DE264759C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 264759 CLASS YEAR. GROUP

GUSTAV WOHLFEIL in HAMBURG.

Patented in the German Empire on September 11, 1912.

The invention relates to a device which flammable admixtures (gasoline vapors, Coal dust, mine gas, etc.) in the air automatically detects and in particular is suitable to indicate the occurrence of mine gases (beating weather) in mines etc. In the latter case, the device can be used both on its own and in Used in conjunction with a miner's lamp

ίο be.

In the device, the air to be tested is in a known manner in the explosion chamber of an apparatus and an electrical one when the device is put into operation Ignition device put into action, which removes the admitted air, in the case of this inflammable Contains admixtures, ignited, in which case a signaling device is then triggered by the explosion that has taken place is put into action.

According to the invention, two contacts are continuously set in motion containing contact device in continuous succession one after the other, by means of the one contact and an electromagnetically controlled inlet valve the entry of those to be tested Air enters the explosion chamber and then the ignition circuit through the other contact an inductor or the like closed, and it becomes explosive in the case of the air Contains gases, by means of a piston located in the explosion space in itself a known way a signal circuit is closed.

Compared to the known methods and devices serving the same purpose possesses the present device in addition to the better reliability in their Effect has the particular advantage that the time in which the admission of the to be examined Air and the spark generation taking place can be very brief; thereby becomes a too late indication of a dangerous condition of the air avoided.

The device can be given a fixed location in the area to be monitored; then the explosion device is appropriate from the one to be driven by the spring motor Contact device and the signal device separated, and both of the latter are located at the surveillance site and are connected to the explosion device by lead wires. It can then Of course, several explosion devices are set up and distributed accordingly be connected to a single contact device and signal device. The explosion device, however, the contact device and the signal device can also be combined into a single, portable device and then also be connected to a miner's lamp.

The drawing illustrates an example embodiment of the subject matter of the invention.

The current source is denoted by α. The explosion device b contains a hollow cylinder d which forms the explosion space and in which a piston e under the influence of a spring s can move. In the lower wall of the hollow cylinder d there is an inlet valve g which can be opened by an electromagnet h.

The armature of the latter is attached to the free lower end of the valve rod, which is slidable in the hollow core of the electromagnet. The valve g and the electromagnet h are enclosed in a hood f made of wire mesh or the like. In the explosion chamber there are two metal pins on the end wall of the cylinder d, insulated by means of external clamping screws i , whose pointed ends coincide with it

ίο face some distance from each other. The induced current of an inductor is fed to the metal pins through the clamping screws i, which causes a spark between the metal tips.

The other part of the explosive device b includes a contact lever k influenced by a spring m , which in the position shown held by a resilient hook I attached to the piston rod of the piston e pushes a switch η in the line carrying the inducing current Contact spring t closes, but a switch 0 in the signal line opens. The signal line leads to a bell c.

■ On the shaft ft of a spring motor, two round contact disks q and r with three slip springs (one of which rests against the shaft ft ) are arranged and designed in such a way that one closes its circuit when the other interrupts its circuit. The power lines belonging to the disk q lead to the electromagnet h and the lines belonging to the disk r lead to an inductor j.

The contact surfaces of the disks q and r are such that, at a corresponding speed of rotation of the shaft ft, the valve g is opened and closed four times in about one minute and a spark is generated four times when the valve is closed.

It is therefore caused by the disk q when the device is put into operation, the excitation of the electromagnet h and thereby the opening of the valve g , so that the air in the

4-5 cylinder d can enter. After about 7 ¹ Z ₂ seconds, the disk q opens its circuit a, ft, q, h, a, and the valve closes again; about two seconds later the contact disk ν closes the inductor circuit a, ft, r, n, t, j, a, and sparks are generated between the metal pins. . .

If the air in the explosion chamber of the cylinder d contains combustible additions to such an extent that it is explosive, it is ignited by the resulting sparks. The resulting expansion moves the piston e to the right and thereby releases the contact lever k , which is now turned by the spring m so that the switch n, t is opened to interrupt the spark generation, but the switch 0 is closed so that the latter by closing the circuit a, 0, m, c, ■ α brings the bell C to ring. The latter rings until the contact lever k is raised again by pulling on a cord and is fixed in this position by the hook I of the piston e, which has meanwhile been returned to its previous position by the spring s.

Claims (1)

Patent claim: Device for testing the air for flammable additions, in which the gas mixture to be tested is ignited in an apparatus (which can possibly be combined with a miner's lamp) and a signal is activated by means of suitable devices, characterized in that two contact discs (q, r ) 'a continuously driven contact device (ft, q, r) initially closed by one disc (q) of the circuit (a, ft, q, h, a) of an inlet valve (h) to the explosion chamber (d) for a certain time and meanwhile the valve for the entry of the gas mixture is kept open, then the ignition circuit (a, ft, r, n, t, j, a) of an inductor (j) is closed by the second disk (r) , whereupon the presence of explosive gases by means of a Piston (e) closes the signal circuit (a, 0, m, c, a) in a manner known per se. 1 sheet of drawings.