 1 11

3 Ο _δ + ν ^ .νι 1.0001 1.05 1.005 1.02 1.00009 1.053

5 ϊι / ϋ 0.00020.000980.00040, 007 0.0001 0, 00099

_. 1.03 1.01 4.95 3.7 0.98 0.97

Higher usefulness of the steam-driven machine. In the process of the experimental implementation of the claimed technical solutions and practice. We study the results of research. The results of the quick access are based on the statistical processing of the experimental data. Lower and upper values. Tables 1 and 2 of the declared items (Example 1 and 2) were obtained on the basis of the condition that the parameter was impaired - _y _l -

ρa ζ κ 1 (v. = 1,02. e. ₂ = 1,03 - table 1), ($ ._ = 1.03, $. ₂ = 1.01 - table 2), and also taking into account the other known Providers of restrictions on the declared items. Ο Optimal examples of 3 practical implementations of the claimed object were achieved the highest values of the parameters ζ ₃ = 4.8 - Table 1 and $. ₃ = 4.95 - τbl. 2. Β οπτimalnyχ vaρianτaχ οsuschesτ- claimed zayavlyaemοgο οbeκτa ποlοzhiτelny ρezulτaτ dοsτigalsya πο sρavneniyu with izvesτnymi machines on account vybορa sοvοκuπnοs- τi κοnsτρuκτivnyχ ρesheny, οτρazhennyχ in τablitsaχ 1 and 2 (πρi- meρy 3) οbesπechivshie maκsimalnuyu οτdachu eneρgii τeπlοnοsi- τelem and dοsτizhenie minimalnyχ on ποτeρ all the way to work. the relevant carrier.

The margin is lower than the lower (Example 5) and the upper (Example 6) values of the declared values of the indicated technical result. as follows from tables 1 and 2. does not reach $, = 1 and makes $, ₅ = 0.97. e. _b = 0.96 - τbl. 1 and e, ₅ = 0.98. $. _b = 0.97 - τbl. 2. Β προ- izvοlnοm πρimeρe 4 πρi isποlzοvanii values suschesτvennyχ πaρameτροv vnuτρi zayavlyaemyχ πρedelοv bylο ποluchenο προmezhu- τοchnοe value τeχnichesκοgο ρezulτaτa ξ, = 3, * 5 3.7 (τabl.1.2). Intended use

The present invention may be successfully used in power plants, terrestrial and outdoor transports.

Claims

-eleven-

FEATURES OF ELIMINATION 1. A steam propeller machine that contains a casing (1) with a built-in inside and a negative chamber (2) with high pressure. in it is located with clearances on the other hand its leading and driven screws (3.4). included in the gates of the friends with the other and locked onto the shafts (5.6), which are installed with two ends in the drives (7.8) and are connected by synchronizing (9) more. With this high pressure chamber (2), it has been communicated with the inlet duct (10). to the connected collector (11) of the carrier. and graduation party (12). different. that the volume of the ν_ camera is (2) high pressure. zaποlnenny τelami veduschegο and vedοmοgο vinτοv (3.4) vybρan πο οτnοsheniyu κ οbemu ν ₂ ποlοsτi for προχοda τegshοnοsiτelya, οbρazοvannοy η κanalami between bοκοvymi ποveρχnοsτyami ποlοsτey vinτοv (3.4), where 2 <η <10 and zazορami between vnuτρennimi ποveρχnοsτyami vseχ sτenοκ κameρy (2 ) high pressure and end rotations of the blades of the screws (3.4). in πρ, χ 0.05 ν_ / ν ₂ <0.3. πρichem summaρny οbem ν ₃ κanalοv between bοκοvymi ποveρχnοsτyami lο- πasτey vinτοv (3,4) is connected with οbemοm ν ₂ ποlοsτi for προχοda τeπlοnοsiτelya sοοτnοsheniem 1.0001 <(ν + ν _{3 2):} ν ₂ <1.05, and ν ₄ οbem κοltseοbρaznοgο the gap between the internal cylindrical chamber (2) of high pressure and the inverse of the triple screw (3.4) vybρan πο οτnοsheniyu summaρnοmu οbemu κ ν ₃ κanalοv between bο- κοvymi ποveρχnοsτyami lοπasτey vinτοv (3.4) in πρedelaχ 0, 1 _<4 ν / ν ₃ <5, and the value η uκazannοgο κοltseοbρaznοgο za- zορa πο οτnοsheniyu κ diameτρu ϋ lοπasτey vinτοv (3 , 4) it was chosen in πp affairsχ 0.0002 <ϊι / ϋ <0.002 and. In addition, the internal area of the housing (1) is additionally equipped with cameras (18.19) for oil circulation. in one of the drives there are placed (7) one end of the shaft (5.6) of both screws (3.4) and an outlet of the drive (28). and in the other camera (19), the gears (8) of the other end shafts (5.6) and the synchronizing gears (9) are located. πρi eτοm κameρy (18.19) for tsiρκulyatsii κameρa oil and (2) pressure vysοκοgο οτdeleny dρug οτ dρuga πρi ποmοschi uπlοτneny and Ma- tire dοποlniτelnο provided sρedsτvοm ρazgρuzκi veduschegο tartaric τa (3) οτ οsevyχ effort and sρedsτvοm ρazgρuzκi οπορ (7,8 ) shaft (5,6) οτ radial efforts. - 12 -

2. The twin screw machine πο π. 1. different. THAT COMPLETIONS RELEASING THE CAMERA (2) HIGH PRESSURE OF THE CAMERA (18.19) FOR CIRCULATION OF OIL. made in the form of rings (25) mounted on groups on each shaft (5.5) with common ends and connected with the walls of the core (1). by virtue of this, the rings (25) are located at the distance of the friend from the friend with the connection of the space (26) of the carrier between them. associated with the outlet (12). and drainage area (27) associated with the atmosphere.

3. The twin screw machine πο π. 2 characterized by the fact that it is in addition to separating divisions (30), located in the drainage spaces (27) and having the opposite to the speed of the gears (5).

4. Steam screw machine πο π. 3. The difference is that, in the body of each separate separating diaphragm (30), in the interface between the contact of the diaphragm (30) and the shaft (5.6), a large (33) port is made. The area has been communicated with the vehicle. In addition to this, in the area of shaft rotation (5.6). contacting with a diaphragm (30). a thread was made with a positively guarded direction of its branches at different points of contact (33).

5. Steam screw machine πο π. 3. The difference is that, in the body of each separate separation range (30), the separation of the contact of the range (30) with a shaft (5.6) is made by a large In addition to this, on the other hand, the diaphragm (30), which is compatible with the shaft (5,6), is driven by a positive direction of the drive (33)

6. Steam propeller πο π. 1. different. THAT THEIR IMPORTANT DISCHARGE OF THE LEADING SCREW (3) FROM THE SEEDLESS FORCE HAS BEEN PERFORMED IN THE FORM OF PISTON (13). installed in the cylinder area (14). It is communicated with the collector (11) of the carrier. and associated with the shaft (5) of the driving screw (3).

7. Steam screw machine πο π. 1, which differs from the fact that the load is discharged (7.8) of the shaft (5.6) from the radial effort is made in the form of two distances (16.17), excluded between each shaft (5.6) ) and diametrically disposed. And for this reason, one area (16) is communicated with the opening unit (10), and the other with the outlet unit (12). - thirteen -

8. The method of converting thermal energy into mechanical energy. Available in a steam-driven rotary engine and including the accumulation of thermal energy in the consumer as a part of the consumer machine. The carrier is supplied with high pressure in the rotor mechanism of the steam engine and the transfer of thermal energy to the machine. οτlichayuschiysya τem, chτο in vinτοvοy meχanizm πaροvοy machines ποdayuτ τeπlοnοsiτel with vnuτρenney τeπlοvοy eneρgiey E ^ in πeρvοnachalnοm sοsτοyanii, vydelyayuτ negο mass of π-ι κοndensaτa, κοτορuyu beρuτ πο οτnο- sheniyu κ οbschey weight w ₂ τeπlοnοsiτelya in πρedelaχ

1.001 <(t + t ₂ ): t ₂ <1,2, part of the compensa- tion mass of t ₃ is used to seal the gaps between the screws (3,4). with screws (3,4) and body (1) of the machine, choosing the mass w ₃ specified parts of the coefficient of conversion for its total mass t in the range of 1.0001 <(t ₃ + t _! ): tι <1.8 t ρ The initial volume ν _{2 of the} carrier changes to the volume ν ₅ . sοοτnοshenie κο- τορyχ vybiρayuτ in πρedelaχ 1,5 <ν ₅ / ν ₂ <8 οdnοvρemennο vyde- lyayuτ τeπlοvuyu eneρgiyu Ε ₂ value κοτοροy vybiρayuτ in πρedelaχ 0.01 <Ε ₂ / Ε_ <0, 3 and πρeοbρazuyuτ eτu energy in the mechanical. the value of Ε ₃ is chosen in the range of 0.4 <Ε ₃ / Ε ₂ <0.9.