FI90522C - Wheelchair procedure - Google Patents

Wheelchair procedure Download PDF

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Publication number
FI90522C
FI90522C FI914790A FI914790A FI90522C FI 90522 C FI90522 C FI 90522C FI 914790 A FI914790 A FI 914790A FI 914790 A FI914790 A FI 914790A FI 90522 C FI90522 C FI 90522C
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FI
Finland
Prior art keywords
roll
rails
winding
nip
web
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FI914790A
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Finnish (fi)
Swedish (sv)
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FI914790A (en
FI90522B (en
FI914790A0 (en
Inventor
Markku Kyytsoenen
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Valmet Paper Machinery Inc
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Priority claimed from FI905283A external-priority patent/FI89701C/en
Application filed by Valmet Paper Machinery Inc filed Critical Valmet Paper Machinery Inc
Priority to FI914790A priority Critical patent/FI90522C/en
Publication of FI914790A0 publication Critical patent/FI914790A0/en
Publication of FI914790A publication Critical patent/FI914790A/en
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Publication of FI90522B publication Critical patent/FI90522B/en
Publication of FI90522C publication Critical patent/FI90522C/en

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  • Winding Of Webs (AREA)

Description

9052290522

Menetelmå rullainlaitteessa Fdrfarande vid rullstol 5Method on a roller device Fdrfarande vid rullstol 5

Keksinnon kohteena on paperirainan tai vastaavan rullausmenetelma, erityisesti popetyyppisessa rullaimessa, joka kasittaa ensimmaisen pydrivan telan, esimerkiksi rullaussylinterin ja toisen pydrivan telan, 10 esimerkiksi tarapuuritelan, jotka muodostavat nipi, johon raina tuodaan, ja jossa nipissa rainaan vaikuttaa nippipaine ja jonka nipin jalkeen raina kelataan mainitulle toiselle pyorivalle telalle, joka tuettu laakereistaan rullauskiskojen varaan siten, etta ainakin osa nipissa vaikuttavasta nippipaineesta syntyy maan vetovoiman aiheuttamasta voi-15 makomponentista, jossa menetelmåsså toisen pyorivån telan tåytyttya sen ymparille kiertyneestå rainasta valmiiksi, taydeksi telaksi, mainittu tåysi tela siirretaan vaihtoasemaan, irti nippikosketuksesta ensimmai-seen telaan, rullauskiskot asetetaan haluttuun kulmaan, uusi toinen pydrivå tela, joka on valmiiksi kiihdytetty samaan kehanopeuteen kuin 20 ensimmåinen tela, asetetaan rullauskiskojen kannatukseen ja samalla nippikosketukseen ensimmaisen telan kanssa ja raina katkaistaan ja aloitetaan sen kiertaminen uuden toisen pyorivån telan ymparille.The invention relates to a method of winding a paper web or the like, in particular in a poppy-type winder, which feeds a first dripping roll, for example a winding cylinder and a second dripping roll, for example a tear roll, forming a nip into which the web is introduced. a second rotating roll supported by its bearings on the winding rails so that at least part of the nip pressure acting on the nip is generated by the force component of the ground traction, in which method the second rotating roll is filled -to the roll, the rolling rails are set at the desired angle, a new second pydrivå roll, already accelerated to the same frame speed as the first 20 rolls, is placed on the support of the rolling rails and at the same time the nip contacts with the first roll and the web is cut and rotated around a new second rotating roll.

Tekniikan tason osalta viitataan FI-patenttijulkaisuihin 49276 ja 69818 : ; 25 seka GB-hakemukseen 2009108, joista tunnetaan menetelmå rullaimessa, jossa telan taytyttya valmiiksi taydeksi telaksi, valmis tela siirretaan vaihtoasemaan ja rullauskiskot tai vastaavat kallistetaan haluttuun kulmaan uuden telan vastaanottamiseksi.With regard to the state of the art, reference is made to FI patent publications 49276 and 69818:; As well as GB application 2009108, which discloses a method in a winder in which, after filling a roll into a finished roll, the finished roll is moved to an exchange station and the winding rails or the like are tilted to a desired angle to receive a new roll.

30 Eraiden rullainten, esim. pope-rullaimen, vaihtotapahtumassa ensidkis-.. . koilta toisiokiskoille aiheutuu helposti rullaussylinterin ja tampuuri- telan valille epåjatkuvuuskohtia esim. viivapainepiikkeja, jotka aihe-uttavat pohj ahylkyå.30 In the event of an exchange of some reels, eg a pope reel, the first time ... On the secondary rails, discontinuities are easily caused between the winding cylinder and the spool roll, e.g. line pressure spikes, which cause bottom wrecking.

35 Keksinndn pååmaåranå on aikaansaada sellainen rullain, jossa edella esitettyå ongelmaa ei esiinny. Keksinndn pååmaårana on saada aikaan rullain, jossa pohjahylkyå aiheuttavia epåjatkuvuuskohtia ei esiinny.The object of the invention is to provide a reel in which the above problem does not occur. The object of the invention is to provide a reel in which there are no discontinuities causing bottom wrecking.

2 905222 90522

Edellå esitettyjen ja myohemmin esille tulevien pååmåårien saavuttami-seksi on keksinnon mukaiselle menetelmålle pååasiallisesti tunnusomais-ta, ettå ennen tåyden telan siirtåmistå vaihtoasemaan Coiset rullaus-kiskot, jotka ainakin osittain ovat rullauskiskojen jatkeena, siirre-5 tåån samaan kulmaan kiskojen kanssa, jolloin toinen pyorivå tela tai tåysi tela voi siirtyå jatkoskohdan yli.In order to achieve the objectives set out above and later, the method according to the invention is essentially characterized in that before the complete roll is moved to the exchange station, the Coiset rolling rails, which are at least partly an extension of the rolling rails, are moved at the same angle or a full roll may move over the joint.

Keksinnon mukaisen menetelmån toiselle edulliselle toteuttamisesimer-kille on pååasiallisesti tunnusomaista, ettå ennen tåyden telan siirtå-10 mistå vaihtoasemaan rullauskiskojen kulma såådetåån sellaiseksi, ettå toiset rullauskiskot, jotka ovat kiinteåt, muodostavat jatkeen rullaus-kiskoille siten, ettå tåysi tela voi siirtyå jatkoskohdan yli.Another preferred embodiment of the method according to the invention is mainly characterized in that before moving the complete roll to any of the exchange stations, the angle of the winding rails is adjusted so that the second winding rails, which are fixed, form an extension over the winding rails.

Keksinnosså aloitetaan radan rullaus tampuuritelalle rullaussylinteriå 15 vasten kohdassa, jossa tampuuritelaan kohdistuvan maan vetovoiman rul-laussylinterin keskipisteen suuntainen voimakomponentti on sopiva muo-dostaen viivakuormituksen.In the invention, the winding of the track on the spool roll is started against the winding cylinder 15 at a point where the force component in the direction of the center of the winding cylinder of the traction force applied to the spool roll is suitable to form a line load.

Voimakomponentin muuttaminen saadaan aikaan usealla eri tavalla, esim. 20 sååtåmållå rullauskiskojen eli -haarukoiden kaltevuutta. Tampuurikoon kasvaessa kaltevuutta pienennetåån sopivaksi.The change of the force component is achieved in several different ways, e.g. by adjusting the inclination of the rolling rails or forks. As the swab size increases, the slope is reduced to fit.

Paperirullaimen vaihto- eli siirtotapahtumassa ensiokiskoilta toi-siokiskoille esiintyvåt epåjatkuvuudet saadaan keksinnon mukaisesti 25 eliminoitua esim. aloittamalla rullaus suoraan kiskoilta.According to the invention, the discontinuities occurring in the exchange or transfer operation of the paper winder from the primary rails to the secondary rails can be eliminated, e.g. by starting rolling directly from the rails.

Kun tåysi tampuuri pyorii toisiokiskoilla, ensiokiskot voidaan siirtåå optimaaliseen kaltevuusasemaan viivapainetta ajatellen siten, ettå viivakuormitus eli viivapaine muodostuu halutuksi koko koneen poikki-30 suunnassa.When the full tampon rotates on the secondary rails, the primary rails can be moved to the optimal inclination position for line pressure, so that the line load, i.e. line pressure, is desired in the entire cross-machine direction.

Erååsså suoritusmuodossa kun tåysi tampuuri pyorii toisiokiskoilla, siirretåån se jarrutusasemaan, jonka jålkeen ensiokiskot voidaan siirtåå optimaaliseen kaltevuusasemaan viivapainetta ajatellen siten, ettå 35 viivakuormitus eli viivapaine muodostuu halutuksi koko koneen poikki-suunnassa. Tåsså suoritusmuodossa tampuurin koon kasvaessa rullauksen li 3 90522 edetesså ensiokiskojen kaltevuuskulroaa pienennetaån. Vaihto eli siirto toisiokiskoille tapahtuu siirtamalla toisiokiskot vastaavaan kaltevuus-kulmaan ens iokiskojen kanssa, jolloln korvaava tampuuri vierii jatkos-kohdan yli, jonka alkana ensid- ja toisiokiskot liikkuvat tahdistettui-5 na saataen viivakuormitusta kaltevuuskulmaan muuttamisen valityksella.In one embodiment, when the full tampon rotates on the secondary rails, it is moved to a braking position, after which the primary rails can be moved to the optimal inclination position for line pressure so that a line load, i.e. line pressure, is desired across the entire machine. In this embodiment, as the size of the spool increases, as the rolling li 3 90522 progresses, the slope flow of the primary rails is reduced. The exchange, i.e. transfer to the secondary rails, takes place by moving the secondary rails to the corresponding inclination angle with the primary rails, whereby the replacement tampel rolls over the splice point, at which point the primary and secondary rails move in synchronism, applying a line load.

Keksinndn mukaisella jarjestelmalla saavutetaan myos muita etuja. Esim. vaihtotapahtumaa rullauksen alussa ei ole ja kuormitustilanteen nåkee luonnossa tarkkailemalla kiskojen kaltevuutta.The system according to the invention also achieves other advantages. For example, there is no change at the beginning of rolling and the load situation can be seen in nature by observing the inclination of the rails.

1010

Seuraavassa keksintoa selostetaan yksityiskohtaisemmin viittaamalla oheisen piirustuksen kuvioihin, joihin keksintoa ei kuitenkaan ole mitenkaan ahtaasti rajoitettu.In the following, the invention will be described in more detail with reference to the figures of the accompanying drawing, to which, however, the invention is in no way narrowly limited.

15 Kuvio 1 esittaa kaaviollisesti jarjestelya tasaisen viiva- eli nippi-paineen aikaansaamiseksi.Figure 1 schematically shows an arrangement for achieving a uniform line or nip pressure.

Kuvio 2 esittaa kaaviollisesti eråstå keksinnon mukaisen jarjestelyn suoritusmuotoa, joka soveltuu kåytettavaksi paattymattomassa rullauk-20 sessa.Figure 2 schematically shows an embodiment of an arrangement according to the invention suitable for use in unstoppable winding.

Kuvio 3 esittåå kaaviollisesti eråsta toista keksinndn mukaisen jarjes-telyn suoritusmuotoa, joka soveltuu kaytettavaksi pååttymåttomåssa rullauksessa.Figure 3 schematically shows another embodiment of an arrangement according to the invention suitable for use in endless winding.

i ' 25i '25

Kuvio 4 esittaa kaaviollisesti keksinndn mukaista jarjestelya vaihtota-pahtuman yhteyteen sovitettuna.Figure 4 schematically shows an arrangement according to the invention adapted to an exchange event.

Kuviossa 1 esitetyn mukaisesti viivakuormitus saadaan koneen poik-30 kisuunnassa eli tampuurite1an 20 akselin suunnassa tasaiseksi nipin N kohdalla sijoittamalla tampuurirauta 20 rullaussylinteriin 15 nahden kannatukselle siten, etta maan vetovoiman G tampuuriraudan 20 ja rul-laussylinterin 15 keskipisteiden kautta kulkeva voimakomponentti Gr muodostaa viivakuormitukseen tarvittavan voimakomponentin. Viivakuormi-35 tusta saadetaan muuttamalla tampuuriraudan 20 asemaa rullaussylinteriin ____ 15 nahden siten, etta nippikohta N rauuttuu ja samalla viivakuormituksen 4 90522 aiheuttavan voimakomponentin Gr suuruus muuttuu. Voimakomponentin Gr muuttaminen tapahtuu helpoiten sååtåmållå rullauskiskojen 10 kaltevuut-ta eli kulmaa a. Viivakuormitus on tålldin Gr - G · sin a, eli tampuu-riraudan 20 oma paino ja siile rullautuneen rainan paino aikaansaavat 5 viiva- eli nippikuormituksen kohdassa N. Tampuurin 20 koon kasvaessa kaltevuuskulmaa a luonnollisesti pienennetåån tasaisen viiva- eli nippikuormituksen yllåpitåmiseksi, sopivimmin noin 20°:sta l°:seen.As shown in FIG. The line load 35 is obtained by changing the position of the spool iron 20 in the winding cylinder ____ 15 so that the nip point N fractures and at the same time the magnitude of the force component Gr causing the line load 4,90522 changes. The easiest way to change the force component Gr is to adjust the inclination a of the winding rails 10, i.e. the angle α. The line load is the weight of the trough Gr - G · sin a, i.e. the tamp iron-iron 20 and the web the angle of inclination α is, of course, reduced to maintain a uniform line or nip load, preferably from about 20 ° to 1 °.

Rullauskiskojen 10 kaltevuuskulmaa α såådetåån toimilaitteen esim.The inclination angles α of the rolling rails 10 are adjusted by the actuator e.g.

10 ruuvitunkin 30, sylinterin tai muun vastaavan elimen avulla. Kaltevuus-kulman α sååtdelimiksi 30 soveltuvat hyvin monet tunnetut jårjestelyt. Rullauskiskot 10 on kååntyvåsti kiinnitetty rullaussylinteriin 15, edullisesti rullauskiskot 10 on niveldity rullaussylinterin 15 keski-pisteeseen.10 by means of a screw jack 30, a cylinder or the like. Many known arrangements are suitable as slope angle α adjusters 30. The winding rails 10 are pivotally attached to the winding cylinder 15, preferably the winding rails 10 are articulated to the center of the winding cylinder 15.

1515

Kuvion 2 mukaisesti keksinndn mukainen jårjestely soveltuu kåytettåvåk-si, kun rullaus on pååttymåtontå. Kuviossa 2 on esitetty rakenne, jossa kåytetåån kahta rullaussylinteri 15 - kisko 10 jårjestelmåå. Kuviossa 2 rainan W ohjausteloja on merkitty viitenumerolla 25. Kuvion mukaisesti 20 tampuurin 20 koon suuretessa kulmaa a pienennetåån. Ensimmåisen tampuurin 20 tåytyttyå raina W johdetaan toiselle rullausjårjestelmålle, joka toimii vastaavalla tavalla.According to Figure 2, the arrangement according to the invention is suitable for use when the winding is endless. Figure 2 shows a structure in which two winding cylinders 15 - a rail 10 are used in a system. In Fig. 2, the guide rollers of the web W are denoted by reference numeral 25. As shown in Fig. 2, as the size of the tampon 20 increases, the angle α is reduced. When the first spool 20 is filled, the web W is fed to a second winding system which operates in a similar manner.

Kuviossa 3 on esitetty toinen mahdollisuus jårjestelmåksi, jossa kåyte-25 tåån kahta rullaussylinteri 15 - kisko 10 jårjestelmåå. Raina W johdetaan ohjaustelojen 25 kautta rullaussylinterille 15, josta edelleen kiskon 10 kannatuksessa olevalle tampuuritelalle 20. Rullauksen pååtyt-tyå raina W johdetaan toiselle rullausjårjestelmålle. Kuviossa 6 on katkoviivoin esitetty kiskojen 10 ja tampuurien 20 asema tampuurin 30 ollessa tåynnå.Figure 3 shows another possibility for a system in which the drive-25 then has two winding cylinders 15 - a rail 10 in the system. The web W is fed via guide rollers 25 to a winding cylinder 15, from which it is further passed to a spool roll 20 supported by the rail 10. At the end of the winding, the web W is fed to another winding system. Figure 6 shows in broken lines the position of the rails 10 and the tampons 20 when the tampon 30 is full.

Kuvion 4 mukaisesti esim. pope-rullaimen vaihto ensiokiskoilta 10 toi-siokiskoille 11 suoritetaan siten, ettå vaihto suoritetaan ensidkis-koilla 10, jolloin tåysi tampuuri 21 pydrii toisiokiskoilla 11. Tåysi 35 tampuuri 21 siirretåån jarrutusasemaan, jonka jålkeen ensidkiskot 10 I; 5 90522 voidaan siirtåå optimaaliseen asemaan viivapainetta ajatellen. Viiva-paine eli viivakuormitus Gr on tasalnen koko poikkisuunnassa,According to Fig. 4, e.g., the change of the pop-reel from the primary rails 10 to the secondary rails 11 is performed by the primary rails 10, whereby the full spool 21 rotates on the secondary rails 11. The full spool 21 is moved to the braking station, after which the primary rails 10 I; 5 90522 can be moved to the optimal position for line pressure. The line pressure, i.e. the line load Gr, is in the entire transverse direction of the plane,

Gr - G · sin a, Tampuurin 20 kasvaessa kulmaa a pienennetaan tampuurin 20 halkaisijan edelleen kasvaessa. Siirto toisiokiskoille 11 tapahtuu 5 siirtamalla toisiokiskot 11 vastaavaan kulmaan o ensiokiskojen 10 kans-sa, jolloin tåysi tampuuri 21 vierii jatkoskohdan yli, jonka aikana ja jålkeen ensiokiskot 10 ja toisiokiskot 11 liikkuvat tahdistettuina viivakuormitusta såatåen. Toisiokiskot 11 voivat olla myos kiinteåsti kiinnitetyt, jolloin viivakuormituksen sååto tapahtuu ko. kiskoilla 11 10 normaalisti rullaushaarukoiden avulla.Gr - G · sin a, As the tamper 20 increases, the angle α decreases as the diameter of the tamper 20 continues to increase. The transfer to the secondary rails 11 takes place by moving the secondary rails 11 to a corresponding angle o with the primary rails 10, whereby the full tampon 21 rolls over the splice point, during and after which the primary rails 10 and the secondary rails 11 move in sync with the line load. The secondary rails 11 can also be permanently attached, in which case the line load is adjusted in question. on rails 11 10 normally by means of rolling forks.

Keksintéå on edella selostettu vain eraisiin sen edullisiin suori-tusesimerkkeihin viitaten. Talla ei kuitenkaan millaan tavoin haluta rajoittaa keksintoa vain naita esimerkkejå koskevaksi, vaan monet muun-15 nokset ja muunnelmat ovat mahdollisia seuraavien patenttivaatimuksien maarittelemån keksinnollisen ajatuksen puitteissa.The invention has been described above only with reference to some of its preferred embodiments. However, it is not intended to limit the invention in any way to these examples, but many modifications and variations are possible within the scope of the inventive idea defined by the following claims.

Claims (3)

6 905226 90522 1. Paperirainan tai vastaavan rullausmenetelmå, erityisesti popetyyppi-sesså rullaimessa, joka kåsittaå ensimmåisen pyorivån telan, esimerkik- 5 si rullaussylinterin (15) ja toisen pyorivån telan, esimerkiksi tampuu-ritelan (20), jotka muodostavat nipin (N), johon raina (W) tuodaan, ja jossa nipisså (N) rainaan (W) vaikuttaa nippipaine (Gr) ja jonka nipin (N) jålkeen raina (W) kelataan mainitulle toiselle pyorivålle telalle (20), joka tuettu laakereistaan rullauskiskojen (10) varaan siten, ettå 10 ainakin osa nipissa (N) vaikuttavasta nippipaineesta (Gr) syntyy maan vetovoiman aiheuttamasta voimakomponentista, jossa menetelmåsså toisen pyorivån telan (20) taytyttya sen ymparille kiertyneesta rainasta (W) valmiiksi, tåydeksi telaksi (21), mainittu tåysi tela (21) siirretaan vaihtoasemaan, irti nippikosketuksesta ensimmåiseen telaan (15), rul-15 lauskiskot (10) asetetaan haluttuun kulmaan (a), uusi toinen pyorivå tela (20), joka on valmiiksi kiihdytetty samaan kehanopeuteen kuin ensimmåinen tela (15), asetetaan rullauskiskojen (10) kannatukseen ja samalla nippikosketukseen ensimmåisen telan (15) kanssa ja raina (W) katkaistaan ja aloitetaan sen kiertaminen uuden toisen pydrivån telan 20 (20) ymparille, tunnettu siita, etta ennen tayden telan (21) siirtamista vaihtoasemaan toiset rullauskiskot (11) , jotka ainakin osittain ovat rullauskiskojen (10) jatkeena, siirretaan samaan kulmaan (a) kiskojen (10) kanssa, jolloin toinen pyoriva tela (20) tai tåysi tela (21) voi s iirtya jatkoskohdan yli. 25A method of winding a paper web or the like, in particular in a poppy-type winder, comprising a first rotating roll, for example a winding cylinder (15) and a second rotating roll, for example a tampon roll (20), forming a nip (N) into which the web ( W) is introduced, and in which the web (W) in the nip (N) is subjected to a nip pressure (Gr) and after which the web (W) is wound on said second rotating roll (20) supported by its bearings on the winding rails (10) so that 10 at least part of the nip pressure (Gr) acting on the nip (N) is generated by a force component caused by the gravity of the ground, in which method the second rotating roll (20) is filled from a web (W) , detached from the nip contact with the first roller (15), the roller rails (10) are set at the desired angle (a), a new second rotating roller (20) is already accelerated at the same frame speed like the first roll (15), is placed on the support of the winding rails (10) and at the same time in nip contact with the first roll (15), and the web (W) is cut off and started to wrap around a new second roll 20 (20), characterized in that before the roll (21) to the exchange station, the second winding rails (11), which are at least in part an extension of the winding rails (10), are moved at the same angle (a) as the rails (10) so that the second rotating roller (20) or the full roller (21) can move over. 25 2. Patenttivaatimuksen 1 mukainen menetelma, tunnettu siita, ettå rullauskiskot (10) ja toiset rullauskiskot (11) liikkuvat tahdis-tettuina viivakuormitusta sååtåen.Method according to Claim 1, characterized in that the winding rails (10) and the second winding rails (11) move in synchronism, adjusting the line load. 3. Paperirainan tai vastaavan rullausmenetelmå, erityisesti popetyyppi- sesså rullaimessa, joka kåsittåå ensimmåisen pyorivån telan, esimerkiksi rullaussylinterin (15) ja toisen pydrivån telan, esimerkiksi tampuu-ritelan (20), jotka muodostavat nipin (N), johon raina (W) tuodaan, ja jossa nipisså (N) rainaan (W) vaikuttaa nippipaine (Gr) ja jonka nipin 35 (N) jålkeen raina (W) kelataan mainitulle toiselle pydrivålle telalle (20), joka tuettu laakereistaan rullauskiskojen (10) varaan siten, etta i, 7 90522 ainakin osa nipissa (N) vaikuttavasta nippipaineesta (Gr) syntyy maan vetovoiman aiheuttamasta voimakomponentista, jossa menetelmassa toisen pyorivSn telan (20) taytyttya sen ymparille kiertyneesta ralnasta (W) valmiiksi, tåydeksi Celaksi (21), mainittu taysi tela (21) silrretaan 5 vaihtoasemaan, irti nippikosketuksesta ensimmaiseen telaan (15), rul-lauskiskot (10) asetetaan haluttuun kulmaan (a), uusi toinen pyorivå tela (20), joka on valmiiksi kiihdytetty samaan kehånopeuteen kuin ensimmainen tela (15), asetetaan rullauskiskojen (10) kannatukseen ja samalla nippikosketukseen ensimmåisen telan (15) kanssa ja raina (W) 10 katkaistaan ja aloitetaan sen kiertåminen uuden toisen pyfirivan telan (20) ymparille, tunnettu siita, etta ennen tayden telan (21) siirtamista vaihtoasemaan rullauskiskojen (10) kulma (e) saadetaan sellaiseksi, etta toiset rullauskiskot (11), jotka ovat kiinteat, muo-dostavat jatkeen rullauskiskoille (10) siten, ettå tåysi tela (21) voi 15 siirtyå jatkoskohdan yli. 8 905223. A method of winding a paper web or the like, in particular in a pop-type winder, comprising a first rotating roll, for example a winding cylinder (15) and a second rolling roll, for example a tampon roll (20), forming a nip (N) into which the web (W) is introduced , and in which the web (W) in the nip (N) is subjected to a nip pressure (Gr) and after which the web (W) is wound on said second floating roll (20) supported by its bearings on the winding rails (10) such that i, 7 90522 at least part of the nip pressure (Gr) acting on the nip (N) is generated by a force component caused by the traction of the ground, in which method the second rotating roll (20) is filled from the roll (W) wrapped around it into a complete roll (21), said full roll (21) 5 to the exchange station, detached from the nip contact with the first roll (15), the roller rails (10) are set at the desired angle (a), a new second rotating roll (20) is already accelerated in the same frame at a speed other than the first roll (15), is placed on the support of the winding rails (10) and at the same time in nip contact with the first roll (15) and the web (W) 10 is cut and started to rotate around the new second rolling roll (20). (21) to the exchange station, the angle (e) of the winding rails (10) is made such that the second winding rails (11), which are fixed, form an extension to the winding rails (10) so that the full roll (21) can move over the splice point. 8 90522
FI914790A 1990-10-26 1991-10-11 Wheelchair procedure FI90522C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
FI914790A FI90522C (en) 1990-10-26 1991-10-11 Wheelchair procedure

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
FI905283 1990-10-26
FI905283A FI89701C (en) 1990-10-26 1990-10-26 Wheelchair and procedure for adjusting the press of a wheelchair
FI914790A FI90522C (en) 1990-10-26 1991-10-11 Wheelchair procedure
FI914790 1991-10-11

Publications (4)

Publication Number Publication Date
FI914790A0 FI914790A0 (en) 1991-10-11
FI914790A FI914790A (en) 1992-04-27
FI90522B FI90522B (en) 1993-11-15
FI90522C true FI90522C (en) 1994-02-25

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FI914790A FI90522C (en) 1990-10-26 1991-10-11 Wheelchair procedure

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FI914790A (en) 1992-04-27
FI90522B (en) 1993-11-15
FI914790A0 (en) 1991-10-11

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