RU2110843C1 - Test bench for testing fire alarms - Google Patents

Abstract

FIELD: fire protection equipment. SUBSTANCE: fire alarm is located in housing of test bench. Heat flow to fire alarm is modulated by means of modulator which is designed as rotating overlapping disk with calibrated holes. It is driven by means of electric motor which is connected to control unit which is connected to unit which monitors disk rotation. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to fire fighting equipment.

 The closest technical solution is a test bench for researching heat fire detectors, comprising a hollow body, an electric fan, an electric heater, a heat flux equalizing unit, a temperature sensor, means for introducing a heat fire detector into the body, made in the form of a movable carriage, and a control unit, establishing the necessary level of increase in heat flow.

 The disadvantages of this stand is that it does not allow to test low-inertia thermal fire detectors due to the considerable time of introducing the detector into the hollow body using a movable carriage and the inability to provide a sufficient rate of temperature change due to the significant thermal inertia of the electric heater.

 The invention eliminates these drawbacks due to the fact that the tested thermal fire detector is constantly located in the strips of the housing, and the heat flux itself is changed using a modulator made in the form of a rotating overlapping disk with calibrated holes.

 The drawing shows the proposed stand.

 The test bench for thermal fire detectors contains a hollow body 1, an electric fan 2, an electric heater 3, a temperature sensor 4 connected to a recording device 5, a heat flow equalization unit 6, a heat flow modulator 7 in the form of an overlapping disk with calibrated holes, an electric motor 8, a recording device 9, the control unit 10 of the modulator disk electric motor, the rotation control unit of the disk 13, as well as the fan control unit 11 and the heater control unit 12.

 The test bench for thermal fire detectors works as follows.

 The tested thermal fire detector is fixed in the housing 1, then the stand is displayed on the specified thermal mode. For this, block 12 sets the required temperature, and block 11 sets the required heat flow rate. In this case, the modulator 7 completely blocks the heat flux. After that, with the help of block 10, the disk 7 is rotated at a certain speed in order to provide the necessary heat flow parameters near the heat detector that meet the test conditions. At the same time, the flow parameters and the signal of the thermal fire detector are recorded by devices 5 and 9.

 In the case of research of low-inertia thermal fire detectors, the stand works as follows.

 The test low-inertia thermal fire detector is fixed in the housing 1. Then, with the help of blocks 11 and 12, the stand is set to the specified thermal mode, while the block 10 sets a certain rotation speed of the disk 7. The heat flow temperature and the signal of the heat fire detector are recorded with devices 5 and 9.

 By changing the rotational speed of the modulator 7, as well as the configuration and location of the calibrated holes on the disk, it is possible to act on the tested thermal fire detector with test signals of various frequencies and shapes (sinusoidal, triangular, etc.) and record its response to the definition of the test signal, in including receiving the amplitude-frequency characteristics of a thermal fire detector.

 Using the invention allows to expand the functionality of the stand and improve the accuracy of determining the characteristics of the studied thermal fire detectors.

Claims (1)

 A test bench for thermal fire detectors, comprising a hollow body, an electric fan connected to the fan control unit, an electric heater connected to the heater control unit, a heat flow equalization unit, a test detector connected to the recording device, and a sensor temperature connected to another recording device, characterized in that it contains located between the node alignment of the heat flux and test heat detector modulator made in the form of a cover disk with calibrated holes, driven into rotation by an electric motor, which in turn is connected to a disk rotation control unit.