RU2372663C2 - Device for registration of fire - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: device for the registration of the fire includes the removable signal device and the base. Signal device consists of the electronic module to process the signals by sensor sensitive for the air parametres that change during the fire. Sensor is connected to the electronic module whereto the indicator of the signal device state and input contacts are also connected. The base includes the contacts for the detached connection to the signal device contacts and the screw connection to the wires of the fire signal tail which is characterised by the basic contacts of the signal device being made in the form of two multipoint elastic contacts and the base concluding at least three contacts located in the way that during the mechanic connection of the signal device and the base the first contact of the base contacts the first basic contact of the signal device, and the second basic contact thereof closes the second and the third contacts of the base.

EFFECT: provides the realisation of all the main functions of the removable signal device according to the requirements of the normative acts EN54-2, EN54-5 and EN54-7, resolves the problem of the connection of the signal device to different types of the control and indicating equipment of the fire stations under the two-wire and four-wire line coupling.

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Description

The invention relates to the fire alarm industry and can be used in fire alarm systems to identify and register a fire that begins.

Fire detectors, optical smoke detectors and devices for detecting fires are known, which operate on the principle of processing the signal received from the sensor using an electronic unit, and generating signals about the presence of fire signs both by the fire alarm cable and by an internal indicator (see the System magazine communication and telecommunication security ", 2000, 33, p.65).

A fire detector is known (Fire detector IP 212-ZSM, Passport TSFSK 425231.002 PS, Specifications TSFSK 425231.002 TU) having an optical sensor, electronic unit, indicator, housing in which the electronic unit is located, using contacts the electronic unit is connected to the base to which conductors and fire alarm loop elements are connected. On the outer surface of the base of the housing are four contacts, which are connected respectively with the four contacts of the base. Using these contacts, the detector is powered and the necessary signals are generated in the fire alarm loop when the detector is triggered or when it is disconnected from the base.

A disadvantage of the known detector is that it contains a significant number of contacts that are not used effectively during operation of the detector. In addition, due to the use of four detachable contacts on the detector and, accordingly, on the base, increased overall dimensions of both the detector and the base are used.

The basis of the invention is the task of reducing the number of connection elements and the dimensions of the detector while maintaining all the functions of the removable detector in accordance with the requirements of regulatory documents, for example, DSTU EN54-5: 2003 and DSTU EN54-7: 2004. Using the same removable detector with a minimum number of contacts and bases different in terms of the circuit, the problem of connecting such a detector to different types of fire alarm control panels using a two-wire or four-wire connection diagram is solved.

The problem is solved in that the device for recording fire, which contains a base and a removable detector having an electronic unit installed in the detector body for processing signals that come from a sensor connected to it, sensitive to air parameters that change during a fire, the electronic unit is connected with detector status indicator and input contacts, and the base contains contacts for detachable connection with detector contacts and electromechanical connection with conductors and elements and a fire alarm loop, characterized in that the detector input contacts are made in the form of two multipoint elastic contacts, and the base contains at least three contacts that are located on it in such a way that when the detector and base are mechanically connected, the first base contact contacts the first input a detector contact, the second input contact of which closes the second and third contacts of the base. A variant of the implementation of the base for connecting an external optical signaling device (VUOS), which contains an electronic unit with a transistor key, the input of which is connected to the first contact of the base, and the emitter output of the transistor key is connected to the fourth contact of the base, and the collector output of the transistor key of the electronic base unit through a resistor is connected to the fifth pin of the base. A variant of the implementation of the base for connecting to the control panel via a four-wire connection diagram is also possible, which contains an electronic unit with a transistor key and a relay, and the second output of the transistor key of the electronic base unit through the first relay is connected to the third contact of the base, the sixth and seventh contacts of which are connected to relay output contacts. An embodiment of the base for monitoring the supply voltage at the end of a four-wire fire alarm loop, which contains an electronic unit with a transistor key and two relays, and the collector output of the transistor key of the electronic base unit through the first relay connected to the third contact of the base, the sixth and seventh contacts of which are connected to the output contacts of the first relay, and the second relay is connected between the second and fourth contacts of the base, the seventh and eighth contacts of which are connected to the output contacts in orogo relay.

In the proposed device for registering a fire through the use of only two multipoint resilient contacts on the detector and at least three contacts on the base, all the basic functions of the removable detector are ensured in accordance with the requirements of regulatory documents. In addition, due to the use of bases different in the electric circuit, the problem of connecting such a detector to different types of fire alarm control panels using a two-wire or four-wire connection scheme is solved.

Figure 1 presents a General view of a device for registering a fire.

Figure 2 presents the block diagram of the detector and the base circuit without an electronic unit.

Figure 3 presents a block diagram of a base with an electronic unit, which allows the connection of the WMO.

Figure 4 presents a block diagram of a base with an electronic unit that allows connection to a four-wire fire alarm loop.

Figure 5 presents a block diagram of a base with an electronic unit, which allows connection to a four-wire fire alarm loop and additionally allows the connection of a fire-fighting system.

Figure 6 presents a block diagram of a base with an electronic unit, which provides control of the supply voltage at the end of a four-wire fire alarm loop.

Figure 7 presents a block diagram of a base with an electronic unit, which provides control of the presence of power supply voltage at the end of a four-wire fire alarm loop and additionally allows the connection of a fire protection system.

On Fig presents an example of the organization of a two-wire loop fire alarm.

Figure 9 presents an example of the organization of a four-wire fire alarm loop.

A device for registering a fire (see Figs. 1, 2) contains a removable detector 1 and a base 2. The detector 1 contains an electronic unit 4 installed in the housing 3 for processing signals from a sensor 5 that is sensitive to air parameters that change during a fire. The sensor 5 is connected to the electronic unit 4. Through holes 6 in the housing 3, air is accessible to the sensor 5. A status indicator 7 and two input contacts 8 and 9 are also connected to the electronic unit 4. Base 2 contains three contacts 10, 11 and 12 for detachable connections with input contacts 8 and 9 of detector 1. At contacts 10, 11 and 12 of base 2, nodes 13, 14 and 15 are located for electromechanical connection with conductors and elements of a fire alarm loop. The input contacts 8 and 9 of the detector 1 are made in the form of two multipoint elastic contacts, and the contacts 10, 11 and 12 are located on the base 2 so that when the detector 2 is installed on the base 2, the first contact 10 of the base 2 is connected to the first contact 8 of the detector 1, the second contact 9 of which shorted the second and third contacts 11 and 12 of base 2.

In the case when it is necessary to display information about the state of the detector 1 on the VUOS (LED), the base 2/1 is applied, the block diagram of which is shown in FIG. 3. Such a base 2/1 contains an electronic unit with a transistor key 16. The input of the transistor key 16 is connected to the first contact 10 of the base 2/1, and the collector output of the transistor key 16 is connected to the first output of the first resistor 17. The emitter output of the transistor key 16 of the electronic unit of base 2 / 1 is connected to the fourth pin 18 of the base 2/1. The second output of the first resistor 17 is connected to the fifth pin 19 of the base 2/1. The anode of the VUOS LED is connected to the third contact 12 of the base 2/1, and the cathode is connected to the fifth contact 19 of the base 2/1. In standby mode, the detector consumes a small current (approximately 0.1 mA) from the fire alarm loop, so the transistor switch 16 will be closed, and the VUOS LED will not light. When the detector 1 is triggered, the transistor switch 16 opens and the VUOS LED lights up.

In the case when the power of the fire detectors 1 cannot be carried out from the same fire alarm cable, a four-wire radial cable connection scheme is used, two wires of which are used to power the detectors, and the other two wires are used for the signal cable. For this, bases 2 / 2-2 / 5 are used, the block diagrams of which are shown in figures 4-7, and the base with two relays is connected at the end of the radial loop to control the voltage of the detectors. Base 2/2, the block diagram of which is shown in figure 4, further comprises an electronic unit with a transistor switch 16, the input of which is connected to the first contact 10 of the base 2/2, and the first collector output of the transistor switch 16 is connected through the first relay 20 to the third pin 12 of the base 2/2. The emitter output of the transistor switch 16 of the electronic unit base 2/2 is connected to the fourth contact 18 of the base 2/2. The output contacts of the first relay 20 are connected respectively to the sixth and seventh contacts 21 and 22 of the base 2/2. The first relay 20 may have both normally open and normally closed output contacts. The collector output of the transistor switch 16 through the first resistor 17 can be connected to the fifth pin 19 of the base 2/3 (see figure 5). The final base 2/4 (see Fig. 6) of the four-wire fire alarm loop contains an additional eighth contact 23 in its electronic unit. The input circuits of the second relay 24 are connected respectively to the third and fourth contacts 12 and 18 of the 2/4 base. The output contacts of the second relay 24 are connected respectively to the seventh and eighth contacts 22 and 23 of the base 2/4. The collector output of the transistor switch 16 through the first resistor 17 can be connected to the fifth pin 19 of the base 2/5 (see Fig.7)

The device for registering a fire works in this way. The connection of a two-wire fire alarm loop to base 2 is carried out using nodes 13, 14 and 15 of screw connections, for example, according to the circuit indicated in Fig. 8. After the detector 1 is installed on base 2 and the position is mechanically fixed, the second input contact 9 of the detector short-circuits the contacts 11 and 12 of base 2. Due to this connection, the supply voltage from the two-wire fire alarm loop is supplied to the next detector 1. The supply voltage is supplied through input contacts 8 and 9 of the detector 1 to the electronic unit 4, which processes the signals from the sensor 5. Depending on the type of sensor 5 used in the detector 1, the electronic unit 4 has different designs, therefore zveschatel 1 has different names depending on the application and implementation of the sensor 5 of the electronic unit 4, for example, the maximum heat, smoke optical, ionization and others.

In standby mode, the detector 1 consumes a small current from the fire alarm loop (up to 0.1 mA), which allows the connection of a significant number of detectors (up to 32 pieces according to EN54-2) to one radial fire alarm loop. It is possible to use bases 2 without both an electronic unit and a base 2/1 with an electronic unit that allows the connection of a VUOS - LED 25. At the end of the radial loop of the fire alarm, a terminal element 26 is connected that creates a current that is greater than the total current of all detectors in the standby mode operating mode, e.g. 4 mA. In this case, when the detector 1 is excluded from its base 2 in any place of the fire alarm loop due to an open circuit between contacts 11 and 12 of base 2, the current consumption by the detectors that remained connected to the control panel will be less than the current flowing through end element 26 in standby mode. Therefore, this condition can be identified by the control panel, to which this fire alarm loop is connected, as a MALFUNCTION or an OPEN that meets the requirements of the standards EN54-2, EN54-5 and EN54-7.

In standby mode, the indicator 7 of the detector 1 can indicate with short periodic flashes that the detector 1 is connected to the power supply. The air that flows through the openings 6 in the housing 3 blows around the sensor 5. In the event of a fire, when the air parameters change, the state of the sensor 5 will change. When the monitored air parameters reach the limit value, the electronic unit 4 will increase the consumption current to a fixed value, for example 4 mA A significant part of this current will flow through indicator 7 and provide an indication of the status of the FIRE. Due to the fixed value of the consumption current in the state of FIRE, it is possible to detect the number of detectors that simultaneously operate in one fire alarm loop.

The return of the detector 1 to the standby state of operation is possible remotely by disconnecting the power supply for a specified time, for example 3 s. In this case, the electronic unit 4 resumes its operation from the very beginning, that is, from the standby mode.

Due to the use of only two multipoint elastic contacts 8 and 9 on the detector 1 and at least three contacts 10, 11 and 12 on the base 2, all the basic functions of the removable detector 1 are fulfilled in a two-wire fire alarm cable according to the requirements of regulatory documents EN54-2, EN54 -5 and EN54-7.

The connection of the four-wire loop of the fire alarm to the bases 2 / 2-2 / 5 is carried out, for example, according to the scheme shown in Fig.9. After installing the detector 1 on the base 2/2 and mechanically fixing this position of the detector, the second initial contact 9 short-circuits the contacts 11 and 12 of the base 2. Due to this connection, the supply voltage "± U" is supplied to the next detector 1. It is possible to use the bases 2/3 with an electronic unit that allows the connection of the VUOS - LED 25. Power supply VUOS - LED 25 when the detector 1 is triggered also from the voltage "± U". Normally closed contacts of the first relay 20 are connected respectively with the sixth and seventh contacts 21 and 22 of the base 2/2. Through these contacts 21 and 22, as well as resistors 27, which are installed in parallel with these contacts 21 and 22, the status of the detectors 1 is monitored by a signal loop (AL). At the end of the radial signal loop of the fire alarm, a terminal base of 2/4 is installed. Through the closed output contacts of the second relay 24, the end element 28 is connected, and this creates a current in the signal loop, the value of which is set only by the end element 28, because the resistors 27 in standby mode are closed by the output contacts of the first relay 20. In this case, when the detector 1 is turned off from its base 2/2, or from bases 2 / 3-2 / 5 anywhere on the fire alarm loop due to an open circuit between the contacts 11 and 12 of these bases, the second relay 24 of base 2/4 or base 2/5 is disconnected, which your output contacts times breaks the chain of the final element 28. This condition can be identified by the control panel, to which this fire alarm loop is connected, as a MALFUNCTION or an OPEN. When the detector 1 is triggered, when the first relay 20 is turned on and its output contacts are broken, the resistance changes in the signal loop by the resistance value of the resistor 27, which is added to the resistance of the end element 28. The control panel can calculate the number of fire detectors 1, which simultaneously tripped in this fire alarm loop.

Thus, in the proposed device for registering a fire through the use of only two input contacts 8 and 9 on the detector 1, and at least three contacts 10, 11 and 12 on the base 2, all the basic functions of the removable detector 1 are ensured according to the requirements of regulatory documents. In addition, through the use of bases 2 different in the electric circuit, the problem of connecting such a detector 1 to different types of fire alarm control panels using a two-wire or four-wire connection diagram is solved.

Claims (5)

1. A device for registering a fire, which contains a base and a removable detector, which has an electronic unit installed in the detector housing for processing signals that come from a sensor connected to it, sensitive to air parameters that change during a fire, the electronic unit is connected to a status indicator detector and input contacts, and the base contains contacts for detachable connection with detector contacts and electromechanical connection with conductors and loop elements of the fire alarm characterized in that the input contacts of the detector are made in the form of two multipoint elastic contacts, and the base contains at least three contacts that are located on it in such a way that, when the detector and base are mechanically connected, the first contact of the base contacts the first input contact of the detector, the second the input contact of which closes the second and third contacts of the base. 2. The device for registering fire according to claim 1, characterized in that the base contains an electronic unit with a transistor key, the input of which is connected to the first contact of the base, and the emitter output of the transistor key is connected to the fourth contact of the base. 3. The device for registering a fire according to claim 2, characterized in that the collector output of the transistor switch of the electronic base unit through a resistor is connected to the fifth contact of the base. 4. The device for detecting fire according to claim 2, characterized in that the collector output of the transistor switch of the electronic base unit is connected through the first relay to the third base contact, the sixth and seventh contacts of which are connected to the relay output contacts. 5. The device for recording fire according to claim 4, characterized in that the electronic base unit contains a second relay that is connected between the second and fourth contacts of the base, the seventh and eighth contacts of which are connected to the output contacts of the second relay.

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