SHUTTER TEST DEVICE FOR FLAME/FIRE DETECTORS

Abstract

A shutter test device is provided for determining whether or not detectors detecting flame spectrum at UV and IR wave lengths by forming virtual flame/fire spectrum work, and estimating detection time per milliseconds, estimating the time period in which tubes explode, as well as the time period in which the fire extinguishing system works. The shutter provides or prevents delivery of light source radiations to the detector under control of the control unit. The control unit receives alarm signal generated by detectors detecting sent radiation via cable or wireless estimates response time activated as a result of alarm signal and tests working of the fire extinguishing system subject to said alarm, and the activation period, and calculates the time period of activation.

Claims

1. A test device controlling whether fire extinguishing system comprising fire extinguishing tubes and detectors detecting flame spectrum generated UV and IR wavelengths function, and for determining the time period in which they take action and comprises: an IR light source and/or a UV light source making radiation at different wavelengths that can be detected by sensors in the detectors to be tested and having flame spectrum; a shutter located in a front part of said light sources, which controls reach of radiations of light sources to detectors by opening and closing; a control unit receiving an alarm signal generated by detectors perceiving sent rays, finding out response time period of fire tubes activated as a result of alarm signal, calculating the time period in which fire extinguishing system work subject to said alarm and activation periods and controlling the shutter; a communication unit performing data exchange among the detector, fire tube and control unit; and a triggering mechanism activating/deactivating the control unit, bringing the shutter to the open/close position.

2. The test device according to claim 1, characterized by comprising: a screen located on the device box and receiving and displaying data generated by the control unit.

3. The test device according to claim 1, characterized by comprising: a glass located on the front lid and providing delivery of radiations passing therethrough to detector without dispersion.

4. The test device according to claim 3, characterized that the glass is CaF2.

5. The test device according to claim 1, characterized that the triggering mechanism is a button.

6. The test device according to claim 1, characterized in that the communication unit is wireless communication unit and/or connection cable inserted to the connection member located on device box and to detector and tube.

7. The test device according to claim 1, characterized that control unit comprises: an alarm detection and measurement circuit measuring the time period in which detector detects the radiation delivered to it from light sources and gives alarms and the time period in which the tubes activated response; and a shutter driver circuit controlling open/close position of shutter upon triggering by triggering mechanism.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0014] FIG. 1 is an exploded view of the test device of the invention.

[0015] FIG. 2 is a perspective view of the test device of the invention in mounted form.

[0016] FIG. 3 is front and profile view of test device of the invention.

[0017] The drawings are not necessarily scaled and the details not necessary for understanding the present invention might have been neglected. In addition, the components which are equivalent to a great extent at least or have equivalent functions at least have been assigned the same number.

DESCRIPTION OF PART REFERENCES

[0018] 1. Test device [0019] 2. Handle [0020] 3. Triggering mechanism [0021] 4. Screen [0022] 5. Device box [0023] 6. Connection member [0024] 7. Alarm detection and measurement circuit [0025] 8. IR light source [0026] 9. UV light source card [0027] 10. UV light source [0028] 11. Shutter [0029] 12. Shutter driver circuit [0030] 13. Front Lid [0031] 14. Glass [0032] 15. Lock

DETAILED DESCRIPTION OF THE INVENTION

[0033] In this detailed description, the preferred embodiments of the invention have been described in a manner not forming any restrictive effect and only for purpose of better understanding of the matter.

[0034] The test device (1) of the invention controls whether or not detectors detecting flame spectrum generating at UV (ultraviolet) and IR (Infrared) wavelengths work, as well as estimates the time period in which tubes become active and total system activation as a consequence thereof and comprises following components: [0035] IR and/or UV light sources making radiation at different wavelengths that can be detected by sensors in the detectors to be tested and having flame spectrum; [0036] a shutter (11) located in front part of light sources, which controls reach of radiations of light sources to detectors by opening and closing; [0037] a unit receiving alarm signal generated by detectors perceiving sent rays, determining response time period of fire tubes activated as a result of alarm signal, calculating total system (detector and tube) activation time subject to said alarm and activation periods; [0038] a triggering mechanism (3) of button etc. activating/deactivating control unit, bringing shutter (11) to open/close position.

[0039] In an embodiment of the invention, a screen (4) located on device box (5) receives data obtained in the control unit and displays to the user.

[0040] In a preferred embodiment of the invention, IR light source (8) and/or UV light source (10) is used as light source. Said light sources are located on IR light source card and UV light source card (9) and driven by said cards.

[0041] In a preferred embodiment of the invention, the control unit comprises shutter driver circuit (12) in device box (5). Triggering mechanism (3) which is a button located on preferably handle (2) controls shutter (11) by means of shutter driver circuit (12) when alerted. Lock (15) located in front section of front lid (13) fixes light sources to device box (5). The device box (5) is made from fireproof material and thus protects components provided therein against fire and external factors.

[0042] In a preferred embodiment of the invention, said control unit also comprises an alarm detection and measurement circuit (7). The circuit (7) determines the time period in which detector detects radiations transmitted from IR and UV sources (8, 10) and reaching it and gives alarm by means of signals given by wire connection and/or wireless communication unit (Wifi, Bluetooth etc.)

[0043] provided on the connection member (6).

[0044] In a preferred embodiment of the invention, connection member (6) is used as connection point providing connection of shutter test device (1) to detector and tubes in fire extinguishing system to receive data.

[0045] The alarm detection and measurement circuit (7) of the invention measures the time period in which tubes are activated upon alarm response. Activation of tubes is the discharge of gas therein in line with the received signal as a result of fire detection. The signal is transmitted to the test device (1) via cable or wireless.

[0046] Operating principle of the test device (1) is as follows: shutter driver circuit (12) is activated by triggering mechanism (3) alerted by audio or physical interaction and the shutter (1) opens and passage of IR and UV light sources (8, 10) located behind it through obstacle and preferably passed through CaF2 glass (14) and reach the detectors. Upon activation of the triggering mechanism (3), the control unit takes the shutter (11) opening time as starting point and starts to receive data from detectors and tubes where connected. These data contain the information of the time period in which the detectors response to the radiations obtained by alarm detecting and measurement circuit (7) in the control unit and sent to light sources and the response to said radiations by detectors and the time in which tubes are activated. The said data are of the capability to detect millisecond periods and calculates the time period in milliseconds in which detectors detect the radiation dispersed upon opening of shutter (11) by alarm detection and measurement circuit (7), and the time in milliseconds in which tubes are activated. By means of such calculations it is tested whether detectors run or run in the intended level, and detectors are put into maintenance or continued to be used according to data read in LCD screen (4).