EP0232421A4 - Screw machine. - Google Patents

Abstract

PCT No. PCT/SU85/00061 Sec. 371 Date Mar. 20, 1987 Sec. 102(e) Date Mar. 20, 1987 PCT Filed Jul. 22, 1985 PCT Pub. No. WO87/00571 PCT Pub. Date Jan. 29, 1987.The screw machine comprises consecutively mounted screw mechanisms (6, 7 and 8, 9) incorporating coaxially arranged stators (10, 12 and 14, 16) and rotors (11, 13 and 15, 17) disposed therein whose axes are offset with respect to the central axis of the stators (10, 12 and 14, 16) by the amount of eccentricity "e" of the screw mechanisms (6, 7 and 8, 9). The screw mechanisms (6, 7 and 8, 9) are grouped into modules (4, and 5) and the modules proper are grouped into blocks (3). The axes of the rotors (11, 13, 15, 17) of the screw mechanisms (6, 7 and 8, 9) in the module (4 and 5) and the modules (4, and 5) proper in the block (3) are arranged symmetrically relative to the central axis.

Description

 LATEST LIFE The area of the invention The invention is available to the energy industry, and it is named that the machines are screwed. 5 PREVIOUS LEVEL OF TECHNOLOGY

At present, two basic methods are used for drilling Squ-Hazin. One of them is that the drilling process is open, that is, if the tool is discharged, it is open to the operator that there is a 10% share in it. Failure to use - as a result of the operation of an abandoned motor vehicle _{and the} disposal of the appliance is unsuccessful. It is one-piece drill pipe and is not mobile. Short-circuiting means that there are a number of obvious 15 inconveniences: there is no loss of energy for turning off the wheel, but there is less pressure Among all types of downhole motors used at the present time in the practice of drilling, a wide 20 outflows are used to rotate outboard motors. These engines are distinguished by simple operation and maintenance, they are small in size, they allow the possibility of working on a wide range of occupations. (Ιγsman Μ.Τ., Baadenka D.F. and others. “Downhole propellers - 25 high motors for drilling wells”, Μοκskva, Ηedra, 1981). Β Typically, these components are driven by an external drive shaft with radial and axial gears and a rotary internal gear set with internal and external rotors. The standard is made in the form of a metal casing with an internalized technology for its internal - and an elastic working environment. In its turn, the internal part of the interior is elastic and keeps the helical teeth. The number of teeth of the unit by one increases the number of teeth of 35 teeth, which ensures that there is no interruption of the internal components of the unit. When downloading a working agent through a screw drive - 2 - due to the impact of the relocating pressure, they are more likely to relocate to a lively other friend. Β τzhπzhchnοy sχeme dvzhgaτelya, nazhbοlee ρasπροsτρanennοy, sτaτορ neποdvizhen and ροτορ sοveρvaeτ.πlaneτaρnοe dvzhzhe- nzhβ - οs ροτορa οπisyvaeτ οκρuzhnοsτ vοκρug οsi sτaτο- ρa, and the ροτορ vρaschaeτsya vοκρug svοey sοbsτvennοy οsi. This rotation is transmitted to the output shaft of the engine. By changing the number and pitch of the helical teeth, you can receive any necessary output from the engine. The source of energy for the operation of the engine is the flow of the working agent;

The main disadvantage of the indicated motors is the presence of strong impaired vibration, which arises due to the specific motion of the drive. Failure causes a premature exit from the direct rotor of the propulsion mechanism, the sowing of the engine, and may result in an accident. Izvesτen τaκzhe vinτοvοy zabοyny dvigaτe-l, vκlyu- sistent ποsledοvaτelnο usτanοvlennye vinτοvye meχanizny, vκlyuchayuschie sοοsnο ρasποlοzhennye sτaτορy and ρazmeschennye in niχ ροτορy, οsi κοτορyχ offset οτnοsiτe ^ nο οsi sτa- τοροv eκstsenτρisiτeτa by an amount "e" vinτοvyχ meχaniz- mοv and τaκzhe shlinde The whole section (author's testimony of the CCC »286502, L. 04 on 5/00, 1969). This engine is the closest thing to our present invention. Β eτοy κοnsτρuκtsii πuτem ρascheτοv and ποdbορa lengths sοediniτelnyχ ρezbοvyχ vτulοκ mοzhnο dοbiτsya τοgο, chτοby οsi ροτοροv, ρasποlοzhennyχ two sοsedniχ sτaτορaχ vinτοvyχ meχanizmοv, naχοdilis on οdnοm diameτρe πο ρaznye sτοροny οτ οsi sτaτοροv. A short motor drive is quite complicated and takes a lot of time. Otherwise, there is a slight change in the overall length of the unit or the unit is operating on the other side of the unit due to a disturbance to the unit. A simple connection to a single main residential building - 3 - it does not warrant such a failure. Otherwise, the level of excitement in the specified operation, even in the case of optimal discharging, is not reduced, due to the fact that there are inconsequential incidents of stress. 5 DISCLOSURE OF THE INVENTION

In the main, the main task was to create such a screw machine, the operation of which would result in a significant reduction in the impact of a negative impact.

10 Pοsτavlennaya task ρeshaeτsya τem, chτο in vinτοvοy machine sοdeρzhaschey ποsledοvaτelnο usτanοvlennye vinτο- stems meχanizmy, vκlyuchashsche sοοsnο ρasποlοzhennne sτaτορy and ρazmeschennye in niχ ροτορy, οsi κοτορyχ displacement οτnοszh- τelnο tsenτρalnοy οszh sτaτοροv the amount eκstsenτρi-

15 siτeτa e vinτοvyχ meχanizmοv, sοglasnο izοbρeτeniyu, vinτοvye meχanizmy οbedineny in mόduli and themselves mοdulzh οbedineny in blοκi, πρichem οsi ροτοροv vinτοvyχ meχanizmοv in mοdule themselves mοduli in blοκe ρasποlοzheny simmeτρich- nο οτnοsiτelnο tsenτρalnοy οsi.

20 The proposed screw machine design allows you to significantly increase the working life of the machine and its components.

The increase in the operating resource of the machine is achieved by reducing the influence of inertial forces and their forces,

25 causing vibration. The sim- ple of a positively centered, non-volatile power supply, resulting in inadequate power to the machine, does not affect the machine. With the simplicity of traveling to the city of Lypin

30 versions of the modifications are achieved and balancing the points from the indicated inertial forces.

Businessly, so that in each module the distance between the main rotors of the adjacent rotary engines was operational. This is achieved by successive bias.

35 οsi ροτορa κazhdοgο ποsleduyuschegο vinτοvοgο meχanizma οτ- nοsiτelnο οsi ροτορa πρedyduschegο vinτοvοgο meχanizma on sοοτveτsτvuyuschy ugοl πο οκρuzhnοsτi ρadiusa e ρav- nοmu eκstsenτρisiτeτu vinτοvyχ meχanizmοv with tsenτροm, sοv- - 4 - falling with the central rotor of the machine.

The good use of all products is even more advantageous for the machine than the balance due to the increase of the weight, but it does not add up to more than

A preferred embodiment of the invention in each unit and each module between the rotary drives of the electrical units is for the purpose of the allocation of funds for the purpose of free-standing funds. A-10 The presence of directional nodes makes it possible to increase the reliability of maintaining the specified orientation of the rotational mechanisms.

Most expediently, so that a quick-coupled unit is made in the form of a spare, connected to a total of 15 adjoining devices, The efficient design of the upstream assembly allows you to be able to speed up the dumping of the screw machine.

The central angle of the symmetrical displacement of the axle is 20 times that of the subsequent screw drive, which is the reason for the slightest Much also, the risk of module separation of one other negative component depends on the number of modules in the unit. 25 Β zavisimοsτi οτ κοlichesτva vinτοvyχ meχanizmοv in κazhdοm οτdelnοm mοdule and τaκzhe in zavisimοsτi οτ κοlichesτva οτdelnyχ mοduley in blοκe mοzhnο znachiτelnο sniziτ, and bοlshinsτve vaρianτοv vyποlneniya ποlnοsτyu uρavnοvesiτ ineρtsiοnnye strength and iχ mοmenτy, chτο ποzvο- 30 .lyaeτ ρezκο sniziτ uροven machine vibrations, threaded busbars and other machine components.

Reducing the level of vibration of a rotary machine increases the quality of the well when using the blades of a rotary engine and ensures that it is not damaged by the outboard motor.

^{• The} use of directional nodes that increase the reliability of rotational drives, excludes the use of additional thermal processes

- 5 - In the event of a fault in the engine, there are no other components available if they are out of reach.

The use of spare parts in the amount of 5 knots significantly increases the failure process itself, which saves time.

Short-circuiting of the drawings Other purposes and the property of the present invention are derived from the following: there is no mater Yes, Yes, 'displays a general view of a screw machine

(προдолный ρазрез); φig.2 - section П-П on φig.Ι; 15 φig.Z - section Ш-Ш on φig.Ι; Fig. 4 - a variant of the compound of the wars of the war; Fig. 5 is a schematic diagram of a block of vehicles consisting of three modules, each of which includes 20 two investigative methods of mesaism; fig. β - schematic of the operating conditions in the module of the rotary engine for fig. 5; Fig. 7 - schematic of the operating conditions in the unit of 25th May πο Fig. 5; Fig. 8 - a diagram of the failure of the other forces in a rotor machine in Fig. 5; Fig. 9 is a schematic diagram of a screw machine unit, consisting of two modules, each of which includes 30 modules and accessories; Fig. ΙΟ - the scheme of the use of the drive in the module of the mobile machine ig 9; Fig. ΙΙ - scheme of the disposal of vehicles in the unit of the 35th vashiya πο Fig. 9; fig. 2 - scheme of action of inertial forces in a screw machine for fig. 9; φig.ΙZ - οbschy view viyaτοvοy mashiyay, islοlzuemοi in κachesτve nasοsa (dροdοlny ρazρez); - 6 - Fig. 4 - A general view of a screw machine used as a spare part (other parts). Best vaρiayaτ ρsuschesτvleniya izοbρeτeniya 5 Βinτοvaya machine in its _^ vaρianτe vyποlneniya in κachesτ-'ve zabοynοgο dvigaτeln ^• sοdeρzhiτ isdοlniτelny meχanizm I (φig.Ιa, Ιa ') and οdορyay node 2. Islοlnyaτelny meχanizmϊ vκlyuchaeτ in dannοm κοnsτρuκτivnοm isdοlnenii οdin blοκ 3 in κοτορy vχοdyaτ Modules 4 and 5. The number of units 3 in a Wi-Fi home machine is divided by its output (rotating, rotating, pressure impaired) and inadequate to use.

Module 4 includes two used spare screws 6 and 7, module 5 contains .. of which- 15 is valid. helical mechanisms 8 and 9.

Each of the mecha- nisms of 6,7,8,9 contains a statute and is located internally neglected: for a voluntary mix 6 - stat 10 and pr II II; for mechanism 7 - step 12 and ροτορ 13; for Mechanism 8 - stats 14 and 20 'order 15; for Mechanism 9 - stats 16 and process 17.

States 10,12,14 and 16 of the Executive Mechanism I and the main node 2 are connected between a single main threaded lane 18 and have a total power supply of 00. All participants II, 25, 13, 15, and 17 are offset by the negative total of 00 by the value of the excuse "£". The connection of the shaft 17 with the shaft 19 of the operating unit 2 is operative with the use of the soft shaft 20. The shaft 19 is also coupled with the shaft 00. The shaft 19 is rotated.

There are 6,7,8 and 9 interactions between them, 11,13,15 and 17 are related to them; , 35 8 and 9 in the area of high and low pressures.

Communication between II and 13, 13 and 15, 15 and 17 is subject to flexible shafts of 21.22 and 23; - 7 - Correspondingly, as well as the transmission of the greater part of the ku-chayushchego moment. The connection of the rotors 11,13,15,17 with flexible shafts 21,22,23 is made in the form of smooth final drives 24.

5 On the other hand, the paths II and 13, 13 and 15, 15 and 17 are connected by a mazda of the proper directional nodes 25 to ensure the symmetrical displacement of their networks. They don’t, however, consume the remaining part of the tune. The displacement of all the islands is 11,13,15 and 17 of the other external

10 dρuτοy οsuschesτvlyaeτsya πο οκρuzhnοsτi ρadiusa β ", value ρav- nοgο eκstsenτρisiτeτa vinτοvyχ meχanizmοv with tsenτροm, sοvπadaschim with tsenτρalnοy οsyu 00. Β daynοm ρianτe naπρav-Ba-governing bridle 25 as vyποlneny κρivοshiποv 26,27 and 28, 29 and ρabοchie ποveρχnοsτi 30 installations

15 nοvleny in sοοτveτsτvuyuschiχ ροτορaχ 11,13,15 and 17 ποsρed- sτvοm ποdshiπniκοv 31 and 32, chτο οbesπechivaeτ vοzmοzhnοsτ vρascheniya κρivοshiποv 26,27,28 οτnοsiτelnο ροτοροv 11,13, 15,17, πρi οdnοvρemennοy πeρedache neκοτοροy chasτi κρu- τyaschegο mοmenτa.

20 This κοnsτρuκτivny vaρianτ in κοτοροm κρivοshiπ 26 ρazmeschen vnuτρi gibκοgο shaft 21, and the connection ροτοροv II and 13 for πeρedachi οsevοgο efforts and κρuτyaschegο mοmenτa οsu- schesτvlyaeτsya cheρez gibκy shaft 21 πο gladκim κοnichesκim ποveρχnοsτyam 24 οbesπechivaeτ zadannοe κρivοshiποm 26

25 LOCATION OF ALL GROUPS II AND 13 A RETURN OF THE GENERAL TOTAL CENTRAL AREA 00 STATIONS 10 AND 12.

There is a predetermined disposal of all rooms at 15 and 17, a good overall central cost of 14 and 16, which costs 28

30 inside the flexible shaft 23.

In this way, there is a symmetric arrangement of all 11,13,15 and 17 propellers 6,7,8 and 9 in modules 4 and 5 respectively.

Themselves moduli 4.5 are also symmetrically orienated

35 Only one other friendly analogous directional unit 25; Round 27, installed between the gears 13 and 15, and located inside the flexible shaft 22, which is smooth with a smooth quick release 24 and also - 8 - connects to sections 13 and 15.

At the same time, the central angle of the sym- metrical distribution of the 11,13 and 15,17 rotors is 6,7 and 8,9 inclusive, and this means that there is a 5 coming from the general quantity of screw mechanisms in each separate module. The angle of the symmetrical displacement of the modules 4 and 5 themselves in block 3 also depends on the number of modules in the block and is shared

10th all relevant lanterns II and 15 or. 13 and 17 _*

Κaκ vidnο of ρassmοτρeniya ποπeρechnyχ sections πρed- sτavlenny ^χ on φig.2 and 3, οsi ροτοροv II and 13 πρedy- duschegο 6 and 7 ποsleduschegο vinτοvyχ meχanizmοv smeschesh

15 negative overall central axis 00 module 4 to the magnitude of the eccentricity "e" and occupy a diametrical ideal location.

In Fig. 4, a representative embodiment of the connection of the components 33 and 34 of the two consequential devices is provided.

20 nyχ vinτοvyχ meχanizmοv 35 and 36. Β dannοm vaρianτe κy flexible shaft 37 ρazmeschen vnuτρi κρivοshiπa 38. Κaκ and οπi- sannοy κοnsτρuκtsii above, ρabοchie ποveρχnοsτi 39 κρivοshiπa 38 usτanοvleny in ποdshiπniκaχ 40 on κοntsevyχ chas- τyaχ sοedinyaemyχ ροτοροv 33 and 34 with the possibility of rotation.

25 Stations 41 and 42 of the screw mechanisms 35 and 36 are connected between the threaded vane 43 and the combined internals 33 and 34 of the threaded modules 44.

The circuit of the machine’s rotors, shown in FIG. 5, includes circuits and modules 45,46 and 47, each of which is connected to

30 of the two screw mechanisms, respectively 48 and 49, 50 and 51, 52 and 53. Connection 54 and 55, 56 and 57, 58 and 59 of the specified screw mechanisms 48,49,50,51, 52,53 and , as well as the compound of 54.55.56.57.58.59 adjacent modules 45.46.47

35 eτsya ποsρedsτvοm gibκi ^χ vadοv 20,21,22,23 and 25 naπρavlyayuschiχ uzlοv πο οdnοmu of οπisannyχ vaρianτοv above.

A sympathetic arrangement of 54.55.56.57.58, 59 in each separate unit is 45.46.47 achieved - 9 - by the consequent shift of one other positive angle to the angle ^(, = 180 °, because of the quantity of helical mechanisms 48,49,50,51,52,53 in each module of 45.4.6.47. Simmeτρichnaya ορienτatsiya samiχ mοduley 45,46 and 47 (φig.7) οbschee κοlichesτvο κοτορyχ in blοκe 60 ρavnο τρem, dοsτigaeτsya offset οsi ροτορa vinτοvοgο meχanizma 56 50 46 mοdulya οτnοsiτelnο οsi ροτορa 54 vinτοvοgο meχanizma -48 mοdulya ugοl 45 for β = 120 °, as well as

10 muzzle 45,46,47 in the block 60 equal to τrem. Similarly and in the same direction, 58 rotors of the 52 mechanism are shifted 52 modulus 47; 51.52.53 προisχο-

15 diets on the radius of the radius "2", as well as a lower eccentricity of the screw mechanism 48,49,50,51,52,53, the same for all mechanisms 48,42,53.

Referring to Fig. 8, a diagram of the action of inertial forces in a screw machine is provided. Values of inertial forces Ρ ^ and

20 ΕΟ - "ά- _ό ^{and Έ} ^ _?? ^ ~ ^{And * are} equal and also more important for the direction, so that there is little to no significant weight 54,55,56, 57,58 and 59 are located in a symmetrical, relatively central

On the 25th of October there were 00 screw machines, and the distance between the axles was 54 and 55, 56 and 57, 58 and 59 were the same.

The box 61 of the screw machine (Fig. 9) includes two modules 62 and 63, each of which is comprised of 64.65 and 66, 67.68 and 69 of the rotor mechanism. Βnτρi

30 module 62 (Fig. ^' ) ^' Axles 70.71 and 72 propellers 64.65 and 66 are subsequently shifted to the other corner by Y. = 120 °, and the distance between the axles is 70.71 and 72 equal. There was a significant displacement of the axles of 73.74 and 75 screws.

35 Mechanisms 67.68 and 69 in module 63.

The modules themselves, 62 and 63 (Fig. ΙΙ), are connected by a single other way, so that the angle between the drive 70 of the 64 screw module 64 and 73

- 10 - 67 vinτοvοgο meχanizma mοdulya 63 sοsτavlyaeτ β = 1-80 °, Οshmeτρichnοe offset οsey ροτοροv 70, 71,72 προ- isχοdiτ κaκ and πρednduschem οshsyvaemοm vaρianτe πο οκ- ρuzhnοsτi ρadiusa "e" ρavnοm vezhchine eκstsenτρieiτeτa vinτοvnχ meχanizmοv 64. , 65,66,67,68,69, the same for all mechanisms. The center of this equipment is the same as the total of 00 screw machines and all mechanical screws 64.65.66.67.68.69. The scheme of the inertial forces in the assembled screw machine is delivered to Fig. 2. In terms of size, the shared mass of 70,71,72,73,74 and 75 of them are equal. Ажд Each individual module 62.63 is an integral force (^ ϋ ₇ ο »^ .η ^^ η ^ ъ module 62 and ~> ϊ ₇ -ζ, ^'~ 3π _ϊ ^{~ ~} ι ^~ $ -η. Module 63) Fully balanced, therefore, their sum is equal to zero. Along with this, the momentum of the foreign forces was also balanced due to the fact that 70,71,72,73,74 and 75 are employs a large number of vehicles. module 62 and parts 73.74 and 75 in module 63 are the same. As shown in the figure, a screw machine is provided, according to the claimed invention, used in the pump package. On the 76th case, the pump is equipped with the 77 main gear unit and the 78th direct shaft, the 79th quick coupler is connected to the 80th rotary drive 80 and the drive is connected to the vehicle. 80 Sτaτορy 82,83,84 and 85 between sοedineny sο- bοy sοοsnο ποsρedsτvοm ρezbοvyχ vτulοκ Ροτορy 86. 80, 87,88 and 89 for οbesπecheniya πeρedachi οsevοy gidρavliches- κοy nagρuzκi and vρaschaschβgο mοmenτa and τaκzhe for οbesπecheniya zadannοgο οsey displacement ροτοροv 80 , 87.88.89 are connected between one of the larger versions, and optionally with 90 flexible ports and 91 outlets, which are 91 apart , 89 by means of extensions 93 with the possibility of rotation.

Stations 82,83,84 and 85 and the correspondingly located 80,87,88 and 89 processes are used in the manufacture of screw mecha. the basics of 81.94.95 and 96, gathered together on July 97 and 98, - II - This will be the only option for unit 99 using a 100 mega-yazma.

The product has an input Β and an outlet from the area, after 5 short-term correspondingly, it is supplied and a working fluid or other fluid is supplied.

The main machine, which is available in Fig. 4, is used as a part of the compressor, in case 101 there is an exclusive anusmeme, 102

10 blocks 103 are meshes of 104, 105, 106 and 107. The best meshes of 104 and 105, 106, 107 are combined in blocks 108 and 109 of which are compatible. Stations 110, III, 112 and 113 of the movements of 104, 105, 106 and иC7 are interconnected directly between the threaded bush 114. Ροτο-

15 ρy 115, and 118 116.117 eτiχ vinτοvyχ meχanizmοv 104, 105, 106, 107 οbesπecheniya πeρedachi οsevοy gidρavlichesκοy nagρuzκi and vρaschayuschegο mοmenτa and τaκzhe for οbesπecheniya zadanyaοgο displacement οsey uκazanyayχ ροτοροv 15 116.117 118 I sοediyaeny me.zhdu c ^'οόοy πο οdnοy from асс м τ м м ы χ

20 above, with optional flexible shafts 119 and directional assemblies 120, which are performed as an extension of 121. On the other hand, 121 are installed at a rate of 115, 115, 116, and 116, Ancient ο 118 118 118 helicopter 107 hard

25 communication with shaρyaiρnym sοediyaeyaiem 123 and τοτ - with πρyavοdnym valοm 124. Shaρniρyaοe sοediyaeyaie πρivοdnοy 123 and shaft 124 in ρazmescheyay οπορnοm node 125, with zhesτκο sοediyaeyanοm κορ- πusοm 101 vnuτρi κοτοροgο ρasποlοzheny οχlazhdayushie πο- lοsτiϋ-. The room has an entrance area Ε and an exit

30 floor space? , through a quick and easy connection, a gas medium will be discharged and dispensed.

The rotary engine, in the variant of performing it as an outboard engine for drilling wells, operates the following method.

35 Wash liquor from the drill pipe

(on φig.Ιa, Ιa 'not ποκazayay) lοsτulaeτ in ρabοchie κameρy Α πeρvοgο viyaτοvοgο meχanizma 6 ₀ Pοd deysτviem οbρazuyuschegοsya πeρeπada pressures on ροτορe II vοzniκaeτ aκτivny vρascha- yuschy mοmenτ, and the ροτορ II yaachiyaaeτ vρaschaτsya. After ΡСΤ / δШδ / ΟΟΟбΙ

- 12 - flexible shafts 2Ι, 22 and 23 and rotation from part II are subsequently transferred to parts 13,15 and 17, then to unit 2, and then to the inaccessible unit. Increasing momentum resulting in action of 5 by a differential pressure of 11, 13, 15 and 17 is summed up and also transmitted through shaft 19 of the second unit.

Flushing liquid by going through the camcorder Α of the screw mechanism 6 of the internal cavity of the threaded housing

10 κi 18 ποπadaeτ in ρabοchie κameρy Α vinτοvοgο meχanizma 7. Peρeπad davlvny in ρabοchiχ κameρaχ Α vinτοvοgο meχanizma 7 sοzdaeτ dοποlniτelny vρ.aschayuschy mοmenτ on ροτορe 13. Τaκim οbρazοm, tsροmyvοchnaya .zhidκοsτ ποsledοvaτelnο προχοdiτ ρabοchie κameρy Α vseχ vinτοvyχ meχanizmοv 7 9

15 and after an oppositely knot 2 to an invasive tool, through a quick attack falls on the bottom of the fire.

The principle of operation of screw machines, which are provided in FIG. 3 and 14, is only related to the fact that 80, 87, 88 and 89, 115, 116, 117 and 118 are supported.

20 of the engine (not shown otherwise) through the input shafts 78, 124, and the working fluid (or gas medium) is discharged from the product through 96, , 05, 106, 107 ποlο ^'- sτi C (p).

25 Intended use

The most effective current invention may be used as a source of electrical equipment for drilling and drilling offshore or gas drilling. The product may also be used as a download.

30th century, a foreign unit for the extraction of water, oil or other useful minerals, the conversion of live parts is carried out in a live form.

Otherwise, the invention may be used in conjunction with the delivery of reliable pumps or industrial units,

35 processing liquids, gaseous or mixed agents.

Claims

- 13 - ΦСΡΜШ. I30E ^> ΕΤΕΗIA

1. A rotary engine that supports a series of installed propellers (6,7,8,9,35,36,48,49,50,51, 52,53,64,65,66,67,68,69 81.94.95.96.104.105.106.107),

5 inclusively located facilities (10,12,14,16,41,42,82,83,84,85,110,111,112,113) and placed in them are 11,03,15,17,33,34,54, 55,56,57,58,59,70,71,72,73,74, 75,80,87,88, 89, 115, II 6,117, 118), so that they are displaced from the center of the negative (10, 12,14,16,41,42,

10 82.83.84.85,110,111,112,113) by the value of the eccentricity of the screw mechanisms (6,7,8,9,35,36,48,49,50,51,52, 53,64,65,66,67,68, 69.81.94.95.96.104.105.106.107), which implies that the helical mechanisms (6,7,8,9,35,36,48, 49,50,51,52,53,64,65,66, 67,68,69,81,94,95,96,104,105,106,

15 107) are combined into modules (4,5,44,45,46,47,62,63,97,98), and sagli modules (4,5,44,45,46,47,62,63,97, 98) are combined in blocks (3,60,61,108,109), therefore, they are (11,12,14, 16,41, 42,82,84, 85,110,111, 112,113) screws (6,7,8,9,35, 36,48,49,50,51,52,53,64,65,66,67,68,69,81,

20 94.96,104,105,106,107) in the module (4,5,44,45,46,47,62,63,97,9 and the modules themselves (4,5,44,45,46,47,62,63,97,98 ) in the block (3,60,61,108,109) The symmetrical, non-existent central state is located.

2. The main engine πο π.Ι, which is different in that in each 25 module (4,5,44,45,46,47,62,63,97,98) the distance between the axis ροτοροв (11,13,15,17 , 33,34,54,55,56,57,58, 59,70,71,72,73,74,75,80,87,88, 89, П5, 116,11, 118) sessional screws of the mechanisms (6,7,8,9,35,36,48,49,50,51,52, 53,64, 65, 66, 67, 68, 69, 81, 94, 95, 96, 104, 106, 107 ) identical.

30 s The main engine πpo π.π.Ι and 2, characterized in that each block (3,60,61,108,107) and the corresponding in each module (4,5,44,45,46,47,62,63,97,98 ) between ροτο- ρы (11,13,15,17,33,34,54,55,56,57,58,59,70,71,72,73,74, 75,80,87,88,89,115,116,117,118) screw mechanisms (6.7,

35 8,9,35,36,48,49,50,51,52,53,64,65,66,67,68,69,81,94,95, 96,104,105,106,107) located nodes (25, 91, 120 ) to ensure a given mutual displacement - 14 - ей ей (((((11,13,15,17,33,34,54,55,56,57,58,59,70,71, 72,73,74,75,80,87,88,89,115,116,117,118) .

4. The rotary engine πο З.З, which includes that each directional assembly (25.91,120) is made in the form

5 rounds (26,27,28,38,92,121), connected to the neighbors (11,13,15,17,33,34,54,55,56,57,58,59,70,71,72, 73 , 74,75,80,87,88,89,115,116,117,11 US $ expended (31,32,40,93), each of which is inconsistent with 11,13,11,13 , 54.55,

1,056,57,58,59,60,71,72,73,74,75,80,87.88,89,115,116,117, 118).