SU1431780A1 - Apparatus for controlling fire-fighting system - Google Patents

Abstract

The invention relates to fire fighting equipment, in particular to means of controlling fire extinguishing systems. The aim of the invention is to increase the fire extinguishing efficiency by controlling the supply of extinguishing agent. H.-i burning nodvpzhpy composition of the vehicle, located in a dead-end topps., Served from the source 10 fire extinguishing all-nest - Nene. After filling the tunnel with foam, the electrical contact sensor 1 is triggered, which stops the supply of foam and activates the photoelectric sensor 5. The destruction of the foam under the action of a residual fire source leads to the activation of the photoelectric sensor 5 and the resumption of the supply of foam. After complete destruction of the fire source, the time of disintegration of the foam will exceed the set delay time of the program-time unit 4, which disconnects the power circuit from the device. 3 il. S

Description

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The invention relates to fire fighting equipment, in particular to fire control systems for fire extinguishing systems.

The aim of the invention is to achieve a ()) feasibility of 110% at the expense of VH- |) av; 1 with the supply of a fire extinguishing agent.

FIG. 1 shows a dead-end tunnel in which the supply of fire extinguishing agent is initiated; in fig. 2 - function,. 1 on device s; in fig. 3 11prinpi1aa./1ppa electrical device diagram.

The device contains an electrocontact sensor 1, a fixed switch 2, a first key circuit. 3, pr () d) a.1 multi-element unit 4, a photoelectric sensor 5, a threshold element 6, a second key circuit 7, a controllable switch 8 power chains, .church-start valve 9, source 10 fireplug1ap | of its substance. FIG. Figure 1 shows mountain rolling stock 11, dead-end tunnel 12, orneTyHianiec april nena 13.

Electrocontact 1 and 5 photoelectric sensors are installed in the upper part of the ton; 1 12 and source 10 orneTyniainero BCHiecTBa in the end of the tunnel.

The source 10 of the extinguishing agent non-generator is connected to the outlet of the porn-start valve 9. The output of the controlled switch 8 of the power circuit through the first inputs of the nerve 3 and the second 7 key circuits is connected to the inlet of the starting and starting valve. Electrocontact sensor I is connected to the input of fixed switch 2, the first output of which is connected to the second () house of the nerve circuit of the 4th circuit, and its second output to the input of the photoelectric sensor 5 and the first input of the program-1 belt unit 4. Output Photoelectric sensor 5 is connected to the input of the threshold element 6, the first output of which is connected to the 1st input of the second key circuit 7, and its second output is connected to the second input of the software-time unit 4. The output of the latter is connected to the input of the controlled switch 8 of the power circuit pi

The device works as follows

The first rolling stock 1 is supplied to a dead-end tunnel 12. After connecting the control switch 8 to the power circuit (not shown), the power supply through the first key circuit 3 is supplied to the shut-off valve 9, which is triggered by supplying the frother solution and air into the foam generator 10. The latter directs the flow of extinguishing agent (foam) into the combustion zone of the tunnel 12, which is rapidly destroyed under the influence of high temperatures. After TOI-O, as a fire, it is partially extinguished and the temperature in the combustion zone drops, the front of the foam 13 reaches the electrical contact sensor I, which ensures the operation of the fixed switch 2. At this m.

with nepBui o. i; i iiepe: -.-: K) 4aTi jiH 2 vyklyuchaet first kuyuchevuyu scheme 3, which leads to the closure of the boot-but-start () B () g () of the valve 9 p termination of Chines and tons; 1 12. At the same time, eni Ha.i from the second output is not -k; 1K) chatel 2 includes (kgg. spectrically sensor 5 n program-timed 6; ioK 4. If there are no in the zone photoelectric sensor it does not give control sigpal. E destruction is not affected by

0 residual source of fire leads to the appearance of a signal at the photoe output; 1 sensor of sensor 5, the value of which is determined by the threshold of the threshold element 6. The signal from the first output of the threshold element 6 enters the second input of the second key circuit, which ensures its inclusion . power supply to the start-up valve 9. The foam generator 10 is resumed; 1 there is a supply of fuel in the topp; | ь 12. Sigpal from the second Bbixo, ja of the threshold element 6 enters

Q to the second input of the program-time block 4, stop the time countdown and set it to its initial state.

When the tonne.h 12 is filled with photo foam; the electric sensor is turned off, which causes the supply to be stopped.

B After no; iHOi-o destruction of the fire source, the time of foam foam destruction will exceed the set iiOB.; IeHHoe delay time of the program-time block 4, the signal from the output of which enters the input of the adjustable H | to otkoyucheniyu power circuit from the device.

Principle electrical circuit

The device works in the following way.

 In the initial state, pI contacts EC 1

electrocontact 1 sensor pa3OMKtiyTi) i,

li) ezu; 1ttate something katuy1ka pe; ie K1 otk.pu- chip from the source of 1tipi. In contact, the ashes between the contactors EK, 1 through the katungku of the relay K1 begins to flow current. This causes the switching of the contacts of the relay K1 from the initial state pi (Fig. 3) to the state when

0 which closed contacts 2 and 3 of this oh relay. When this happens next; Disconnection of contacts 1 and 2 of relay K1 leads to de-energization of the relay coil, which causes opening of contacts 2 and 3 of relay K5. In this case, the relay switch is disconnected from the power supply unit hr and the contacts 1 3 of this relay are closed. As a result, the shut-off device is disconnected from the power circuit, since the contact 1 1 of the CI relay is also open at this time. (., tds) vat.1 / 11O, peg filing

is terminated.

At the same time, the contact closure 2 and 3 /, which is K1 and | 7, leads to the connection to the power supply cat. ie KZ and K4 and electric jiaMiibi glowing HI ,. In,: to connect the source to the power source of the power supply of the short-circuit relay, eri switches contacts and contacts 1 and 2 are 1 o;: - /, e opens and the contact; 2 and 3 are closed. P | 1And this contacts EK1 a / (k- | rokgo gakktno 4)

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iggknka otk. 1K) chuck) T (, - from the circuit, and the coil P1 K1 is connected to a power source and a new circuit is black.

Thus, KOH iaKroB 2 and 3 D1 K1 are self-locking in a closed state until the end of operation of the device, regardless of the signals from the unit) window-to-sensor sensor.

Turning on the HL1I incandescent lamp turns on () 11tro; 1 the photoelectric sensor, which at this moment, like the electrocontact sensor, is immersed in the yen (Fig. 1). The light hue from the lamp HL1 to the photoresistor R1 is significant) But weakened, therefore, the contacts of the relay K2 are in the state shown in FIG. 3, i.e. contacts I and 2 are closed, and contacts 2 and 3 are open. When the foam settles and frees up the space between the M1.1 and the photoresistor R. The intensity of the latter increases significantly and, consequently, its resistivity sharply decreases, which leads to an increase in negative voltage at the base of the G1 transistor. The current through granzistor V T1 increases n otrip.ate. 1n1 th potential on his mammal, and, consequently, on the base of the transistor v T2, is reduced. The transistor V T2 is locked, the coil of the relay K2 is de-energized, therefore, the contacts of the relay K2 are switched, I. e. Contacts 2 and 3 are closed, and 1 and 2) are closed. When the Sveg beam overlaps, the reverse process takes place and the contacts |) barely K2 switch back to the initial one (Fig. 3).

Potentiometer R3 adjusts the threshold at which the K2 relay switches.

11dk: 1K) to the source of 1H1 tani katun - K1 nme K4, but not only when the KoirrKTOH 2 n 3 is closed) e.-ie K1, leads to the closure of (1 contacts 2 and 3 K4 relays, which remain in this state until the device ends because the contacts 2 and. of the relay K1 are fixed in a closed m state.

This leads to the fact that a katun1ka of a time of KB is connected to a power source, since at this moment the photoelectric sensor is immersed in yen, and therefore the contacts and 2 relays K2 are closed. Connecting a katun1 relay at the | X - meni KN to a power source causes the time relay to start counting the switching time of its contacts. before the expiration of the pre-set time for the non-rectified cable;:. contacts of the relay KB nen settles in rezu.1'- | a. Failure 1Pi and photoresistor RI propose1) illuminated by so much that it will be: the threshold set with the nominal of resistor R3, and therefore. 1n (h, but the opening of contacts 1 and 2 of relay K2 and the closing of contacts 2 and 3 of this relay will occur, then the time relay KB of the relay will open from the power source. This leads to the fact that the time delay is reset, and c .ic0

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Dovat, 1H (), not IIJIOHCXO / UIT. urination kongaktov pe. ie K (i.

At the same time, the closure of cat acts 2 and 3 of the relay K2 leads to the nodes, -1Uche1P u to the power supply katunn and hme K1 1. therefore, its contacts 1 and 2 are closed. The result of the test on the cat pe. ie To 10, nigapie is supplied, which leads to the closure of its KoinaK-tov 1 3, and the core-nuskovskiy installation | X) scool () CHOiui is scored, it pushes for power hardening. On the 11th of a month, he begins to start with the tonn.ch and again the HpocTiiaHCTBo of the horizon with the source of light and the source of light P. 1 does not cover it. Eu 1riodig to irek.iocheyu contacts re. K-K2, while KOHiaKi bi 2 and 3 are opened, and the end 1-act1) 1 1 and 2 {nme K2 is replaced.

Break of contacts 2 and 3 pe. Ie K2 leads n to the nite igogee to razm anin) konraKToii 1 3 pe. ie K 10 and, p. 1, for reference n (X 1 achi foam.

Zam1) 1kanie KOiiraKTOB 1 and 2 K2 n) and leads to VK. 1uchenik) on the reference BJICMCHH perepezhdeniya, 1K) of the pe. ie .MeiHi Kb. This mode of operation (in the case of disabling a non-generator). 1 zheags up to those holes, until os (mani iiein i (in the final result, the time of pereocings of pe contacts, i.e. K2) is not iipeiujcHr iqieMH delays, 1K) of kongak 1 () in pe. ie time kf).

When Hponcxd. UiT is H) European time, kongakts 2 and 3 pe.ie c) Kf pa ,. M1) 1 c. ie.iOB.i Fe. ibHo. o l.power: the power supply of the kagushka p (I K7 and pins 2 and 3 are closed, and Kongakgy 1 and 2 are closed) 1s.

Disconnection of copgacks 1 and 2 of K7 leads to the disconnection of the ng source of the source of any one ani kun1ki pe. ie K, and with. To Dova I e. ibiio. i unlocking his congon gon i .3, which enters the end of the drive from the power network, lloc.ie -lchio vk.pochiv device can only opera) nos.le about the management of certain non-rectification.

The closure of contact 2 and L pe.ie K7 iipn leads to a fire j. pinic CKoii ..: naka. Piani P1.2. signal i1.) 1cei after termination iroshch ha.

The unit d. Un | 1a1. 1 cHcreMoii

fire extinguishing agent containing a source of oi HC Tyniaiuero substances iodk / pochennyy ly to ly

i-i; i; ii; ai: a. nrogrammpch temporarily b. () k. .yi Ichichchich. . with

Tse. 1, K) IOB): ie | iini ef (| NK MNSHN M :. (.but 1; 1Д1. E.) Ok () || .1 i; i; u. U -ju KI juiHeCK ii sensor Ha .liiMi-li 0 ie l iH: U, i m

va, 1p. now P (.Ь c -; ioiiiiii ngnn.; IBe klk) cm. (j), M k. Source i i noix.M j K vii i. ::: iii v iox B) ixo. i u11ra LA (m): n isbii-, ig. i .. (.. K pt-;..,:.,;,; n (i ;. K. () v XOM ... / i. ,, ,, I:,: ..;: vill

starting valve, -i.-ieK-rpoKOHTaKTHfjift sensor with -one with input fixed | -o switch, the first output of which is connected to the second input of the first key circuit, and ei o the second output - to the input of the photoelectric sensor and the first input of the software-time unit , the output of the photoelectric sensor is connected to the input of the threshold element, the first output of which is connected to the second input of the second key circuit, and its second output is connected to the second input of the software-time b.; 1oka, whose output is connected to the input go power switch Exalt th.

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Claims (1)

Form.ία invented A device for controlling a fire extinguishing system, containing a source of extinguishing agent, connected to the outlet ι \ for a short time in the valve программ'ο, a program-time unit distinguishing! · />Eat>. what. in order to enhance the effect of ιιββογί and. it contains an electrocontact and power-electric sensor for the presence of a fire extinguishing agent, a maneuverable power-pen switch, two key circuits, are fixed in a Persian key and a punched UH-Mciii. :;: w this exit control, in'mo 'o turn off ¹ ', -. l ιττchains through kindly lice _: ,,, η ,,,. key circuits, start-up valve, the contact switch is connected to the input of the fixed switch, the first output of which is connected to the second input of the first key circuit, and its second output is connected to the input of the photoelectric sensor and the first input of the program-time unit, photoelectric output The sensor is connected to the input of the threshold element, the first output of which is connected to the second input of the second key circuit, and its second output is connected to the second _s input of the program-time block, the output of which is connected to the control input power circuit breaker.