DE94857C - - Google Patents

Description

IMPERIAL

PATENTAMTV ^

CLASS 26: Gas - Preparation and Bel:

In order to regulate the evolution of acetylene, it is common practice to control the supply of water to change to carbide. The apparatus in which it was previously attempted to prevent the supply of To regulate carbide to water are very imperfect (see e.g. American patent specification No. 541526). Here the carbide is located in a funnel, which by means of a a tap lockable nozzle in connection with a bell mounted in the water tank stands, whereby the carbide should get through the tap and the nozzle into the inside of the bell. A great disadvantage of this The device is that after a short period of use the carbide turns on. the walls of the Nozzle, in the tap and at the bottom of the funnel, so that the supply gradually occurs with carbide decreases until the device becomes ineffective after not too long, d. H. no carbide gets into the water unless cleaning is done very often will. A second disadvantage which causes irregularities even when the The apparatus is cleaned as often as possible, that the amount of the to be added Carbide depends on the duration of the opening of the shut-off device. The immediate The consequence of this is that uneven feeding takes place as soon as the material is not is completely evenly comminuted respectively. partly again into larger pieces has united or otherwise for whatever reason a change in speed occurs, with which the carbide falls out of the funnel.

In the accompanying drawing, FIG. 1 shows an apparatus intended to avoid these inconveniences in a vertical section with a partial view, while FIG. 2 is a horizontal section along xx and FIG. 3 shows, on an enlarged scale, a carbide tablet.

The Entwickelungskammer A is zweckmäfsig made of steel or other suitable material of sufficient strength and with a by plugs A verschliefsbaren discharge opening ¹ and at a at the upper part, located provided by lid A- verschliefsbaren opening. Furthermore, an opening B is arranged in the ceiling of this chamber and on the same a chamber C, which is closed on the sides and at the end C ³ , in order to prevent the escape of gas; however, it is ^{open at end C 4} and has an upper plate C ¹ and a lower ^{plate C 2} ; in the latter an opening C ^{5 is} provided which corresponds to the opening B. On the upper plate C ^{1 there} is arranged a loading container! D, which is provided with a cover D ¹ and is fastened to the plate C ¹ with bolts D ^2. This hopper Z) is open at the bottom and is described herein in connection with the chamber C. The hopper includes loose calcium carbide or a number of Carbidtäfelchen Z) ^s, which fall into the chamber C and then, with the aid of the piston G ■ after the Oeffhüngen C ⁵ and B can be further promoted. At the opposite end of this piston is attached a rod F * which extends rearward

and at F ^{3 is} rotatably connected to the transverse arm F ^2. The transverse arm F ' ² joins the horizontal arms F ¹ , which are located on opposite sides of the chamber C and are connected on the front side by transverse arm E ^e , which is in rotatable connection with the articulated rod E ^h , which in turn is again at ^{4 is} also rotatably connected to the lever arm E ³ of the toggle lever E ¹ rotatably arranged on the holder E. The lower lever arm E ' ^{2 of} the toggle lever has a slot E ⁷ in which a stop rod N is arranged, which bears beneath the slot a screw-O ¹ Nufs O and above a provided also with screw N ¹ Nufs N ^'second between this and the lever arm e ^2, the stop bar N passes through the slot M ¹ of the control rod M, which, when L ^{1 is} adjustably connected with the aid of a screw L ' ² on a vertical rod L. This rod L is fastened with the aid of a flange L ⁴ on the bell Ä ¹ - of the gasometer /; the bell is located in an F liquid and can be raised and lowered depending on the amount of gas in it. The gas developed in the gas generator A passes through tube H into the gasometer bell H ¹ and is fed from here to the point of use through tube K, which can be shut off by tap or valve K ^{1 as required.}

As soon as a filling of the slide G or one of the tablets C ³ made of calcium carbide or another analogous substance has fallen into the chamber C from the container D and through the piston G (the apparatus is of course first set in motion by hand) to the openings C ⁵ and -B is advanced, it enters the water of generator A; the gas developed in this way passes through tube H into the gasometer bell H ¹ and gradually lifts this bell so that the rod M is also lifted and with it the rod N is actuated. By lifting the bar M with help ^; of the stop N ^1, the stop rod N is lifted and the toggle lever E ^{1 is} actuated and, through the intermediary of the toggle rods E ⁵ E ^a ρp \ pi J ₆₁ - piston Q is moved backwards until its front side meets the rear edge of the loading container D, whereupon one of the tablets falls into chamber C in front of the piston or the loose carbide fills the slide recess. As long as there is still enough gas in the gasometer that the bell H ¹ remains in its raised position, the piston G will remain at rest, but as soon as the gas consumption from the gasometer bell causes the latter to decrease, the rod M will also sink and the lever e ^z 'of the toggle lever e are depressed ^1; so that e ⁶ the piston G gradually advanced through the mediation of the articulated connection e ⁵ again and the fallen carbide in the openings C ⁵ and B is driven and eventually turn into the container A reaches, so that the development of a certain amount of gas can occur again, which reaches the gasometer bell and drives the latter up again.

From this it is understandable that, when this apparatus is in operation, the supply of tablets made of calcium carbide or analogous material is regulated by the pressure or the volume of the gas produced, with each tablet supplying a certain volume of gas when it decomposes, as stated above . You can therefore adapt the respective charge to the required amount of gas. If, for example, in a building a. Gasometer is necessary, which holds ι cbm for the operation of the loading mechanism and for the other needs of the building mentioned, the apparatus is: arranged in such a way that each time as much carbide falls into the gas generator as is necessary to 1 cbm To produce gas so that the gasometer is not blown or blows out; or DAF no gröfsere or smaller Gasmerige is supplied as is necessary to the activity of his ^one apparatus.

The devices mentioned in the introduction are opposite in the present case Apparently the evolution of gas is quite even, since it is brought into the water every time Quantum of carbide is always the same size; Cleaning is almost not necessary, Disturbances are excluded.

Cleaning becomes unnecessary because the supply of carbide is always complete from that Water-containing gas generator is complete, even during the introduction of the carbide into the generator, so that the carbide supply cannot suck in evaporation moisture, the carbide remains dry and does not adhere to the walls.

Disturbances in the feed are therefore excluded, 'because for the passage of the' Carbides are so large and everywhere the same cross-sections that congestion of the Material cannot enter.

The amount of carbide brought into the water is always the same, because it does not depend on time or speed, but is determined by the cavity provided in the slide C , the size of which is determined once and for all by the construction of the apparatus. If cakes or tablets are used for feeding, the highest conceivable accuracy is achieved if these cakes are sufficiently uniform; if loose material is used and it is ensured that there is always a supply in container D , then

the cavity in slide G is always filled; when the slide is moved, the same amount of carbide is always closed off and then dropped into the gas generator.

Claims (1)

; 'Patent claim: ■ Apparatus for generating gas, e.g. B. acetylene gas, characterized in that on the gas generating tank containing the decomposition liquid (water) a slide (C) can be moved, in which a cavity is arranged, which at one stroke end of the slide with a storage container (D) for carbide or the analog Substance communicates, of which carbide is filled either in loose form or in the form of a cake of suitable size, and comes into contact with the gas generator (A) at the other end of the stroke of the slide, so that here the measured amount of carbide or the cake gets into the gas generator can. For this purpose ι sheet of drawings.