RU2454258C1 - Method to prevent development of electric plant fire - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: proposed invention relates to fire-prevention equipment. The method to prevent development of a fire in an electric plant includes identification of at least one fire factor, generation of a signal about identification of a fire factor, to at least one control facility, initiation of fire-prevention equipment. Whenever the control facility detects a signal of fire factor identification, a resistance is connected between a phase wire and grounding, which imitates damage of electric equipment insulation, with subsequent actuation of a protective cutout device that reacts to damage of insulation.

EFFECT: method provides for highly reliable prevention of fires in electric plants of different purpose.

12 cl, 3 dwg

Description

The present invention relates to fire safety.

Various methods are known and widely used that serve to prevent the onset and development of fires, including those used to prevent fire and failure of electrical equipment and electrical installations. Known methods for preventing the development of a fire in electrical installations include the identification of fire factors (smoke, temperature rise, flame, changes in the chemical composition of air, etc.) and the formation of a signal for the identification of fire factors by means of control (fire detectors of various types, sensors of various types). The signal on the identification of fire factors initiates the action of fire fighting equipment (triggering of the supply of extinguishing agents, emergency shutdown of various devices, etc.). A similar method implemented during the operation of the fire control system, including electrical installations, is described in patent document CN 201222298, published April 15, 2009 and selected as an analogue of the invention. Due to the analysis of various fire factors, the method according to CN 201222298 makes it possible to identify the occurrence of a fire or the processes leading to it with a high degree of probability, but does not provide a guaranteed and timely shutdown of electrical equipment.

In turn, the proposed invention due to the rapid shutdown of electrical equipment in the early stages of a fire, including before the onset of flame and damage to an electrical installation, will increase the likelihood of preventing the development of a fire, increase the safety of electrical equipment, and make it easier to extinguish a fire if it develops.

The above technical result is achieved by implementing a method for preventing the development of a fire in an electrical installation, which includes identifying at least one fire factor, generating a signal for identifying a fire factor with at least one means of control, initiating the action of fire fighting equipment. According to the proposed invention, when a control means generates a signal for identifying a fire factor, a resistance is connected between the phase conductor and ground (instead of the term resistance, the terms load and resistor can be used that carry the same semantic load), which simulates damage to the insulation of electrical equipment, followed by a tripping device that responds damage to insulation.

The connection of a resistance simulating damage to the insulation of electrical equipment can be initiated from at least one fire detector included in the electrical circuit of the electrical installation, at the same time identifying the fire factor and providing a signal for the identification of the fire factor. In another case, the connection of a resistance simulating insulation damage to electrical equipment can be initiated from an optical sensor or an audio sensor. In the case of using an optical sensor, a signal for identifying a fire factor will be generated by at least one light signaling device connected to at least one receiving and control device that responds to the signal of at least one fire detector, or connected to at least one self-contained fire detector identifying a fire factor. In the case of using a sound detector, a signal for identifying a fire factor will be generated by at least one sound annunciator connected to at least one fire alarm control panel that responds to the signal of at least one fire detector, or connected to at least one self-contained fire detector identifying a fire factor. In addition to these cases, the connection of a resistance simulating damage to the insulation of electrical equipment can be initiated simultaneously from an optical sensor and a fire detector included in the electrical circuit of the electrical installation; simultaneously from the sound sensor and the fire detector included in the electrical circuit of the electrical installation; simultaneously from the optical sensor and the sound sensor, or simultaneously from the optical sensor, the sound sensor, and the fire detector included in the electrical circuit of the electrical installation.

The implementation of the proposed method is illustrated by diagrams.

Figure 1 - diagram of the equipment with the initiation of the connection of resistance from a fire detector included in the electrical circuit.

Figure 2 - diagram of the equipment with the initiation of the connection of resistance from the optical sensor.

Figure 3 - diagram of the equipment with the initiation of the connection of resistance from the sound sensor.

The proposed method is as follows.

The electrical installation (EU) is connected to a switchboard device (Щ1) equipped with a residual current device (RCD), which provides emergency shutdown of the electrical installation (EU) in the event of a fire. To identify fire factors (flame, smoke, temperature rise, changes in the chemical composition of air), the electrical installation (EU) and / or the room in which it is located can be equipped with a fire detector (FI), included in the electrical circuit of the electrical installation, with a fire detector system connected to the device by the control panel of the fireman (PPKP), an autonomous fire detector (IPA). The listed sensors can be used individually or together in any preferred combination. To generate a signal for identifying a fire factor, a fire detector (FI) included in the electrical circuit of an electrical installation, light signaling means (CC), an audible warning device (SOS), or a combination of the above means can be used.

To initiate the connection between the phase conductor L and ground PE of the resistance R1, which simulates insulation damage, and to initiate the operation of the residual current device (RCD) of the electrical installation (EU), a monitoring tool that receives a fire identification signal is used. As such means, a fire detector (FI) included in the electrical circuit of an electrical installation, an optical sensor (OD) that responds to a light signaling device (CC), an audio sensor (ZD) that responds to a sound annunciator (ZO), or a combination of the listed controls. Accordingly, the diagrams show examples of equipment configuration with fire warning devices.

The complete set of electrical installation (EU) fire detector (PI), included in the electrical circuit of the electrical installation (figure 1); complete set of electrical installation (EU) with an optical sensor (OD), a light signaling device (CC), a fire alarm control panel (PPC) (Fig. 2); complete set of electrical installation (EU) with sound sensor (ZD), sound annunciator (ZO), self-contained fire detector (IPA).

When identifying a factor or several factors of fire with fire detectors (PI, PI controlling the control panel, IPA) of various types, a signal is generated to identify the fire factor with the means or means of control (fire detector (PI) included in the electrical circuit, optical (OD) or sound ( ZD) sensor), which connect the resistance R1, simulating damage to the insulation of electrical equipment, between the phase conductor PE and ground L. Connecting the resistance R1, in turn, initiates the operation of the protective off device Evaluation (RCD) of the shield device (Щ1), reacting to insulation damage. Thus, the electrical installation is turned off before the fact of direct damage to the insulation, which prevents the development of a fire in a working electrical installation and facilitates fire fighting.

Thus, the proposed invention provides a more reliable and high-quality fire prevention.

Claims (12)

1. A method for preventing the development of a fire in an electrical installation includes identifying at least one fire factor, generating a signal for identifying a fire factor with at least one means of control, initiating the action of fire fighting equipment, characterized in that when the means for determining the identification signal is determined by the monitoring means a fire factor between the phase conductor and ground, connect a resistance simulating damage to the insulation of electrical equipment, followed by the operation of the protective device o shutdown responsive to insulation damage. 2. A method of preventing the development of a fire in an electrical installation according to claim 1, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from at least one fire detector included in the electrical circuit of an electrical installation that identifies a fire factor and generates a signal identifying the factor fire. 3. A method of preventing the development of a fire in an electrical installation according to claim 1, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from an optical sensor. 4. A method for preventing the development of a fire in an electrical installation according to claim 3, characterized in that the signal for identifying a fire factor is transmitted by at least one light signaling device connected to at least one fire alarm receiving device, which is triggered by a signal, at least one fire detector. 5. A method for preventing the development of a fire in an electrical installation according to claim 3, characterized in that the fire factor identification signal is transmitted by at least one light signaling device connected to at least one self-contained fire detector identifying the fire factor. 6. A method of preventing the development of a fire in an electrical installation according to claim 1, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from an audio sensor. 7. A method for preventing the development of a fire in an electrical installation according to claim 6, characterized in that the signal for identifying the fire factor is transmitted by at least one sound annunciator connected to at least one fire alarm control panel, which is triggered by the signal, according to at least one fire detector. 8. A method for preventing the development of a fire in an electrical installation according to claim 6, characterized in that the fire factor identification signal is transmitted by at least one sound annunciator connected to at least one self-contained fire detector identifying the fire factor. 9. A method of preventing the development of a fire of an electrical installation according to any one of claims 1 to 5, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from an optical sensor and a fire detector included in the electrical circuit of the electrical installation. 10. A method of preventing the development of a fire of an electrical installation according to any one of claims 1, 2, 6-8, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from an audio sensor and a fire detector included in the electrical circuit of the electrical installation. 11. A method of preventing the development of a fire in an electrical installation according to any one of claims 3 to 8, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from an optical sensor and an audio sensor. 12. A method of preventing the development of a fire of an electrical installation according to any one of claims 1 to 8, characterized in that the connection of a resistance simulating damage to the insulation of electrical equipment is initiated from an optical sensor, an audio sensor, and a fire detector included in the electrical circuit of the electrical installation.

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