DE2364281A1 - Gear compressor with spherical compression chamber - has conical gear discs at fixed angle with line contact between teeth - Google Patents

Abstract

The compressor comprises a rotor shaped like a conical gear wheel meshing with a corresponding element such that their teeth form a number of compression chambers whose volume changes as the relative position of the teeth varies during rotation of the rotor. The teeth of the rotor and the corresponding element are arranged on faces which include a pre-determined angle, and their sides are shaped such that, during rotation of the rotor, they are in constant line contact with the sides of the corresponding teeth. There may be two meshing rotors contained in the compression chamber, or two side rotors meshing with a central main rotor.

Description

Compression machine

The invention relates to a compression machine with a compression chamber designed as a ball, in which at least one bevel gear-like rotor is rotatably arranged, on the circumference of which teeth and gaps lying between them are arranged, which are permanently in engagement with correspondingly arranged gaps and teeth of a counterpart and a large number of compression chambers, the volume of which changes as the rotor rotates depending on the position of the teeth in the gaps assigned to them. The rotor meshes with the counterpart and is driven for this purpose. It can also work with a counterpart designed as a rotor, with one or the other rotor being driven by the other rotor via the intermeshing teeth arranged on the circumference. The teeth

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on the same side generally form Koapreesionsrau · din individual Koiipre * eionak3] tnera au «. You practice "η1" '; η1η "rw * i? U" ctions aujs. You serve as one of the JCraftUb * rfcra,? U - /> g un-1 According to others, the Koapreae.icm; »uj you can understand these two functions the conatual difficulties which stood in the way of an application of the Haeohine in Prexie, although the division of the forces in the normal course BU beiepleleweiee piston compressors in HinM5ok the rotational movement is very favorable ..

The object of the present invention is therefore to provide a Kompresaionsmaachine of the type mentioned in the introduction iu create, in which the teeth of the rotor · -lie dee GegenatUokee bsv »act sealingly on the other rotor *

According to the invention, this object is achieved by the fact that the teeth of the rotors and those of the Oegemstüokea around one ▼ given angle mutually inclined end faces open up and as flanks the movement sequence of the arranged tooth correspondingly shaped (^ guide surfaces aufWelsen, the τοη the flank of the subordinate tooth during the said rotation of the rotor · at least lines « Förnig KraftsohlUaslf is applied.

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oei ßiesör KcffipreeaioneiTÄech.lue ateht every SUhn de · »tator? with the Hacbbareahn the counterpart ·· permanent Ic ventilation, · ο that »however, an edge of the one 2aheee at the spot of the Haobbarzahnee creates a seal. Duröb the special fceetaltttng d «e cream r _; <: vMen becomes aer Druolt aul die ·· eo small, that. A good transfer as above dtn "in- ■ \ ': Λο.τ benaabftrten creams is also guaranteed".

eißftr beroreugten performance »form of the invention tu Koapreeeionaretxm mlndeittn »ewei miteitV3nder rotors engaged via ZWiiic and MolceQ ror « See "Burcli the interaction between the rotors and the rotors" rerxicger the forces to be applied during <5e * lonpre "sion" processes, since the working together "Bd" Q surfaces slide on each other.

Yield V / urther Biceelheitün and Merfceale the invention I β aue the nacbfclgenden aueführlichen Beeohreibung and the accompanying drawings _t

Xn incline the drawings;

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Fig. I dia "Seitenenfeicht two" HeJwMrKiisr im Fig "2 an IJriuifeiofct iu £" ibe Fig *, i a JStriisf: τοπ five teric & iiäicfeii Z ^ h η-

tllungen in the him © κ ru ^ tordnftter gaps,. 4 a S «ltetmo8icUt kiaää drtltelligeti Rolore,

. H äne nprt arrange the rotor, i. 6 eiÄfeti ü * riöfenitt äurfch SiA ko4: oi? Fci * it with

Figν 7 * in »o Querrohoitt through · ΪΒ Äoterblett with

vertpennter Atdlchtting, Fig. β (»inen iiuerecianiti äxxtch eiiin Äi ^

Flg. 9 «inside cross section through a side rotor»

Until · Io »prei * ione * eechine berttht ie vtieBtil <hen from tv tttlltrreöairtig aueetblldtten rotors 1, 2 _X di« With her ^ to eighth 3, 4 rotatable in «inen Othttu ·· 5« # l * g »rt • in <p. Xo dt »CNibttu ·· iet« in Ioiapre »» ioner * u * 6 developed, to whom you form a leilee ute inside a sphere. Pie «er Kugelsuechitt weö einereelte tob a» skin of a spherical surface ·, the calibration ▼ on a «wider skin 7 and an eoheeleren skin 8

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h narrowed and also from oblique kiub ülci; Gradient "the course · ίer Kug ^ lover surface of the £ orapreo" 1st lon "raunes 6 adapted in the side walls. 9" In the region of the mounting of the axles 3, daa wotat Oenäune 5 is a Srveiterung 10, in 1 the fltebe "M.-1 ? · The "rotors 1, 2 can run»

Aa of the lin ^ tn H ₁ 12 teeth 13 are attached, the strah * 'i «mf iirü'lg. "Run around the center of the rotors 1, 2 and", wr.ech-ü ai -.- h LUoken 14 einooblleöen, which are just as wide eiuci «lie 3 La Zätifli 13“ The Aohaen 3, 4 are at a careful angle Beta against each gen '';?.! These gt r / <3j.guag lot 0o beraeeaen, the teeth 13 Auss on a part of the peripheral "Tollkojnmon in the gaps 14 immerse VAEH · rend aie to dor opposite point of the compass a- , writ, eind sucked out from the gaps 14 _T 13 dad they only touch with their top edges 15 sswel adjacent teeth. These ratios are 3 Ubersichtlioh dai'geeteilt in flg.. This selgt the Tsreohiedenen Sahn · with respect to a tooth 13 lugeordneten

Llloke U when the rotor 1 rotates through 180 °. Aa the beginning of the rotation touch eioh each of the upper edges 15 isweier adjacent teeth 13, without the web 19 penetrating into the gap 14 arranged for him * 5aoh one

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Rotation of 45 ° (see * Pig * 5, «wide * drawing τοη I got ten 13 as a result of the inclination of the rotor I. at the angle beta with its upper edge 15 pushed a little bit into the gap 14 in which the upper edge 15 runs obliquely. After turning the hot rods 1, 2 through an angle of 90 °, the ten has 13 oohed another piece into the moke 14 and a top edge 15 is even more oblique than that of the inclination associated with a rotation of 45 °. Haeh one Rotor rotation of 135 ° let the tooth 1? sohon e very far into LucIf14, which he found after a Rotordrehuig has reached 180 ° »

The teeth 13 and the gaps 14 assigned to them have flanks 16 and 17, respectively, which are adapted to one another. As a result of this adaptation, there is a seal between the Lüoker 14 and the rest of the compression chamber 6 during the entire run of the rotors 1, 2. The upper edges 15 of the teeth 13 of the inner rotor 1 slide on the planks 16 of the teeth 13 of the other rotor 2 and, on the other hand, the upper edges 15 of the tracks 13 of the rotor 2 slide on the hooks 16 of the teeth 13 of the rotor 1. During this sliding, 2 mo large forces are transmitted from the iron rotor to the other rotor, that

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on the one hand a seal each τοη the gaps 14 educated. KoiBpreeiilonekaittiter versus β · ■ others KompreeBionereuiE. S is conquered and indirectly dit necessary to drive the rotor

When de · lath * 13 penetrates into the gap U, the Gee located in you Lüok · U is compressed _. After an ironing of 160 °, the greatest compression is achieved. Depending on whether the Koiapreaeioneiaasscbine iowan now the compressed gas or the Coaprimaeion in a CoapreeaioneuyT through in oehiiu ··· the outlet sockets 18 are discharged, or if the compression ions are used, · <kompriffiieri-6 ö ·· be set up.

In the area of the fence tu beginning dee loupreeeion · - hubee are in the building 5 binXafieehlitte 19 rorgee ·

The Koiapreetil on "M" ohlne know eucb with a three-part egg Rotor also formed "a (rergl. Pig, 4) · In this case · iet a main rotor 20 on a dircohfeheuden Aoh »e 21

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The main rotor 20 cooperates with two side rotors 22, which have 23 opposite the axis

21 are inclined at an angle beta. The side rotors

22 engage with elongated webs 24 between the teeth 25 of the main rotors 20. A web 24 acts on it of the one side rotor 22 the tooth 25 on one side and a web 24 of the other side rotor 22 the Tooth 25 on the other side. In this way, the distance between two webs 24 corresponds to the width of two Teeth 25 and that of the protruding between these teeth 25 Web 24 of the other side rotor 22.

Turning the Aohae 21 also turns the main rotor 20 driven. This takes the webs via its teeth 25 24 of the side rotors 22 with “The webs 24 slide by their position at the beginning of the compression stroke, at which they end with their front edges approximately in the middle of the teeth 25, "these wipe so that after a rotation of 180 ° they have reached approximately the opposite Andes of the teeth 25 with their gate edges 26. This let the position of the greatest compression attainable with this three-part rotor.

The side rotor 22 and the main rotor 20 'load at the end

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their webs 24 baw _? Teeth 25 adapted to the spherical design of the compression space by a corresponding design of the string edges. They therefore seal when passing through the koaipreesion space 6 with the geuaewan'umgsn ah. The cream 25 of the main rotor 2Ö y.lnd In its lower part 27, which is acted upon by the webs 24 in the area of greatest compression, designed as an involute »In this area there is an optimal power transmission from the main rotor 20 to the sea. Fluid rotors 22, which do not affect the power transmission, tooth parts above the lower parts β 27 3ina are designed in such a way that the smallest possible reed space during compression leads to a high compression ratio.

In addition, sealing plates 26 are arranged in the teeth 25 in order to remove the compressor. Extend Dieee strainer disc-shaped o.uer lur the longitudinal direction by the teeth 25 through the center thereof, the one a plate 28 fit Bioh substantially rechteokförnig the cross-section of a tooth 25 on · They are · ο sized to beidseitβ of the tooth 25 of the planks 16 protrude a little bit that the seal against the adjacent webs 24 of the side rotors 22 is auareioht.

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protrude oils Di © htplßtt © s 23 la Eiohtung of the globular © Jto & prassioiasratiii <S from the cocks 23 hsrau® iana died on glass? Set® the upper edges 15 compared to the housing 5 at,

Bel d®a? Movement of the motors guide the sealing plates 28 a straight radial back and forth movement. This will durob the Sellunge lower e as the ftroßkreia im Area of movement of the main rotor 20 and the secondary circle in the area of the occupancy of the side rotors 22 in Kompres8ion® room 6 called.

In order to fasten the welded plates 28 in the teeth 25, in particular with regard to centrifugal forces that occur when the rotor 20 is rotated, fastening springs 29 are formed on the side surfaces of the motorized plates 28. These engage in corresponding Inten 30 of Sohlitaen 31, which the teeth 25 in their middle

TJ * trots 7ersohl «isse * the Blohtpl & tten 28 elee seal of the teeth 25 against the webs 24 can bring about, can the Dlohtplatten 28 be pressed against the webs 24? Si © w®1ü @ b su dl @ 0 © s Zweok® a part

32 & t2f $ Iß am © Ie f ^^ melvmnti at-

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epislsuelse a feather 33? can be arranged that the two! 'rush the divided sealing plate 28 to the outside beaufeonlagt in the direction of the webs 24 (rergl. Pig 7). The sealing of the compression area 6 ie area the axis 21 is done in such a way that the side rotors 22 with their shafts 23 are mounted on a hub 34, which is designed in the form of a spherical cap. On this lift 34, the side rotors 22 can move in the direction of the teeth 25 of the main rotor 20 naob inside when the axis 21 is driven »This version can eo dioht be designed so that there are no leaks develop. Incidentally, you can also use beer in Diohtelemsnte corresponding rods 35 "must be provided ·

During the rotation, the teeth 25 cooperate with the webs 24 in such a way that "in underpressure occurs when the webs 24 are pulled out farthest from the teeth" between the teeth 25. In this area there are inlet holes 19 in the housing 5 so that the compressing gas or the compressing liquid penetrates into the compression chamber 6 When the rotors 20, 22 continue to run, the inlet slots 19 are closed , the webs 24 penetrate into the intermediate space.

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see the teeth 25 «, This becomes continuous Compaction work done because the cliffs of the webs 24 in constant force of force with the planks of the teeth stand «The compression peaks when the webs 24 have penetrated the furthest between the teeth 25. The outlet litz is located in this area 16 «through which the compressed grass or compressed liquid is released into a pressure system is · On the other hand, when using the compression machine ala combustion machine in this Points put the ignition, so SaB the expanding Gases in dl® side rotors 22 from the Hmaptrotor 20 push away.

The JmfttbrungefoKm d he iuroligehraaen Adtese 21 can also be \ fe £ ®é fOrwJAiiQbt imi & m, which mn a main rotor 20 only Seltetirotor is 22. "In this case, reducing the available sur see standing · · Sompressioneraua

The forces transmitted by the © inselnen & ®fam® zn know at all AnsfUteussebdiepiol ^ n n & eh daduroh hevabgesetst ₉ that mi @ ®ti @ ii Sen Rztwm in the area Habtn £ & pplisng # ii w & sge® @ h & m ®inä _g uhmf « The power

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~ 13 -

is transmitted, In this Palle the mutual serves Acting on the side flanks only nooh the flee exercise of the ainzölnen Kompreesion3kammern from each other-

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Claims (1)

Patent ex & Ghe l. 1.] Compression mascoine with an ala ball auegebil deten Koiapreasionsrauni, in the reduced »a bevel-gear-like rotor is rotatably arranged, on the circumference of which teeth and gaps between them are arranged, which with correspondingly arranged lugs and teeth of a counterpart permanently in. Engagement oind and form a variety of compression chambers, the volume of which changes depending on the size of the teeth in the gaps assigned to them during the rotation of the rotor, characterized in that the teeth (13th - 5) of the rotor (1,2 , 20) and the face surfaces of the counterpart, which are inclined to one another by a predetermined angle, and have, as flanks (16) in accordance with the sequence of movements of the associated tooth (13, 25), shaped sliding flutes which depend on the flank (16) ordered tooth (13; 24) during the entire rotation of the rotor (1, 2; 20) is acted upon at least linearly in a force-sole manner. 2. KoBioreeeionefiMsohine n «oh claim 1, daduroh gefcennselohnet ■, iaS in Komf ^ esslonssmuia (6) aiiideetene , ■. ,, - »509828/0187 . BATH ORIQiMAL. 2384281 two rotors (1,2; 20) which mesh with one another via teeth (I3 _f 25) and Iftcken (H) are provided. Compression machine according to claims 1 and 2, characterized characterized in that the Aonsen (3,4) of the rotors (1,2) are inclined to each other by a given angle * Compression masobine according to claim 1, 3 »thereby characterized in that the rotors (1,2 $ 20) have spherical shaped have (11, 12; 34) * of which one in the other is sliding and floating, ·. Compression machine according to claims 1 "to 4, characterized characterized in that from three rotors a main rotor (20) transmits power with a stnkreoht the axis protruding from the plane spanned by it (21) is connected and the other two are designed as side rotors (22), the planes of which are inclined in a mirror image to the plane of the main rotor (20) at a predetermined angle and on each side rotor (22) webs (24) with a distance of evei 509826/018 7 adjacent teeth (25) of the Hwuptrotor (20) provided bind, between the siah a bridge (24) of the other iaeitenrotors (22) extends. 6. Kompresßionsmaechine according to claim 5? characterized, that the teeth (25) of the Hattptrotors (20) have involute-shaped planks (16) which transmit force from the webs (24) the side rotors (22) are acted upon. 7. Compression machine according to claim 5 and 6 _P, characterized in that the teeth (25) of the main rotor (20) of sealing plates (28) are _{arched t} oie in the central plane of the main rotors (20) and on the! Flanks (16 ) of the teeth (25) form sealing edges which act on the flanks of the webs (24) of the side rotors (22) " 8. KompreesionamaBehine according to claim 5 to 7 »thereby characterized in that the sealing plates (28) from the facing the spherical Korapreseioneratm (6) External surfaces of the teeth (25) for the main rotor (20) protrude and act on the compression artery (6) Form sealing edges., 509826/0187 - -I7 - iTompressioasinaschlne according to claim 1 t "ia 8, characterized geteemizeichviet," that on the sealing plate (28) concentrically ^ srlaufende Befeotigungsfedem (33) being bi'.i.3 "r ainä., in the entoprechdnde hats (30) has a grab" provided inside the teeth (25) K) KorapreaaionuBiaeohlne Tiaoh claim 1 to 9 _f, characterized in that the sealing plates (28) are divided in the radial direction and the MohtplattenhMlften üuroh iOdecn (33) in the direction of the webs (24) of the side rotors (22) are acted upon. 11, compression machine according to claims 5 to 10, characterized characterized in that the outer surfaces of the teeth (13,25) and the webs (24) are arched in the shape of a spherical cap 12. Kompressionamaschlne according to Anepruoh 5 ble 11, characterized in that the side rotors (22) are mounted on the hub (24) of the main rotor (20), which is designed as a spherical cap. 50 9826/0187 13c eompression machine according to claim 1 to 12, characterized in that the housing (5) has outlet openings (18) in the area where the teeth (13 _V 24) are deeply immersed in the gaps (H) assigned to them and inlet openings (19) in the area where they are widest Removal of the teeth (13 »24) from the associated gaps (14). 14. Compression machine according to claim 1 to 12, characterized in that the egg & passage opening through the The side wall (9) of the housing goes through and the medium flows in through curved widenings the teeth towards the hub (23) is lightened. 15. Compression machine oaeh claim 2 to 10, characterized in that the two rotors (1,2 ^ 20,22) have a coupling connecting them in the region of their have (11,12; 34) 509826/0187 Blank page