WO1989011347A1 - Device for cyclic deformation of continuous strip - Google Patents

Abstract

A device for cyclic deformation of a continuous strip comprises a stand (1) in which are mounted punches (2, 3) each connected to a punch-moving mechanism (4, 5) and each provided with two eccentric shafts. Each punch-moving mechanism (4, 5) has a support (7, 8) mounted directly on the two corresponding eccentric shafts made with equal eccentricity and brought into synchronized rotation.

Description

1

USΤΡΟΗSΤΒΟ LΜ CYΚLΪ SΚΟP D2Φ0I1ΑΙSCHI

ΗΕΠΡΗΡYSHΟG: PΟΙΟSY

Field of technology

The invention is based on the processing of metal under pressure, and κnκροtnο κ device for cyclic deformation of a continuous field.

Previous state of the art ^; Known κοοοοοοοοchngy οοοοοοοοοοοοοοοοοοοΛιΚκικιος (Ferrous metals, translated from German. vοdstvο zagοτοοκ, prutκa and prοvοlοκi", p.3-4), containing the cage, in κοτοροy ρspοlο-: sections of the strikers, connected each with a mechanism for moving the striker, which are installed symmetrically sitelno-geometricheskoi οsi κκο, along the κοτοροπ a non-discontinuous "path ^" moves. .

The intermittent cycle is destroyed by battles with the working period and the cycle of destruction with the cycle of four stages, initial οbzhatie, full οbzhatκe, κka-0 liberation and χοlοstοπ χοd. Βοοκιικaggravating inο the time of οbzhatiya nepreryvnοπ οlοsa gορπzοntaynye forces οbespechivaget its relocation without special meχanismοz. The well-known κοο- οο-κο-κοοchny aggregat ^is used primarily for the purpose of obtaining κοοѕtχ withορτοvyχ προφiley. The only known unit is the following: shοst π gροmοzdκοst κοnstroruktsshι, which is its metallοеιzhοst. Otherwise, the high dynamics of the process causes increased loads on the units of the unit and intense wear of the breakers.

Since in the well-known unit the eccentric shaft of the mechanism for moving the striker is connected to the connecting rod, such a connection does not provide a high κοnstrorukκtspζ, which reduces the accuracy of the resulting prοφiles. Κροι.te τοgο, κκο οροχοχοχοχοφκτοg: n reduces the quality οrοφile::, ο- received from the continuous field.

Β connections with this l ιgonζleneκpe of this unit taκτ.e - 2 - increases the energy consumption, before deφορmatsζey κеοb- χοdima continuous cleaning of non-permanent cuttings from alloyed steel. Discovery of an invention

According to the invention, the task is to create γst-ροystvο for the cyclical and deφορmation of a continuous field, the κοοοοκκκκκκκκκκοοοοοοοοοοοοοο b οyκο in κοτοροgο ο would provide οbrabοτκ for non-permanent ποlοsy with ο degree 0 deφορ mation for οdin pροχοd 60-80 of τρz-τshοdeφορmi χ and malicious steels.

The problem posed is solved by the fact that in the device for cyclic deformation of continuous space, containing the cage, in the κs, connected by κ*χ- 5 dy with the mechanism of relocation of the striker, installed by κaa- DYΪ: symmetrically οτοsitelno geometrical οsi κleti, vdοl κοτοροy is moving irregular alignment, and the necking escent τριshοvyn shaft, according to the invention, each mechanism for moving the firing pin needles into the stator shaft, installed parallel to the first escentor and κοοο shaft and suppορτ, directly installed: κ / κ dyn on the s pschχ blue rotation .

It is also expedient to ensure that, in the installation of an escen τριshο - 5th shafts were made with the same escen tριsitetomοm. It is expedient in such a way that in the installation of a οτοnοsheshιe κκοοοοιιικοοοοοοοοοοοοοοοοοοοοοοgο κ the eccentricity of the eccentric shafts in another mechanism of the movement of the striker was expressed by the dependence

30 sympathy

/I - the distance between the fighters ya output is continuous:. ποlοsy; e - dlshιa bοpκa, κa κοτοροy οexistingτ is deφορ: lacι*gya uninterrupted οοροsy;

35 σС - angle κεκлοнв the section of the bοnκ κ geometricκο::: οс:ι ϊντеτπ, along κοτορс:ι peremeιζ? ka.- ποlοsa. ο ο -

Execution of the device for the ιprοκκο? dephi ορwe due to the presence of high sshιmaκing pressures on the κοntaκτοy οοχοοsti, χοροshey προροτκi and tsentralnoοGg zοnοlοsy and οοreceipt of fines οzernκsτο:. structure and due to the rigidity of the mechanism in the next battles. Brief description of the drawings 0 In the following, the invention is explained by the example of its implementation with reference to ^{the '} attached drawings', on κοτ. ορыχ: fig.Ι depicts devices for sch*∑κ.lι-ιchesκοG: deφορ- matsιπ: κеprρеρывнοπ ποlοsy, οbschκιϊ view , according to pzοbre-5 teshge; fig.2 - το the same, view πο arrow Α φπg.Ι, according to the invention; φng.Z depicts the battles in the κρаГιnem sedennym ποlοzhenιsh in the προcess deφορmatsκp uninterrupted πο.losy, according to the invention.

The best invention of the invention of ^Zg construction for tssh.lpcheskκο:!. deωορmatsιπι inexorablyοκ ποlοsi keep cell I (φng.,2), in κοτορο ^* : ρaspοlο- -epy verti and lower:. strikers 2 and 3, but only each with a mechanism of 4 κ 5 interchangeable. bοyκοz withοοτveshyu, κοτορye are established z κletn I symmeτριιchκο οτκοsitelκο geometricalκοgϊ οsi 6 κletp I, vdοl κοτο ροth moves a continuous ποροsa. Μχaιshzmy 4 and 5 displacement bοκ-ΚΟB contains suppορτοο 7 and 8 respectively. Szπιπορτ 7 are installed directly on the double escalator and output shafts 9 and 10, and szshpορτ 3 are installed directly on the oscillator and output shaft χ II and 12. Eccentric halls 9,10, II and 12 are installed: in extension 13, placed in special slots in cell I and executed with different ekscensity, το there is an ekssenτροοgl eksentρiκο- va.οv 9 and 10 κ eksentρiskteτο: .. eksentρiκοvy ^χ yаlοv II and 12, are different and πχ οτκο solution - 4 -

/b - distance between the bοιϊκami 2.3 Chφig.Z) at the output of a continuous line; £ - the length of the striker; ο - the angle of inclination of the section of the striker κ geometrical line 6 of cell I, along the κοτοροy the continuous line 23 moves (φig.Z). Synchronous rotation of the essentor and output shafts in 9,10,11, Yu 12 (fig.1.2) exists for any known prοda 14, which has gear wheels 15 and 16, for mounted on eccentric shafts 9 and 10 respectively, and ^zz crankshafts 17 and 18, fixed on the emergency shafts II and 12 respectively. 15 Βρχншϊ and lower strikers 2 and 3 are fastened to suppορτam 7 and 8 by means of connections like "lastoch-kin χοst" and φ ιshsiρuyutsya kaadts-th ροvοchnιmι-ι κwedge mechanisms having κροyptein 19 (fig.2) and wedge 20 for еρχnegο striker 2 and κροnsteins 21 κ wedges 22 for nιg-κ- 20 neg ο οοκκ 3. κροοsа 23 is chosen on fig.Z. The device for cyclic deωορmatspi and non-permanent plane works as follows.

Privοd transmits synχροοnοe rotation through gear wheels 15.16 (fig.1.2) to escalating shafts 9 and 10 sup- 25 πορta 7 of mechanism 4 of movement of movement striker 2 and through gear wheels 17.18 to eccentric shafts II and 12 support 8 of the mechanism 5 movement of the niche 3. During the rotation of the escalator and output shafts in 9,10,11 and 12 the torsion point 30 of the lower striker 3 adds an angular motion with ρradiusοι-l, equal to the escen τρpsitetu of the escenτρiκοχ shaft 9,10 ,11 and 12. Which κkemata dvιshennya "bοπκοz 2 π 3 οessences the cycle of l_g_:esκτ_e deφορgαation and eryz- - 5 - κοG: ποsy 23 (φig.Z) along the geometric κοπ οsi 6 κοτπ I. The process of deφορmatsιsh for one cycle is as follows. The main band enters network I

5 (Fig. 2) in the ιlοment, when the strikers 2 and 3 are in κρρ::- it is divorced κοzheκshι. Then, approaching, bοϊgκπ 2 and 3 destroy the continuous ποlοsu, οdnοtimeκο προ moving it along the geometrical κοsi 6 in cell I, with the deφορmation Pοlοs οexists at the angle οvοροta κκοgο eks-

10 zeiτρiκοvοgο of the shaft 9,10,11 and 12, equal to - . The total degree of deformation of the non-permanent region is determined by the angle οС (s.ig.3) οsi 6 π length: bοyka £, on κοτοροG:

15 τа προφilya οπρоdelyaetsya ρdisstance /ι between bοπκаιш 2 and 3 in and χ κρаnem ποlοzhenshι at the exit of neprοvnοG ποlοsy 23.

In this way, in an extremely flattened version of the version_ κ of the bottom of the bullets 2 and 3, the size of the caliber,

20 in χοde ρrazmzρ κepροφοG: ποls, and on the Εyχοde given ρrazιleρ προφil.

ΤκοG. cyclic G- χrakκteρ deφορmatsιsι ποzοlyaet prο and compare small single οbzhatiyaχ for οone cpκl on οροτäzheκπκ dlsh-πι £ ^' better with uymaρκue desο" ^η - .. ιlatsιιe nonprρeryvnο:: ποlοsy dο С0.b for οdin προχοd κ ? οdnοG κleti.

Τκpm οbrazοιl, installation of suppορta 7 is uncommon - nο on two κκοχκου Εalaχ 9 and 10, executed with a single κκοvym κκρis iteτο'ϊ and having a synχροnοe vpash-

30 npe with another and with escent_.l shafts II π child on s^τshορte G, prichsm eksenτρ- teta οbeiχ πρ eksenτρπκοvy valοΕ ρ are equal, estgο πο _у_ае:,:::χ prοg.ptte "s? with ^ττ еτ κатнчκ--: stip? -*-

Zδ _ικχ naprρg ^g ::esh_ pa κοnτκτns:: πzveυχκοсτπ, ιгρκ κοτορыχ ποzeρχποssnpe deόzeκτ:: ::е ρаκρываυτя, а ρаκοвпκк: :: πορы? prpκοκ a.τnοm layer zageυpva'etst; z οcheτ χουο " ^,p " πρου? - 5οτ:g: κρуπngτ: нspρеυыггοlπτ:.:: sagοsοgοκ :: nstuche - 6 - κοοορκκκοο of the structure; due to the high stability of the non-transferable G∑ ποlοsy in the process of deφορmation π of the highest severity of the mechanism of movement of battles. Κροme τοgο, the energy of the teχnοlοgiches-κοgο prοcess decreases, due to the possibility of deφορmation Particularly from alloy steel without preliminary rough cleaning, using the heat of cast metal. Otherwise, the productivity of the device increases and its metal capacity decreases due to the decrease in the dimensions of the device.

The appropriation of the assumption of the tedge of the tedge is not byρmation of the non-herb πfficials with the ρAznaya ex expert evidence of the Efficients 9.10 and the exeshells of the Valuv 10,11, the dependent is the dependent. ё ^η ο - π -stringing the power of the degreeρmation of the non -herb πffici, π -axle on the degree, the participation of the participation in battles 2 and 3, regions are formed with directional friction forces. This also reduces the wear and tear of the breakers and increases the efficiency of the entire device.

Industrial use The invention can be used for the production of long-range industrial products yχ steels and alloys and from continuous casting in black, non-ferrous metallurgy for use and in machines.

Claims

8 FROMΜΕΗΕΗΗΑI ΦΟΡΜULΑ FROMΟБΡΕΤΕΗ (received by the International Bureau on 16 November 1989 (10/16/89)) SHSHSHYA ΦΟΒLULΑ IZΟBΡΞΤΕΗSh πο interlunar application ΡСΤ/зυ 88/00117 Device for the cycle of esκοy deφορmation non-πρеρывοй ποl οsy, containing the cage (I), in κοτοροy ροspοzheny bοy- κi (2,3), connected by each (4.5) movement of the striker, established by each sishetri- cally geometrical axis (6) of the cage (I) discontinuous line (14) , and at the same time, each mechanism (4.5) for moving the striker has two eccentric shafts (9.10 and 11.12), established in parallel to the other, and suppορτ (7.8) directly established each on the basis of the two scenes τρκοοvy shaftχ (9.10) and (11.12) , blue rotation, ο τ- and a bite, τegl, the ’iodration of the ethics of the ethics of the Economic Valva (9,10) π π, the following (11.12) another mechanism (5) movement of the striker is expressed hovering

Α - distance between the bοοοκκаn at the output of the continuous οοοsy (14) ; £ - the length of the striker (2.3) σ - angle of inclination of the deφοροοο of the deφοροοοκκ of the κοοροοοοκ of the κοοοκοκκκκκκκοοοκοκοοοοοοοοοκοοοοοοοοοοκοοοδ οοοοοτοτδδ οκοιοοοτοο ουοѕmеѕѕѕнігот)івнія πο losa.