DE10122572A1 - Smoke detector system for buildings with high ceilings has integral self-test sensor system - Google Patents

Abstract

A smoke detector system within a large building has a series of ceiling-mounted sensors which are tested at intervals. The test sensor is located either within or directly alongside each smoke sensor. The integral test sensor is a heat detector and gas generator with a sensor. The gas detector has a time switch, and is remotely controlled and electrically activated. The gas generator operates independently of an electricity supply and has a gas cartridge, fluid container, electrical heater and a blower unit.

Description

The invention relates to a mobile smoke generator for simulating egg real flue gas and a method for testing a flue gas mel where a flue gas placed near the flue gas detector generator creates a flue gas using a test medium and the flue gas initiates an inspection of the smoke detector.

To check the functionality of smoke detectors, among other things, mobile flue gas generators are known. This smoke gas Generators are held to a smoke detector until it is through the Flue gas from the flue gas generator triggers an alarm.

There are devices that carry a test aerosol in a pressure bottle Ren. A disadvantage of these devices is that, inter alia, because of the pressure bottle are unfavorable to use. Also triggering one such a device by means of a mostly complicated and complex Trigger mechanism is disadvantageous to perform.

Another type of test equipment is from Hekatron GmbH known. This tester uses a smoke to generate smoke chopsticks, which is inserted into a housing of the device, the  Housing must be closed again with great care, as this will lead to it is that a sealing ring, which a bottom and an upper part of the Seals the housing, does not damage it. When actually checking the The flue gas detector is then a hose tip of the test device to the Flue gas detector kept, the flue gas by compression of a Rubber balls pressed out of the hose tip onto the smoke gas detector must become.

In addition to the cumbersome handling described above during a pumping cycle, manually vent the housing with a Fingers are closed so that there is no smoke from this ventilation hole gas can escape during the compression of the rubber ball. Around The compressed rubber ball is filled with air again the ventilation hole of the housing is released, so that fresh air is available through this can flow back into the rubber ball of the tester. Such a process ren is extremely cumbersome, especially when the test items Smoke detectors are hung high on a ceiling.

Known test devices for smoke detectors usually have one as described quite complicated operation. Add to that the test procedure with the well-known test equipment, due to frequent unsuccessful attempts times must be carried out. It is also disadvantageous here that a longer stay of the test aerosols or the smoke of the avenger stick Long waiting times occur in or on the smoke detector until the  Flue gas detectors return from an alarm state to normal is set.

The object of the invention is to further develop mobile smoke gas generators cover and thereby simplify testing of a smoke gas detector.

The object underlying the invention is achieved by a mobi len smoke gas generator for simulating a real smoke gas, the mobile smoke generator to generate the smoke an electric Has heating device. Such an electric heater can be in are in various forms, but a heater is particularly preferred producer who has an electrically conductive wire. Advantageous with the It is with this heat generator that heat can be generated without using an open flame. To generate heat, le only a current is passed through the wire so that it heats up. Consequently an electric heating device is particularly advantageous.

A preferred embodiment variant provides that the heating device is switched on electrical resistance is. This is preferably a commercially available ohm shear resistance, which is easily converted into an electrically conductive Wire can be inserted. In particular the ohmic resistance ver strengthens the generation of heat on the one hand and increases it on the other heating surface, which is able to give off heat.

It when the mobile flue gas generator is an electri is particularly advantageous has blower. The electric blower can be a small one  Be a fan that sucks in air from the environment and then through it conducts the mobile flue gas generator, the air passing through the flue gas at least one opening of the mobile smoke gas generator in the direction of a Smoke detector leads. It is possible to use any other fan instead Use equipment that is able to accelerate air.

Another variant provides that the mobile smoke gas has an electrical energy source. By means of this electrical The energy source is, for example, a power supply for the heating device and the blower guaranteed. Can be used as an electrical energy source serve a public power grid or a solar power unit. Prefers however, the electrical energy source has a battery or another rechargeable battery.

It is particularly advantageous if the mobile smoke gas generator is electric can be triggered. A flue gas is only generated when the Heating device or the heat generator is triggered electrically, wherein then a current through the heating device or through the heat generator of the electrical energy source flows.

According to the invention it is proposed that the mobile smoke generator has a heat-conducting body. For example, the heat sink is off made of an electrically conductive metal sheet, so that the ge relatively large surface of the metal sheet compared to the surface of the wire ches increases the heatable surface. It is particularly advantageous if the Thermally conductive body is realized in the form of an electrical resistor.  

For example, this resistance is a commercially available resistance, so thereby a product from mass production to increase the performance of Heating device can be used.

According to a further embodiment variant, it is provided that the mobile Smoke gas generator has a heat chamber in which a test medium is ordered. The flue gas is advantageously used by means of the test medium generated.

The heating device is preferably arranged in the heating chamber, so that it is in the immediate vicinity of the test medium.

The test medium can be solid or liquid, it is particularly advantageous if if the test medium comprises a gel-like material, which Er heating at least partially consumed. For example, there is gel-like test medium, the electrical heating device or the thermal conduction body, especially the commercial resistance, so that when it hits part of the test medium due to the close proximity of the heating device is heated to such an extent that it turns into a gaseous state vapors and the mobile flue gas generator generates a flue gas.

It has been found that it is advantageous if the test medium only has a mass of less than 5 g, preferably less than 1 g. The mobile flue gas generator according to the invention advantageously requires for a test sequence only approx. 0.001 g of the gel-like test medium, see above that with the mobile smoke gas generator according to the invention up to 600 test  tests can be carried out without using the mobile flue gas generator Refill test medium. This corresponds to a monthly test cycle l from a service life of approx. 40 years. Advantageously, the Refill mobile flue gas generators with a new test medium. By the small amount of test medium reduces the weight of the mobile Smoke gas generator significantly.

According to a further embodiment of the invention it is provided that the The heating device is in active contact with the test medium. For example the heating device is arranged in the heating chamber such that it is directly surrounded by the test medium. This is the structure of a mobile smoke generator very simply constructed, whereby additional means for the development of flue gas are superfluous.

Ultimately, it is proposed that the mobile flue gas generator be a Kapil Lar device. For example, one end of a capillary tube is in a housing in which the test medium is located. The the other end of the capillary tube, on the other hand, has a heating device or is in direct operative connection with the heating device. Through the Ka pillar tube always moves part of the test tube by means of adhesive forces diums in the area of the heater, which is activated for a Consumption of the test medium ensures.

The heating device is preferably remotely controllable, so that it is only activated Need is turned on. This is the case, for example, if the inventor  Mobile smoke generator according to the invention in the immediate vicinity of the gas mel which is held.

In order to avoid overheating of the test medium, it is possible to temporarily limit the heating time of the heating device so that for a Reactivating the heating device actuates a switch accordingly must become.

The object of the invention is also achieved by a method for testing solved a smoke detector, in which a near the smoke detector The smoke gas generator brought a smoke gas using a test medium generated and the flue gas initiates a test of a flue gas detector, the test medium being consumed by an electrical heating device becomes. The flue gas is converted from an electric blower to the Smoke gas detectors promoted, after the initiated test of smoke gas detector is ventilated by means of the blower. Advantageous with this procedure ren is that according to the invention the flue gas by an electric heater device is generated in which a test medium by the electrical heating facility is consumed. It is particularly advantageous here for that Generation of the flue gas only a very small amount of a test medium is consumed.

It is also advantageous that the flue gas by an electric blower of the mobile flue gas generator directly in or on the flue gas detector is blown so that the smoke detector can be smoked in a targeted manner  happens, among other things by the determination of the procedure Effectiveness of a smoke detector test is significantly increased.

If the test sequence of the smoke detector is successfully initiated, it is particularly advantageous if the smoke detector immediately after the construction is ventilated so that the test is ended as soon as possible. Through the targeted post-ventilation by means of the mobile device according to the invention Flue gas generator will reduce the risk of undesirable deposits Flue gas particles in the flue gas detector are reduced.

It is also advantageous that the active ventilation of the flue gas the entire examination procedure is significantly accelerated where can be checked by more smoke detectors per time.

It is understood that the production of a flue gas with solid particles can also be replaced by generating a gas without solid particles. This is particularly advantageous if the function of a gas detector to be checked, which responds to the presence of a gas.

Further advantages, goals and characteristics of the present invention will become apparent described with reference to the accompanying drawing, in which is shown as an example of a mobile smoke generator.

It shows

Fig. 1 is a two-divided heating chamber,

Fig. 2 is a partially sectioned heat chamber,

Fig. 3 illustrates schematically a battery power source,

Fig. 4 shows a resistor and a cuff having capillary surfaces,

Fig. 5 is a schematic representation of a mobile smoke generator according to the invention and

Fig. 6 shows a mobile smoke generator in interaction with a smoke detector.

The heat chamber 1 , which is divided into two in FIG. 1, has a closure cover 2 and a base housing 3 . The closure cover 2 has an opening 4 in its center through which a flue gas 5 generated rises. The Ver cover 2 is screwed to the base housing 3 by means of a large number of screws 6 (only exemplified here).

The base housing has on one side two bores 7 and 8 , which take plug contacts for an electrical connection (not shown here).

Fig. 2 shows the base housing 3 of the two-part heat chamber 1 in an opening. A heating device 9 is arranged in the interior of the base housing 3 . The heater 9 has a resistance 9 A.

Fig. 3 shows in principle the simple structure of an electrical circuit 10 of a mobile smoke gas generator 29 according to the invention. A battery 11 is used as the current source, which is connected by means of a wire connection 12 to a heat-conducting body 13 (capacitor, ohmic resistor).

An ohmic resistor 14 and a capillary sleeve 15 are shown in FIG. 4, the diameter of the resistor 14 corresponding to the diameter of the capillary sleeve 15 in a region 16 .

With its lower region 17 , the capillary sleeve 15 is arranged in a gelar term test medium (not shown here), the gelarti ge test medium in the interior of the capillary surfaces 18 and 19 by means of capillary forces in the direction of the arrow 20 between the two inner capillary surfaces 18 and 19 to the resistance 14 moved there.

In the illustration of FIG. 5 shows the arrangement of a flue gas detector 21, a heating chamber 22 and a ventilator 23 is shown. Through an opening 24 of the heat chamber 22 , a flue gas 25 enters the environment. The fan 23 blows an air flow 26 in an arrow direction 27 . The flue gas 25 is carried along and registered by a detector 28 of the flue gas detector 21 , whereby an alarm signal is initiated. If the test of the flue gas detector 21 has been completed, the development of the flue gas 25 in the heating chamber 22 is prevented, in which the electrical heating device is switched off. The air flow 26 of the fan 23 blows the smoke gas detector 21 , in particular the detector 28 of the smoke gas detector 21 , free of residual smoke gas particles.

In FIG. 6, a mobile flue gas generator is held in close proximity to ei nem flue gas detector 30 29. Here, the mobile Rauchgaserzeu ger 29 has a tube 31 in its front area and a fan 32 in its rear area. Inside the mobile smoke gas generator 29 is a previously described heat chamber 22 for smoke gas generation. An air flow conveyed by the fan 32 blows a flue gas 33 generated in the mobile flue gas generator in the direction of the flue gas detector 30 . The flue gas detector 30 here has openings 34 , 35 and 36 through which the flue gas 33 reaches a detector of the flue gas detector. With the tube 31 , precise aiming for the flow of a flue gas detector 30 by a mobile flue gas generator 29 is made considerably easier.

Claims (13)

1. Mobile smoke gas generator ( 29 ) for simulating a real smoke gas, characterized in that the mobile smoke gas generator for generating the smoke gas ( 29 ) has an electric heating device ( 9 ). 2. Mobile flue gas generator ( 29 ) according to claim 1, characterized in that the hoisting device ( 9 ) is an electrical resistor ( 14 ). 3. Mobile smoke gas generator ( 29 ) according to one of claims 1 or 2, characterized in that the mobile smoke gas generator ( 29 ) has an electric blower ( 23 ; 32 ). 4. Mobile flue gas generator ( 29 ) according to one of claims 1 to 3, characterized in that the mobile flue gas generator ( 29 ) has egg ne electrical energy source ( 11 ). 5. Mobile flue gas generator ( 29 ) according to one of claims 1 to 4, characterized in that the mobile flue gas generator ( 29 ) can be triggered electrically. 6. Mobile flue gas generator ( 29 ) according to one of claims 1 to 5, characterized in that the mobile flue gas generator ( 29 ) has a heat conducting body ( 9 a; 13 ; 15 ). 7. Mobile flue gas generator ( 29 ) according to one of claims 1 to 6, characterized in that the mobile flue gas generator ( 29 ) has a heat chamber ( 1 ; 22 ) in which a test medium is arranged. 8. Mobile flue gas generator ( 29 ) according to claim 7, characterized in that the heating device ( 9 ) is arranged in the heating chamber ( 3 ; 22 ). 9. Mobile flue gas generator ( 29 ) according to one of claims 1 to 8, characterized in that the test medium comprises a gel-like material, which at least partially smokes ver when heated. 10. Mobile flue gas generator ( 29 ) according to one of claims 1 to 9, characterized in that the test medium has a mass of less than 5 g, preferably less than 1 g. 11. Mobile flue gas generator ( 29 ) according to one of claims 1 to 10, characterized in that the heating device ( 9 ) is in operative contact with the test medium. 12. Mobile flue gas generator ( 29 ) according to one of claims 1 to 11, characterized in that the mobile flue gas generator ( 29 ) has a capillary device ( 15 ). 13. Method for testing a flue gas detector ( 21 ; 30 ), in which a flue gas generator ( 29 ) brought into the vicinity of the flue gas detector ( 21 ; 30 ) generates a flue gas ( 5 ; 25 ; 33 ) by means of a test medium and in which the flue gas ( 5 ; 25 ; 33 ) initiates a test of the flue gas detector ( 21 ; 30 ), characterized in that the test medium is consumed by means of an electrical heating device ( 9 ) and the flue gas ( 5 ; 25 ; 30 ) by an electric blower ( 23 ; 32 ) is conveyed to the smoke gas detector ( 21 ; 30 ), and after the test initiated, the smoke gas detector ( 21 ; 30 ) is ventilated by means of the blower ( 23 ; 32 ).