PL8599B1

PL8599B1 - A heating device for the processing of flammable substances.

Info

Publication number: PL8599B1
Application number: PL8599A
Authority: PL
Filing date: 1926-12-07
Publication date: 1928-04-30

Description

Przedmiotem niniejszego wynalazku jest urzadzenie opalowe z grzejnikiem sklada¬ jacym sie co najmniej z dwóch metalowych bloków, w których sa wydrazone kanaly, polaczone z isioba zapomoca rur i napelnia¬ ne raz na zawsze odpowiednim srodkiem, przyczem jeden z tych metalowych bloków jest zewszad iziolowany i ogrzewany zapo¬ moca odpowiedniego zródla ciepla, podczas gdy drugi blok jest izolowany tylko cze¬ sciowo, tak ze jego powierzchnie izolowane moga oddawac cieplo, które do bloku tego doplywa i w nim sie gromadzi.Wymieniane urzadzenie nadaje sieszczególnie dla przemyslu chemicznego i moze byc tak wykonane, ze blok odbiera¬ jacy, cieplo znajduje sie w iznaoznej odle¬ glosci od bloku oddajacego cieplo, tylko przew63 laczacy kanaly obu bloków musi byc dobrze zabezpieczony przed utrata cier¬ pla.Przenoszenie ciepla odbywa sie przy za- sfosowainiu .nastepujacych zjawisk.Stwierdzono, ze ciecz o pewnym okre¬ slonym charakterze chemicznym posiada najwieksza zdolnosc prtzewodlzemia ciepla przy okreslonem cisnieniu i temperaturze.Ciecze takie przewodza cieplo inajlepiej w granicach pomiedzy temperatura wrzenia i temperatura krytyczna, gdy srodek pnze- noslzacy cieplo znajduje sie w stanie nasy¬ conej pary, np. wodla przewodzi najlepiej cieplo gdy jest ogrzana do temperatury od + 100° do + 360°; amonjak w grani¬ cach ,od — 33* do + 130°; alkohol od + 809 do + 240° i t. d.Cieplo przenosi s&a w nastepujacy spo¬ sób.Odpowiednio dobrany srodek przenolsiza- cy cieplo odprowadza sie raz na zawsze w zamkniety uklad kanalów w takiej ilosci, zeby przy okreslonych temperaturach prze¬ chodzil w isitan pary nasyconej ogrzanej ido takiej temperatury, przy której zdolnosc przewodzenia ciepla jest najkorzystniejsza, tak ze w ukladnie kanalów panuje wsze^ dzie jedtaakowa temperatura. Jezeli np. potrzebna jest temperatura 100 — 240°C (jak np. przy destylacji olejów mineral¬ nych), to napelnia sie kanaly alkoholem, woda lub takiemi medjami, które w okre¬ slonych granicach temperatur maja wla¬ snosci wyzej wymienione.Doswiadczenia wykazaly, ze cieplo przenosi tsie w tych warunkach bardzo szybko, bo termometry umniesziczone w roz¬ maitych miejscach bloku odbierajacego i bloku oddajacego cieplo wykazuja w kaz¬ dej chwili te same temperatury.Na rysunku przedstawiono przyklad wykonania przedmiotu wynalazku.Fig. 1 przedstawila urzadzenie w prze¬ kroju; fig, 2— w rzucie poziomym; fig. 3— w przekroju Wzdluz linji /// — /// na fig. 1; fig. 4 i 5 przedstawiaja w rzucie piono¬ wym i poziomym urzadzenie do regulowa¬ nia ilosci oddawanego ciepla, a fig. 6 przed¬ stawia w rzdicie pionowym inne wykonanie regulatora.Na fig. 1, 2 fil 3 oznaczono przez 41 urza¬ dzenia, odbierajace cieplo, przez 42 urza¬ dzenia oddajace cieplo, przez 43 izolowane przewjody laczace urzadzenia 41 i 42.Uklad kanalów 44 zawierajacy srodek prze¬ noszacy cieplo znajduje sie w urzadzeniu odbieraj aceni cieplo wewnatrz metalowego bloku 4% który ma przekrój k&ztailtu litery U i jest podzielony scianka 45' na dwie prze¬ strzenie, polaczdne z soba na czolowej scia¬ nie bloku. Zewnetrzna powierzchnia bloku 45 jest oslonieta izolacyjna Warstwa 47 nz kamienia korkowego i warstwa 48 np. z termolitu. Powierzchnie 52 i 53 odbierajace cieplo sa wolne od izolacji i tworza skle¬ pienie oraz boczne sciany kanalów dymo¬ wych 49 paleniska posiadajacego ruszt 46, drzwiczki 51 i kanal kominowy 50. Gazy spalinowe przeplywaja droga naznaczona strzalkami na fig. 3. Blok 45 mozna podzie¬ lic sciankami na wiecej czesci, które odpo¬ wiednio polaczone z soba zmuszaja gazy dymowe do kilkakrotnego przeplywania wzdluz wewnetrznej powierzchni bloku za¬ nim sie dostana do kanalu kominowego 50.W urzadzeniu oddaj acem cieplo uklad kanalów 45 napelnionych srodkiem prze- nosizacym cieplo znajduje sie w bloku 56, który jest równiez izolowany zapomoca w&rstw ochronnych l57 (np. iz kamienila kor¬ kowego) i 58 (np. z termolitu). Odslonieta jest tyflko powierzchnia 54 oddajaca cieplo.Na tej powierzchni ustawia sie przedmiibty, które maja (byc ogrzane.Cieplo wytwarzane w palenisku po- - 2 —chlaniaja powierzchnie 52, 53 bloku 45.Medjum zawarte w kanalach 44 bloku 45 przenosi cieplo na icaly blok i przez rure 43 dó ukladu kanalów 55 bloku 56 „urlzladzenia 42 oddajacego cieplo, W wykonaniu podlug fig, 4 i 5 izolowa¬ ny blok 60 spoczywa na stalej podstawie 61, a na boku jest ustawiony ogrzewany przedmiot, np. banoia destylacyjna [62. Aby regulowac ilosc ciepla oddawanego przez blok 60 bani 62 pozna te lostatnia podnolsic lub opuszczac, W tym celu destylator 62 jest osadzony w "pierscieniu, który posiada na obwodzie lapy 64 zaopatrzone w gwin¬ towane otwory. W otwory te wchodza wrze¬ ciona 66 z gwintem 68, osadzone obrotowo w lozyskach 67. Na wrzecionach 66 sa za¬ klinowane ikólka lancuchowe 70, sprzezone z soba zapomoca lancucha 71 w ten spo- s6b, ze obracaja sie jednoczesnie wszystkie razem, Wr^eciana obraca sie kólkiem recz¬ nem 75 za posrednictwem kól zebatych 76.Zaleznie od kierunku obrotu recznego kól¬ ka 75 wrzeciona podnosza lub opuszczaja pierscien 63 £ destylatarem 62.Zamiast zmieniac polozenie destylato- ra mozna tez zmieniac polozenie bloku 60, zapamoca urzadzenia przedstawionego na fig. 6. Izolowany blok) 60 spoczywa na plat¬ formie 80. Destylator 62 jest osadzony w pierscieniu 63, który jest zawieszony na slupach 81. Platforma 80 jest umocowana na srubowem wrzecionie 85, którego czop 86 jest osadzony obrotowo w lozysku 87 znajdujacem sie na dolnej (powierzchni platformy. Nakretka dla wrzeciona 85 znaj¬ duje sie w stojaku 90, Z wrzecionem 85 jest polaczona dzwignia 92 zapomoca sworznia 91. Gdy sie obraca dzwignie 92, to wrzecio¬ no 85 wkireca sie w stojak 90, wskutek cze¬ go platforma 80 opada, a blok 60 oddala' sie od destylatora.Urzadzenie to nadaje sie dobrze w ta¬ kich wypadkach, w których palenisko i przyrzady odbierajace cieplo nie moga sie znajdowac w tern samem miejscu.Poniewaz cieplo utrzymuje sae w izolo¬ wanych blokach bardzo dlugo, wiec urza¬ dzenie takie moze sluzyc do ogrzewania nawet po wygaszeniu ogniska; Urtzadzeniie do regulowania ilosci odbieranego ciepla uniezaleznia przebieg ogrzewania od tem¬ peratury samego bloku.Dla ulatwienia przeplywu ciepla po¬ wierzchnia 54 bloku jest szlifowana lub powleczona latwo topliwym metalem, któ¬ rego odplyw uniemozliwila sie zapamoca wystajacych obrzezy.Z jednem urzadzeniem odbieraj acem cieplo mozna tez polaczyc (zapomoca izo¬ lowanych rur) kilka urzadzen oddajacych cieplo. PL PLThe subject of the present invention is an opal device with a heater consisting of at least two metal blocks, in which the channels are exposed, connected to the human body by pipes and filled once and for all with a suitable medium, whereby one of these metal blocks is radiated and iridescent on all sides. heated by a suitable source of heat, while the second block is only partially insulated, so that its insulated surfaces can give off the heat that flows into and accumulates in this block. The device to be replaced is especially suitable for the chemical industry and can be made so Since the heat receiving block is at a different distance from the heat transferring block, only the connecting channels of both blocks must be well protected against loss of friction. The heat transfer takes place when the following phenomena occur. that a liquid of a certain chemical nature has the greatest ability to transfer heat to with the specified pressure and temperature. Such liquids conduct heat best in the range between the boiling point and the critical temperature when the heat-blowing agent is in the state of saturated vapor, e.g. water conducts heat best when it is heated to a temperature of + 100 ° C up to + 360 °; ammonia within limits of - 33 ° to + 130 °; alcohol from + 809 to + 240 ° and tdThe heat transfers it in the following way: A properly selected heat transfer agent is discharged once and for all into a closed system of channels in such an amount that at certain temperatures it turns into a saturated steam generator heated to the temperature at which the ability to conduct heat is most advantageous, so that the duct system is always at an equal temperature. If, for example, a temperature of 100-240 ° C is required (as, for example, in the distillation of mineral oils), the channels are filled with alcohol, water or such media which, within certain temperature limits, have the properties mentioned above. that the heat transfers tsie very quickly under these conditions, because the thermometers reduced in different places of the receiving block and the heat returning block show the same temperatures at all times. An example of an embodiment of the invention is shown in the drawing. 1 shows the device in section; fig. 2 - in plan view; Fig. 3 - in section Along the /// - /// line in Fig. 1; Figures 4 and 5 show a device for regulating the heat output in plan and plan views, and Figure 6 shows a different embodiment of the controller in a vertical view. In Figure 1, 2 and 3 are indicated by 41 devices. , receiving heat, through 42 devices that emit heat, through 43 insulated conductors connecting devices 41 and 42. A channel system 44 containing a heat transfer medium is located in the device receiving heat inside a metal block of 4% which has a U-shape cross-section and the wall 45 'is divided into two spaces, connected to each other on the front face of the block. The outer surface of block 45 is sheathed by an insulating layer 47 n of cork stone and a layer 48 of e.g. thermolite. The heat receiving surfaces 52 and 53 are free of insulation and form fusing and the side walls of the smoke channels 49 of a furnace having a grate 46, a door 51 and a chimney channel 50. The exhaust gases pass through the path marked by the arrows in Figure 3. Block 45 can be divided. The face has walls with more parts, which properly connected with each other force the smoke gases to flow several times along the inner surface of the block before reaching the chimney channel 50. In the device that transmits heat, the system of channels 45 filled with a heat transfer medium is located in block 56, which is also insulated with protective layers I57 (eg, cork stone) and 58 (eg, thermolite). Only the surface 54 reflecting the heat is exposed. On this surface the blanks are placed, which are to be heated. The heat generated in the furnace absorbs the surfaces 52, 53 of block 45. The medium contained in channels 44 of block 45 transfers heat to the solid block and through the pipe 43 downstream of the channel system 55 of the heat radiating device 42 block 56. In the embodiment of FIGS. 4 and 5, the insulated block 60 rests on a solid base 61, and a heated object, such as a distillation bulb [62. In order to regulate the amount of heat given off by the block 60 of the tube 62, it is known or lowered. For this purpose, the distiller 62 is mounted in a "ring, which has lugs 64 provided with threaded holes on its periphery. The holes 66 are received in these holes. thread 68, rotatably mounted in the bearings 67. The spindles 66 are wedged and chain wheels 70 connected to each other by a chain 71 in such a way that they rotate all together simultaneously, the spindles turn the wheel by hand 75 through the gear wheels 76. Depending on the direction of rotation of the hand wheel 75, the spindles raise or lower the ring 63 £ using a distillator 62. Instead of changing the position of the distiller, it is also possible to change the position of block 60, using the device shown in Fig. 6 The insulated block 60 rests on the platform 80. The distiller 62 is seated in a ring 63 which is suspended from the posts 81. The platform 80 is mounted on a screw spindle 85, the pin 86 of which is rotatably mounted on a bearing 87 on the lower ( platform surface. The nut for the spindle 85 is placed in the stand 90, and the lever 92 is connected to the spindle 85 by means of a pin 91. As the levers 92 rotate, the spindle 85 rotates into the stand 90, causing the platform 80 to descend and the block 60 moves away from the distiller. This device is well suited to those cases where the firebox and the heat-collecting devices cannot be placed in the same place because the heat is kept in the insulated blocks for a very long time, so the device such can be used for heating even after the fire is extinguished; The device for regulating the amount of heat received makes the course of heating independent of the temperature of the block itself. To facilitate the heat transfer, the surface 54 of the block is sanded or covered with an easily melting metal, the outflow of which was prevented from smearing the protruding rims. also connect (by means of insulated pipes) several heat dissipation devices. PL PL

Claims

1. Patent claims. 1. A heating device used for the processing of flammable substances, characterized by the fact that it consists of at least two metal blocks (41, 42J provided with internal channels (55) which are permanently connected to each other by a pipe (43) and are filled once and for all with a suitable heat transfer medium by one of the blocks (41J is on the whole insulated and heated by a heat source (46), while the other block (42) is only partially insulated through uninsulated surfaces ( 54) can give back the heat supplied to him to objects that need to be heated. 2. Device according to iastrz, 1, the significant point that the metal block of the heat-collecting device is made in the form of a vault (52) of the furnace, which it burns Any fuel according to claim 2, characterized by the fact that the metal iblock (45) has a U-shaped section and forms the vault (52) and the side walls (53) of the smoke channels (49) of the furnace. Device wed lug claim. 2 and 3, characterized by the fact that the empty space of the U-shaped block - 3 - (45) is divided by means of one or more walls (45 ') into chambers (49) lying next to the sleeve and connected to isoba alternates on the front face of the block. 5. Device according to fcastnzr. 1, the significant temperatures of the surfaces (54) of the metal blocks (56) which emit the heat are ground. 6. A device according to claim 1, characterized by the fact that the surfaces (54) of the blocks (56), which emit heat, are covered with a layer of easily melted metal. 7. Device according to claim 1, it is significant that the heat transfer devices (42) are provided with devices for regulating the amount of heat output. 8. Device according to claim 7, from the dark area, that the amount of heat emitted is regulated by a device that changes the relative position of the heating surface (54) of the block and the surfaces of the heated object (62). 9. Device according to claim 7 and 8f, characterized by the fact that a device for raising and lowering the heated object (62) is used to regulate the amount of heat released, while the block (60) itself is stationary. 10. Device according to claim 7 and 8, characterized by the fact that a device for raising and lowering the block (60) is used to regulate the amount of heat emitted, while the heated object (62) does not change its position. Theodor Popescu, Alexander Pais. Constantin Pai s Deputy: Dr. imz. M. Kryzan, patent attorney. To the patent description No. 8599. Sheet I. H9 W ht ^ JSf Fig. 2 '71 I iiiuijiiiiii -? 5 nrrr liii :! TrrTmr 11 'M ii 11 ii ! ii, 111111 ¦ ^ mama mi '1' l Ii I II li. I 59 5? + * 3 \ 1 ^ *? P-0-0-0-U-0-0-0-9LU I !! ' ! i '•!' !! <11 11 lii iii! I. ^ v '\ _' v '\ -' '"V' V —1 and i3TOo patent opinion No. 8599. Ark.

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