DE40996C - Chlorine oxyhydrogen photometer - Google Patents

Description

->&,% \ * 'Κ · i Wit f ι ν ν * - ». ι

IMPERIAL

PATENT OFFICE. \ ^

The essence of the new photometer rests on the observation that a mixture of Chlorine and hydrogen differ in the stoichiometric ratio under the influence strong illumination forms different amounts of hydrochloric acid.

Hydrochloric acid is used to achieve the correct ratio between chlorine and hydrogen electrolytically decomposed.

In the bottle A there are two carbon pins a, which are connected to the battery B by means of the wires b . The bottle is hermetically sealed by the ground-in stopper c , through which a pipe d leads the gas mixture to the washing vessel C. A blackened tube e, fitted with a glass stopcock f, leads from C to the photometer D. The stopcock f is armored with metal and is operated by means of the electromagnet. g and g ¹ open and closed. The electromagnet g ^l opens the connection tap f to the photometer, the electromagnet g closes it.

Bottle A is filled with pure, concentrated hydrochloric acid, which _{is saturated with table salt (Y 10 of} the volume of hydrochloric acid). The washing liquid also consists of saturated saline solution. The purpose of using table salt is to reduce the solution capacity of both liquids for chlorine. Bottle A and wash bottle C are enclosed in a cabinet that is only opened when filling.

If the electric current acts on new liquids, a correct gas mixture is of course not obtained immediately, but chlorine is retained by the liquids. Only after a few hours is the ratio of chlorine and hydrogen correct. The electromagnets h and h ¹ control the evolution of gas in that h ^l feeds the current and h interrupts it.

The photometer consists of two equally wide, vertical glass tubes EF, which are connected at the bottom by the horizontal tube H. F is a third longer than E, closed at the top and connected by means of the blackened tube ij in connection with the washing vessel C respectively. the gas generator A. The tube j leads to a bellows or aspirator J and has the hand tap k. A filling pipe K is located on the connecting pipe H between E and F and is used to produce the level xy of the photometer D. η is the drainage tap. If necessary, the cock ρ serves to fix the liquid level in the pipe F at 0 °. Boiled salt solution, saturated with chlorine, serves as the filling liquid. It is filled up to the height of the line xy halfway up the pipe F; Hahn m is then closed. All sub-parts of the tube system up to the level line xy are blackened in order to keep the liquid from the light. / is a simple leather bellows which is soaked with paraffin for better sealing and serves to create a vacuum in the tube F. It is stretched by a spring q and the cock k of the pipe j is opened when it is sucked. The effect of the spring q and thus the suction of the aspirator / can be regulated by an adjusting screw. Tube r with

Tap S at the bottom of the aspirator J leads to a solution of potash to remove the chlorine. The aspirator J is used by hand until there is no more atmospheric air in F and the tube i , for which purpose the cocks fks are opened. When this is achieved, the cock s is closed and the aspirator is exposed to the influence of the spring q , which expands it when the cock k is open.

Pipe F is surrounded by a square shaft pipe L. In one of the sides of this shaft a slide t with a horizontal slot opening ^{slides without significant friction jj 1} , Fig. 1 and 2. This slide hangs on a thread ", the other end of which carries a float \ in the tube E , while the thread over a drum M goes. The length of the thread is such that the slit of the slide is 1 cm above the level of the liquid in F when the float has reached the level line. It is clear that this position of the slit in relation to the level of the liquid in F is constant with all possible fluctuations in the liquid.

The drum M is fastened with its metal pointer y ¹ on a very easily rotatable axis; it is attached at a sufficient height so that the slide t can move upwards in the shaft L to the desired height. The float is so weighted that when it moves it always takes the slide t with it by means of the thread. A graduated arc P is stretched over the drum M , over which the pointer y ¹ plays. In the shaft L, opposite the slide f, a window covered with red glass is inserted, through which the pipe F can be seen precisely. This window serves for the precise setting of the level in the tube F. It is also a good idea to use a black veil when observing, in order to avoid any admission of light to the gas column before the photometric measurement. If a vacuum is created in F , the liquid in tube E will fall and the float ^ will turn the drum with the pointer to the left. If a normal mixture of chlorine and hydrogen is passed into tube F and the apparatus is exposed to light, the latter penetrates the gap in the slide and forms hydrochloric acid from the gases, which is absorbed by the water. Thereby the volume of the gas in the tube F becomes smaller, the liquid in the tube F rises, so that the liquid level in the tube E, and thus also the float, go downwards. The connection of the float Jj to the slide t by the thread u then causes the latter to rise and thus constantly expose new quantities of gas to the light source. In this way, despite the change in the position of the slot in the slide t, the same amounts of the gas mixture are always hit by the light source.

The photometric measurement with this device is carried out in the following way:

After the apparatus has been precisely aligned, that is, after the base of the slot in the slide points exactly at level xy under normal pressure, the drum M is adjusted in such a way that the pointer ^ 'points exactly horizontally in the right direction to the zero point of the scale P. Then the thread u is fastened to the drum M in such a way that it transfers exactly the movements of the swimmer \ to the pointer y ^x . In the horizontal, right-hand position of the pointer, a pin q ^{l is} attached to the scale.

After the point q ^{1 has been} precisely fixed, a vacuum is created by means of the aspirator J in the tube F until the level of the liquid in this tube is within 1 cm below the upper plug of the tube. During this time the pointer has moved to the left over the scale P as a result of the sinking float %. The point which corresponds to the indicated highest position of the slot in the tube F is also marked by a contact pin q " on the scale arc P. In this way the path of the pointer and that of the slide slot are in direct relation.

When taking photometric measurements, an air void must first be created in the pipe F (by means of the aspirator J) and the space filled up to the level line with the mixture of the normal gas mixture. For the latter purpose, after the evacuation of air, the cock ρ of the horizontal connecting pipe H is closed in order to maintain the lifted liquid column at the height that determines the vacuum, then the cock s of the discharge pipe r of the aspirator J is opened and the spring of the aspirator J is locked, so that the latter cannot suck. The evolution of the gas is then initiated. If this is done correctly, the taps 5 and k are closed, but the tap ρ is opened. The gas developed and flowing through the tap / then gradually lowers the column of liquid in F. If the latter has reached the level line xy (corresponding to the zero line on the scale P), the gas supply is interrupted. The timely interruption of the. The gas supply by means of the tap F is automatically achieved in the following way.

A special battery Z is used to regulate the supply of gas mixtures.

Fig. Ι. This battery comes into operation as soon as the pointer touches one of the two pins q ¹ or q " . One pole of the battery Z is connected to the two pairs of electromagnets h and h ^l and g and g ^l and leads to the pins q ^l and q ", while the other is directly connected to the metallic pointer y ¹ . Depending on whether the pointer y ^λ touches the pin q ¹ or that q " , the current of the battery Z is closed via g and h or via g ¹ and h ¹ and thereby either the valve f is closed and contact is interrupted at b , or the valve / opened and the contact established at h . As a result, in the latter case the electric gas flow is switched on, in the former case it is switched off. At the moment when q "is touched by the pointer y ■ (when the slide t has reached its highest position), is the current between the electromagnet h ^l , the pointer y ^l , the electromagnet g ¹ and the battery Z is closed, so that the current from the battery B reaches the gas generator A through W and the valve f is opened by means of the electromagnet g ^l. As a result, gas develops in A , which can flow into tube F through the opened tap f. Touched. on the other hand, the pointer touches the pin q ¹ , which occurs when the tube F is completely filled with gas up to the level line, the electromagnets h and g come into effect through the electrical circuit hgq ^ y ^ Zh; the former removes the connection between the battery and the gas generator, the latter closes the tap /, so that the production of gas is completely abolished.

So that the light does not come on the liquid itself, 'bringing in E to a float \ of black glass. In this way, any decomposition of the chlorine-saturated salt solution is excluded.

If you suddenly let a very strong light act on the slider, an explosion would be conceivable. In order to avoid accidents, the said slot is therefore covered with glass. Depending on the strength of the light, devices with a larger or smaller slot can be used. In the present photometer, the strength of the light source to be measured is proportional to the time required for the hydrochloric acid to be absorbed in the tube F. The determination of the sum of the light reached is done by calculating the hydrochloric acid generated respectively. the consumed mixture of chlorine and hydrogen. The apparatus resp. the pointer mechanism is to be fixed accordingly on a tripod. The oscillations (play) of the pointer can be registered by a chime or clock mechanism.

For photometric determinations in meteorology, very narrow slits are used so that the gas column is sufficient for a whole day. A drum, of the same height as the gas column, is covered with paper, which is provided with a 24-hour graduation. A clockwork turns the drum and a pencil, influenced by the slide t , draws the course of the hydrochloric acid formation on the paper. When the recording starts, the pen is set to the relevant hour. The slide t is moved in the manner described above as a result of the gradually occurring and gradually progressing formation of hydrochloric acid and the resulting drop in the liquid level in the tube E. The curve produced by the various positions of the slide in hell and by the rotation of the drum is the picture of the course of the reaction.

This device allows the inclusion of a new category in the meteorological daily determination.

Another method for graphically recording the photometer result is shown in FIG. 3. The drum is completely separated from the slide here.

The drum M ¹ , which is rotatable about its axis, is provided on half its circumference with a metal toothing which is completely isolated from the rest of the drum and which drives ^{a small wheel C 1.} The latter is mounted on a metallic support D ¹ and has ten teeth, one of which can alternately conduct the electrical current, while the next tooth does not conduct the current. A screw G ¹ carries the escapement F ¹ ; on addition sitting on the same mother H ¹ with the stylus H ". This pen slides during its upward and downward movement, which is caused by the rotation of the screw, between the slide rails J ¹ J ^1. To the screw G ¹ is a rotatory motion to At its upper end it carries a cord disc v ¹ , which is rotated by the weight S ¹ by means of the cord passed over the pulley T ^1. Below the escapement F ¹ , the anchor E ^{: is} easily rotatable on a special stand E ″ ; by means of a hinge it is connected to the armature D "of the electromagnet R , which is mounted ^{on the frame D 1.} The fulcrum D '" of the armature D " is well insulated to prevent the electricity conducted into the apparatus through wire α from being applied to the armature D " passes. The armature is held by the spring P ¹ .

One pole of a battery B ' is connected to the pin of the drum Af ¹ by wire α. the other connected to the coil of the electromagnet R by lead wire β . Thus, when a metallic tooth of c ^{1 is in} mesh with the toothing of M ^{1, the} current goes through the small wheel C ¹ , and the armature D " is attracted. By the attraction of the oscillating armature D" , the armature E ¹ also moved, thereby allowing the screw G ¹ to rotate; as a result, this pushes the pen H ¹ a certain distance higher. The current occurs every time a conductive tooth of the wheel c ¹ comes into contact with the teeth of the drum M ¹ , which is set in rotation in the manner previously described by a float and by means of a cord.

Claims (5)

Patent claims: i. A photometer in which the formation of hydrochloric acid caused by the action of light on a mixture of chlorine and hydrogen in the stoichiometric ratio is visibly transferred to a drum M , consisting of: a) from the three tubes EK and F, of which F serves as a photometer tube, K to fill up the apparatus and E to attach a float; b) from the gas evolution apparatus A, in which hydrochloric acid is decomposed by the action of an electric current, which gases are passed through a washing vessel and blackened tubes e into the photometer tubes; and c) from battery B for the development of chlorine and hydrogen. 2. On the under i. specified photometer the arrangement of the electromagnets gg ^l and hh ^l , which on the one hand with an auxiliary battery Z, on the other hand with the contact pins q ^l q " in connection, while the other pole of the auxiliary battery is connected to the metal pointer y ¹ , so that each after the pointer touches the pin q ¹ or the pin q " , the electromagnets g and h or g ¹ and h ^l attract their armature, whereby either the gas supply valve / is closed and the current of the battery B is interrupted or the valve f is opened and the current the battery B is closed. 3. On the photometer claimed under 1. the arrangement of the slide t which can be moved up and down in the shaft L , which is connected to the float % by the cord u , so that the slit opening in the slide corresponds to the increasing conversion of the gas mixture into hydrochloric acid , in the photometer tube F goes up. 4. The combination of the photometer specified under 1. with the aspirator J. 5. The combination of the photometer given under 1. with the rotatable drum M ¹ , which has a metallic toothing on half the circumference, insulated from the roller, and ^{engages in the wheel C 1} with alternating conductive and insulated teeth, with the mechanism for movement of the pen H ", consisting of the armature £>", the electromagnet R, the armature escapement E ', the screw G ¹ , the pen holder H ¹ and with the drum x ¹ to a recording photometer. 1 sheet of drawings.