DE2335130A1 - SELF-CLEANING VALVE FOR A COOLANT AND COOLING DEVICE WITH A SELF-CLEANING VALVE - Google Patents

Description

Patent Attorneys Dipi.-I ^ g. F. Wfickmantt,

Dipl.-Ing. H. Weickmann, D1PL.-PHYS. Dr. K. Fincke Dipl.-Ing. F. A. Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, DEN

PO Box 860 820

MÖHLSTRASSE 22, CALL NUMBER 98 39 21/22

IKIEGiIAL KiOCEöö OYSSEKS, HiC. 70 Kcrth Street, Park iorest, Illinois, V.St.A.

Self-cleaning valve for a coolant and cooling device xuit. a self-cleaning valve

Kin typical refrigerant for cooling or Gefriersyetem is liquid carbon dioxide, which is present only briefly as £ lüssigkeit when the pressure is reduced and consists mainly of a mixture of solid and gas. Valves that are used to control the flow of refrigerant in a cooling or freezing system are cleverly blocked by the solid refrigerant that settles inside the valve.

The object of the invention is to provide a self-cleaning valve and a refrigerator or freezer with such a self-gini & ends To create a valve in which this blockage is prevented

US-PS 2,759,336 already eats a valve for controlling the Flow of liquid carbon monoxide known by a Self-cleaning effect over a large surface area between a movable part and a fixed part ernb'clicht · Opposite this well-known execution form is the Invention essentially by the design according to the appended claims and uses in contrast to the known embodiment a scraping action by arrangement

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a üchabteiles to one of the valve parts, wormis a results in a more reliable and quicker effect.

further advantages, details and features of the invention; result from the tests and the following description in connection with the drawing

üie invention is shown in the drawing, for example. Ks shows:

1 shows a horizontal section through an insulated freezing tunnel of a refrigeration system;

lig. 2 shows a longitudinal section through a valve according to the invention;

lit ;. 3 an ehematic illustration diagram for the supply of liquid carbon dioxide su three valves connected in parallel according to iigur 2; and

Jt ig. 4 is an enlarged partial section from iig. 2.

Iiie refrigeration system 10 according to Jfic 1, which is designed for flüceigee carbon dioxide or a similar refrigerant that is used in essentially at reduced pressure as a body or in lorn a gas is present, comprises a tunnel 11 with insulated walls 12. The tunnel has an inlet 13 and an outlet 14, by which objects, which are designated by 15, during the cooling, as is the case, for example, when freezing food. The promotion will taken over by an endless belt conveyor 16, which is continuously in sight of the arrow 17 from input 13 to output 14 is moved, wherein the objects 15 freeze.

The gaseous · refrigerant produced by evaporation of the liquid Refrigerant and by sublimation of the solid refrigerant, is ucgewälet over the objects by a fan 18,

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which is driven via a Uel Ie 19, the circulated carbon dioxide gas being sucked from below the rear end 20 of a Uawrilzleitvorriehtung 21 through a channel section 22 according to the arrows 23 into the inlet opening 24 of the fan 18.

Ao output 25 of the fan 18 are parallel guide plates 26, 27 and 28 are provided, which act as a guide device and are arranged at a distance from one another ciiid. where the inner i & the 29 are spaced apart over a variety of flow paths 30, in the illustrated case three, see below, which extend essentially over the entire width of the tunnel 11, around the Distribute refrigerant over the full width, see below.

In order to bring fresh refrigerant into the system 10, the inner ends of the cooling paths 30 between the baffles 29 in the vicinity of the fan 18 are provided with a large number of refrigerant valves 31, as can be seen from Hg. which faces the fan 18 is provided with its own valve 31. It is also possible to provide a single valve 31 with a distribution funnel which distributes the flow over the entire tunnel cross-section 11.

this arrangement, the refrigerant, which is flowable, includes vaporizable 1solid parts and gaseous parts, if the refrigerant is carbon dioxide or a similar refrigerant, introduced into the tunnel or chamber 11 at an intermediate section between the inlet 13 and the outlet 14. Because of the Arrangement of the valves 31, the refrigerant is initially introduced transversely into the chamber 11 and then deflected by 90 ° by the guide device 26-28, so that at the outlets of the ßtrSaungsbahnen 30 the refrigerant is opposite to the direction of movement 17 of the Objects 15 flows, as is indicated by the directional arrows 32. In this way, the valve developed with

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speaking of the I> create in üg. 1 equipped system has a distribution effect, by means of which the refrigerant is distributed in the movement paths 30 over the aforementioned section of the tunnel 11 and above the inickführleitbleches 21.

The inflows of the cooling medium from the three valves 31 in the illustrated misdirection are shown schematically in FIG. 3. The liquid carbon dioxide is passed through a supply valve 3 and a line 33 to the three parallel arranged valves J-1. The flow through these three valves 51 causes a sudden drop in pressure in the liquid carbon dioxide, so ash daa escaping refrigerant, which is indicated by the arrows 5 ^, is in the form of a mixture of solid carbon dioxide and gaseous carbon dioxide, which is produced both by the evaporation of liquid and solid carbon dioxide Line located outside of Äam-11.

The -i.ufbaudDE Ventilee t '^ is shown in Figs. 2 and 4. Corresponding In this position, the valve comprises a valve body 25 ', in which a valve part 36 movable in the longitudinal direction is included, which has a valve closing surface on its front drawer 37 ^ X'oxin of a stump of a nail whose The tapered tnde is connected to the valve stem 30 and its extended land in dex · * near the outlet ec 39 of the valve body 35 is located.

The closing surface 37 is surrounded by an annular valve seat 40 which has a sealing surface 41 which acts with the closing surface 37 when the valve part 36 is in the closed position, as shown in FIG. One of the laughs 37 and 41 is provided with a scraper part which cooperates with the other surface, so that when the movable part 36 is moved during the opening and closing of the

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Valve solid coolant deposited within the valve is scraped off the aperen flat by the stem portion. In the embodiment shown, the scraper part is provided in the form of a ream edge 42 on the seat part 40, in order to interact with the closing part 57 of the movable part 56. The result is that when the valve part 56 is moved from the closed position shown in FIG. 2 into the opening position or to the right in FIG Coolant can be carried out, as indicated by arrow 45, which can flow into and through the valve.

Ler üchabteil on the seat part 40 extends “I us the entire movable partial valve surface 57ι since it has an annular * οηα has to capture the entire circumference of the surface 57 au.

Bas valve is in the in i'ig. 2 shown closed Position held by a coil spring 45, which decreased by the rear liide 46 of the valve stem 58 is arranged and with an I & de against a sleeve 44, inside which the The valve stem is held displaceably, and the other end supports it against a dividable iSitter 47.

Ler movable rope 56 of the valve is in the open or the right btelluiit *** Jig- 2 moves when liquid carbon dioxide, according to arrow 45, under a pressure in the valve can flow in, which is greater than the original line pressure of the valve. £ & s valve is on a starred Opening pressure adjusted by Linst osition of the flutter 47, whereby which each 45 is preloaded to a certain bias. which is transferred to the valve stem 56. Ide preload

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if ßO is selected that the valve is on a track above of the iTriple-Iunkteö of Xdhlendio.-.ad i.e. 5.2 ^ nt (75 M5Ir), or opens when pressed.

Carbon dioxide is stored in the liquid state under a pressure of 21.5 at (305 HiIG) and a temperature of -18 ° C (0 ° *) tmd remains in deir. flow ig-en Zuctand below a jerk-I in the range of 4.2 et (60 i'JIü) am 7% at 5 (1051 FM) md a temperature ir. vcn range -21 ° C to * 1 ° C (-69 , 9 °! To £? 87.8 ° F). Including flüseifefs carbon dioxide slf: to use a continuously monitored iluid, ie vz. the LtrÖ £ tin £ F £; to regulate eschvindi- ^r ness, cüscen the Ventilenr.rUstuEr and you ^ tciureinrichtuncen dec carbon dioxide inncrhcJ.b these limits «« rhrlten. The cit der / bscheröffnunt valve was developed in order to implement these guidelines.

Bas valve nit der jbscheroffmuif; is used in conjunction with init Pneumatically operated needle ball valve used in 3 ffiit 32 is designated. > <enn that needle valve the ü speed corresponding to ßi ^ -nalon changed that of a I / jMJmforEer and He ^ eleysteju transmitted: en. ciBstouei-t modulates that valve with the ibscheroffminc. . ^ enn dsr T ade 1 valve the ötroaungegeßch speed increased or nodrated, changed the pressure drop through that valve tind that valve m.t the iobooks open now; represents this I ^ ruck »chwan1n; nf * en foi> t and modulated.

Although the system is set to keep carbon dioxide within the limits of the fluid in the fluid. nevertheless form at low Gpnchwindi _f '^ koitm "ind beir ■ -; cv ron solid carbon dioxide, ^ n ra nuch; f * aioir.ion" ä.nZ leg contact of iLohlondioxids} from the I / ü.ne 48 ao.r sit dor? br rather opening provided valves ("3ercicL» siner hohon Cei keit and one gevingei- Iruckos, the -.- est.itoffteile

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der ... itzi * l: icfc.t '+1 backlash-n. l & b üät del · Shm vcr.'ieLenc valve. i: it deü. Xeaserrand scrapes the i ^ ebi

-. ;; tctofftöilc at uiid cleans itself, i; od through the valve cTf. η is held, and a free flow of air is made possible.

(iii. öaU of the liquid carbon dioxide by a>. in dm wi-atilköxper yj ι-. i »i» trö.at \ iad im rech-:; i irJi ^ l umdenkt, u :: ia ciuea i ^ iat ^ kaüal or one

Ie h'c nnch allen τα nlr "- t:>: · _t <li ^ z \; ± sc'h <Ai del ilricnc \? \ Md df v dragonfly ^ i ^ forms i: it · - .icrdirch 'in rcechei I-back-

■ 11 nui- uö £; i, n * r Zj dew V:.; Itili> enters, (? Xit ist ewrden: & .. Jßtr;: t "cx ^ den ivniil :: iit ^ - ³ , i _t άαζ in - i ^. " ^- it ~ -i: tind li · ^." r it ^Ί Α bL2cich ^r it-t ii.:tj tijic- Iliücku / ig i..un foLteu and ^ a ^ foiiu ^ cL. aioiilendioxid, whereby i ^ essentially a liquid iuiteil completely & n-

öcr beK ^^ Li-rj '<zil% in di ^ »Jchlit ^ .laee fcf- ^ iöJ 1 ie ;. 2 to-

uX't, ncit ^f * the featu carbon dioxide to / * lead $ emn £ i in the interior of the valve body "? 5 wnd partly xe <liiche us the valve: fl ^ CiIv: Jv. > ci t-iiiÄJt. Ordinary valve wüid * "this ft- £ · £ ■ ·; .MoLIf idioxid the inner x.by" orö "öi: inun £ d" Ä Veatiles block, so that.i Lei the subsequent opening of the valve ise ' ar wcnit, or no Xvühli-iitol throughXliei en

-Each dom self-cleaning valve according to the present irfin- & VLTI & is due to the arrangement of the Gchabflache, which is aifc ^ 2 be ~ soicliiiet, in the subsequent movement of the axis, the ocable line 3 "j in the number indicated by the irfcil 53. dor Hesserrand 42 the solid middle parts of the hache j7 fibachaboii. no da ^ the * eutfernteii o.eilchon the solid coolant bycL äo.u i-jusgaug 39 through the "XüliliBittel hiiieuB-getra (; en vu-rdou. v; elches n" in free du2'ch dfin valve body "flow can.

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In order for this scraped-off coolant in turn to block the fresh flow, the valve seat 40 of the valve is arranged in a ring around the surface 37 and extends in a seal opposite to the movement of the movable part and forms a ring-shaped ashes 5 * 1 for the oil parts between the conical üitzteil 40 and the adjacent areas of the / entilkörpers 55. ** hen then the btrosi of the liquid cooling agent e resumes that temporarily auTgenommene in the pocket 54 is fixed Külilmittel ait dec exiting üünlioittel ⁷ A eds; et protrude.

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Claims (1)

ir ateataa β ο r ü ch Self-cleaning valve for a liquid ühlüdttel, also. In foster iarsa reads out, characterized by a movable valve part (36) with a closing surface O7>, "inside rinirförinif; ea the seat part (40) with an opening surface (41;" which seals with the closing surface (57) acts outside, furthermore, rekennauichnet by a Bchabteil (42) sn one of these i? smiles (57, ^ 1), the sit the ssnderea surface cooperates; and ^ eksmiisichnet by aiae device for moving, the "movable? n part (36) relati "» ·% vm £> itzteil (40), which on opening agricultural closing the valve at the same time as "solid coolant through a <sn scrapping part (42) is scraped off -from the other surface. 2. Valve according to objection i, characterized in that the daii Scraping part has a Hesserrand (42) and dali a device (44) to the Hfilteruac of the movable part (56) for a is relatively sam iSitteil (40) is provided. ?. Valve according to 'Jisprach 1 or 2, dadurc'a gskennzeichnce that the beverbare rope (36) the FILR'. Open the valve hi bevei a direction b "r" d nd? ISS bitzteil dor (40) of the movable rintiförcig Rope (36) is arranged tmd in the ent extends. 4. Valve according to claim Z%, characterized in that the rdtzteil (40) extends over ^ 60 ° and has an iiesEerx * ßnd-toil (42) in the HPhB of the narrow riTi £ f? 5rj.iipen toilet, which has the movable Rope (^ 6) passed over the valve valve. 5 * valve according to iitapruch 1 or 2, thereby marked, & zdi a device (44) for mounting the movable part 4098U / 0329 -10- BATH ORIGINAL (5b / for a CfinunfaSbfcw * oin £ in * ii ... i, ichtv.r, £, vr ^^ r «'.... is and dai »dor -chabteil (^, idL dc :. L..„ vrbrcr. Γ, ίΐΐ ('· -; and üich in eüt ^ e ^ enc-aetzt: .r>, ic Lt-uv / i; ivtrcckt 6. Valve according to claim 5 "thereby ^ ekonnzoichact ,, de", di * .- üchlie & f lache ' _ν >7; of the movable iciloo (%, z'.in- ^ foi'raii :; ko niscli trained ict and last. the I.ibfciil (<&} ^ litrxfall ig iK »d kouxicJ. this i.asiy.bildit is -uul iiit dv-v iifc CJ? y in -> in ^ rifr> », MJit, vjnri that is Y? nfcil _; t outside. 7th valve mxca eiüc ^ i the vöx'2ieiv;'.; h.cxidori. .'τιερΓχ: ^. - '] -, υ: ΐ-zeicimet durc-i tinon Γοί ^ Γϊ'πιχ ^, οι-. /^ifcilkciv.:;r i, yj. _% ir. dc ^. the longitudinally movable -i'oil {> Cv zassmunsn ύ; its opening area (3?) anG-ordiiei; is irnd n ^ cj'nzoichn.et di? rch the arrangement of the iütteilec (^ 0) r ^ lt a sealing surface C-1) within the Voliitilkorpors (3> ^ - 8. Valve according to 'claim' / ■ "dadurca £ <ike: \ uz < * icLn" _t, d? Ii: the rc & r-shaped Vantilkürper ^ JS ^ ¹ -it einc-ii Λ-uBrittnmd ": C'9 Γί * Γ das Xühliaittol veraehtin ix: «and last. doi- ».ifcaücil v ' ^{/ f} 0> Ia d ^: * & ähe this end of the exit angeardaet is ma aicx-, lr.c'i inu.-m extends, uj eia ^ ringfönsioC oau-icltauche vi ^. f «i tl - t CiM, -stoff between the üitzteil (40 _y and do?:; Vcntilkörper \ Z> ^r jj z. * form. 9. Apparatus for jiQjLen or freezing of Gey ^ art jcit a «self-cleaning valve ntch cir.ea. der. · os ^ rC 1 to 8, connected by i.in ·: thürsiecii it-oil rtt Ir, -tier (11) sit a. * .ingai2g (14 ^ md a. ύε ^ ε;. ^ _V 1 ^,? - Through doors by ütfcCnstl ^ idc-n d-rcb. tli «;.» ü-.iaer, * ir. · .. i \ direction (18, 31, 2G, 27, 2ö _t 2j) i, i.,. introduce a? :: "1 ^ ■ means, dec verdiuipibare Tictt IuilcKui luid ^ acfSri-ij ..-." borrowed and cit den ae £; enstandsea an oiu A0981A / 0329 - 11 - BATH - It - d'r λλ :. ^{: γ} 'ι: JTVJrO ¹ U-Tj c? '. "iijpani ^ nd £ cr · .-..', nr5 ;; SIIG during dee 1: rch w ~ cn öicf-he Cf ;; - ^nrt: nd ': eiOmmr * kosast in / where the rinrielitim ;: nu ?: 'introducing the K ^ Mritteli- a Leitvcrrich » (26 bie ? 9) TiDf aasst _: which stretches across the reefUEte width of the g; riTic <rs for the iiegeruätande *> rstz "and a multitude of Vt.-η: -". Trf *>: - iJngKl>f> hii '- r ( ⁷ 0> door. ^ lcächaJ' ^ i ^ cn. V ^r ox * teileri den iiält <fiiifl- - "bi> r die- ive & rcgtt width *: i-.Tp.l; t and gektiiinsseichnet d rrcl dir. "iicrdntinp d & s KolLs-treirii.'ender« vcntiles C * i) Laui-rL ill; dc ν vtixin'rijrKbiibner = (TO.-. Ι ¹ ",. Ν err j cLt-.:nr u» -cl-. R ^ pi-.ic * -. 3, dadu'ch ^ feJcerinzeicJiavt. Dai! Dl- .iuricliiuii, - to ;: .-. 'inf ;; xii * ei d »r i.riti.-i-jittc?!;? c-ii * -flebl = Fe (18y r: iiiici; - f-it · nil» iritir "ui.tri'.tr.ricLt'.ir! ^ across the t'.iYic der · ütar.!. ier (I ' ¹ ) «xiTnft la ^ l da. ³ " a L ^ iteinric 2? ·? vor. -.- iner lateralf-n ^! iic! it: wi & ιτ- Lrnpsrichinin? · in relation to e-? f the ilaarncr born ir.t \ -nd dadurcb *? ino Yort-eil-anc the reddening ilnids "brρ the f.esartii Brcilr the aajSRer t; nd a ^ 'i.-jrichtuac dff "iluids in Lung3X ± ch1;> jn ^ the Kamaer is achieved u: id dci: - the same: treiiiigundcnVenu.ile iir, we & ejitlicliOii A098U / 0329 BAD ÖRlatNÄL Blank page