DE681562C - Testing device for pneumatic fire alarms - Google Patents

Description

. Test equipment for pneumatic fire detectors They are edge detectors known with an air or another gas of atmospheric or higher pressure, containing metal tube of small diameter, which with its ends in an expansion chamber opens. This chamber, caused by an increase in temperature in the monitored rough, induced pressure change in the pipe the conclusion or the opening of an electrical circuit. The other end of the metal pipe is connected to a test chamber in which arbitrary pressure changes are caused can to ensure the proper functioning of the fire detector: to. check.

If at: a new such fire alarm in the metal pipe is a leaky Position is available, the check will still show a; normal working of the fire alarm. can be determined, provided that the result of the test Pressure increase occurs suddenly as in the known devices. This fire alarm however, would not work if, in the event of a fire, glass gas as a result of the increase in temperature slowly compressing.

According to the invention, therefore, the test device for a fire alarm . Of the type mentioned designed in such a way that between the test chamber and the Tube arranged a membrane provided with .einer opening of small diameter is, so that a pressure change is caused during the test in the pipe, the the one during normal work. pressure change occurring in the fire detector.

Embodiments of the invention are based on the figures. described.

Fig. I shows a fire detector of the known type. The device consists of a base plate that is attached to the ceiling or the upper part. of the to be protected. Space is attached. On this base plate; an arrangement consisting of the two chambers 9 and io is screwed tight. The two chambers are separated by a membrane 13 which has an opening 1q. is perforated with a small diameter. In the rest position (shown in the figure) the screw 15 touches the membrane 13. The electrical circuit connected to these terminals is closed when the end of the screw 1 5 the. Membrane 1 3 touches.

The chamber i 9 is only partially connected by the connecting pipe i i shown observation tube 12 connected.

As can be seen, the arrangement consisting of the chamber io, the connection ii and the tube 12 forms one of the expansion chambers. of the device: when sudden heating occurs at any point on the tube 12; the heating of the gas enclosed in this tube will cause a sudden increase in pressure in chamber io. The diameter of the opening 14 is not sufficient to allow the pressures to be equalized between 10 and 9. The membrane 13 is pressed down, so that the existing contact between the vision hood 1 5 and the membrane 13 is interrupted and thereby the circuit is opened into which it is switched on. is to trigger the desired signaling or control process.

To check the fire detector described, the in Fig. 2 are used and 3 devices shown. The device according to Fig. Z consists of one in a cylinder 37 arranged and in this sliding piston 33. Usually, the piston 33 pressed by the spring 38 to the left. A magnetic coil is arranged on the body 37, the two winding ends of which are connected at 31 and 30.

If a sufficiently strong current flows through the coil 3o, the Core 33 inside the coil; tightened, the tightening force being sufficient to remove the Compress spring 38.

The body 37 is screwed to a connecting piece 28: With the help of the nut 27, the test device can preferably be attached to the end of an observation tube 12 opposite the reporting chambers (or at any branch point) or at the end of each branch of this observation tube, if the observation tube has several has branches connected to a device. According to the invention, a membrane 2g is arranged between the part 28 and the part 39 soldered on to the end of the tube 12, through which a small diameter hole is pierced.

The test procedure is as follows: If. the electromagnet 30 is excited, the piston moves 33. Usually the displacement of the Piston with a sudden compression of the in the tube 12 and consequently in the Accompanied with it connected chamber enclosed gas. If at one point of the pipe, there is a slight leak, the device will still be in the Work at the moment of the test, because of the movement of the piston 33 caused sudden compression while the device was not working in the case of a temperature increase causing a slower compression of the gas. In order to make the test conditions comparable to normal working conditions, is according to the invention, the membrane 29 has been provided, which it with a suitable choice the central opening enables the test compression by the piston 33 in one specific time.

After the current in the winding 3ö is interrupted, the spring presses 38 returns the piston 33 to the rest position, and the conditions inside the tube 12 will be normal again. The test device according to Figure 3 also aims in the observation tube and to cause compression of the connected chamber: In this case, the result is achieved by the expansion of the gas trapped in the pipe. For this purpose, a tight chamber 4o is attached to the end of the tube 12, in the there is a carrier 4i wound with a heating resistor 42. The two linden of the resistor are connected to terminals 43 and 44. When the resistance 42 is on When voltage is applied, it heats the gas enclosed in chamber 4ö, and this warming makes itself through: an expansion of the gas noticeable, the after a certain course weigh the presence of the part 29 a compression of the gas in the tube 12 and the associated chamber of the device will. In this way you can check whether the device is in operating condition.

The test system is expediently one of a plurality of fire alarms comprehensive Brandnielderanlage designed in such a way that the test device of each detector automatically in certain intervals, namely during the for an examination necessary time is put into action. The 'testing devices each detector can be connected to an electrical control circuit one after the other connected with the help of a rotary switch that controls its brushes automatically advances to the next test circuit; when the trial of the circle, with which the brushes are connected, fails. Practically you can the arrangement here. hit in such a way that the brushes of the rotary switch remain at rest, if -the test of a detector is unsatisfactory, as a result of which an or several signal circuits' are closed:

Claims (3)

PA TE N TANSPRÜcIiP: i. Test device for fire alarms with an air or any other gas of atmospheric or higher pressure containing metal pipe. Of small diameter, one of its ends opens into an expansion chamber, which is the end of a pressure change in the pipe caused by a temperature increase in the monitored space or causes the opening of an electrical circuit, and the other end of which is connected to a test chamber in which pressure changes can be caused, characterized in that a membrane provided with an opening of small diameter is arranged between the test chamber and the pipe, so that during the test a pressure change is produced in the pipe which is similar to the pressure change occurring during normal operation of the fire alarm. 2. Test device for fire alarms according to claim i, characterized in that that the test device of each detector is automatic in certain intervals, and. is put into action during the time necessary for an examination. 3. Test device for fire alarms according to claim i and 2, characterized in that that the test devices are successively connected to an electrical control circuit connected with the help of a rotary switch that controls its brushes automatically advances to the next test circuit if the test of the circuit, with which the brushes are connected, turns out to be satisfactory. q .. test facility for fire alarms according to claims 1 to 3, characterized in that the brushes of the rotary switch that controls the test devices one after the other with control circuits in Bringing connection, stay in peace, - if - the test of a device is not satisfying fails, whereby the signal circuit or circuits are closed.