RU2001647C1 - Fire extinguishing compound - Google Patents

Abstract

The use of bottom fire extinguishing fires. Summary of the invention the composition contains, wt% epoxy smop 10.0-14.5. potassium perchlorate 2 - 25. isomethyl tetrahydrophthalic anhydride 12 - 15. carbon peroxide or dye 0.001 - 0.5. phoricinate 0.01-0.5; potassium nitrate the rest The composition allows to increase fire extinguishing efficiency and eliminate toxic combustion products of composition 1 table

Description

h. leiuto relates to compositions

i,. l, i whose tyranny is

i m extinguishing properties with one -., spraying with others

 i inurui products of combustion.

  vi VTBe of the prototype of the invention is-, o, - -G}., | hr is more closely related to the use of UII.IMHM / components and the recommended and,. In the manufacture of the proposed GOST containing as a binder thni inn, th resin, as an oxidizing agent

n ,,) ;, hali and fire extinguishing halogen-1 h., t prdinich and recyclable

  , -1, i or compression.

i. in f tPots of the indicated composition-g,. h p spruduyushchy suppressant and, yogsis. holding light- and m (oh r grdniya provides half-I CR with ChRG about PSP, 1ren. m ir l i i or nr1 drying composites, v. IT 11, g-t, -) of the currents defined by their iir ( .we: i JPHM

-. . more efficient / effective., i- L main operation of its compound)

-II-L x urnzo l, hexabromobenzene. i. . , kh 01 non-extinguishing aerosol toxic m mn m cohNE1 is toxic not only in

i. , -th ltchmin (gossy) but also with

m, or storage, like everything else i i i i i: kznsodgrzhpi, other components / iM whether CK / ijHiui h sublimation at

-,. i h, i i oMn pjiypi and heating, have

 shrtsi. pressure above Cree .i, mg of which requires sealing of products; iiui

iii-jKjijf.fjoiKH approved burning com- j. There are severe restrictions when tiope connections used in the composition of memory cards.

, i, r. the invention is to increase the i i and the best efficiency and the exclusion of lOfCiiMHbix products (

LOLlt B (

In the background "1, the goal is reached by j i. IL.HLI thermally dispersible and toxic - IIL, npuiHUMCCKiix compound on an additional oxidizing agent such as potassium nitrate; lerod or dye and c1, lforncinate.

Add to the composition of potassium nitrate with one hour, an instant increase in the proportion of oxidize. .- and goat begged to receive in products

costs of formulations of azrosol ich new com M..IUH k; 0 KOH,. which, in combination with 1.

I S1. The usefulness of the extinguishing agent composition and the OP h soak the exclusion of toxic organic halogen-containing products and compounds resulting from their decomposition from combustion products.

A decrease in the content of KSS oxidizing agents in the mixture.} Less than 2 wt.% Leads to a loss in the ability of the products to burn uniformly and stably. A similar thing is observed with its increase in the composition of more than 25

wt.% see table). It has been experimentally shown that an increase in binder of more than 35 wt.% Is impractical for any ratios of the oxidizing agents due to the low burning stability and irreproducibility of the results. A decrease in binder of less than 18 wt.% Is not possible due to technological considerations, since such a mixture is difficult to mix and form products from it using the free casting method

industrial equipment.

As the hardener in the composition, polyethylene polyamine (cold curing) and isomethyl tetra-hydrofleptic anhydride (curing with

temperature up to 80 ° С). In the first case, the samples are cured within 1-2 hours, in the second - 7-10 days. The technological characteristics of such samples are shown in the table. Use specified

hardeners also helps to increase fire extinguishing efficiency, providing an adequate level of strength of the composition.

Introduction to the composition of carbon (or dye), sulforicinate determine the possibility of mixing the compositions and forming from them products of various sizes and shapes by free-casting or injection molding, which helps to achieve

necessary for each specific application of the burning rate, providing the level of fire extinguishing efficiency incorporated in the composition.

The composition and prototype burn at atmospheric pressure. Examples 1 and 2 show the technology for preparing samples for specific tests and deliveries as charges to fire extinguishers.

590 / G9G g of a binder (epoxy resin and 1/4 methyltetrahydrophthalic anhydride in a ratio of 1/1) is loaded into an SIU mixer (example 1 / example 2), stirred for 30 min at 20 ° С with vacuum, after which CMOS 1200 / is added 1300 g in two portions with stirring for 10 minutes. then 200/200 g of KC 104 is introduced. With the last portion of KCI04, a mixture of carbon and sulforicinate is introduced. 0 1 / 0.8 g. The composition is stirred for 1 hour for the last 20 minutes under vacuum. The finished mass is poured into a mold of 90 / 0-150 mm. in which the products are cured for 7-10 days at 80 ° C. After extruding the cured workpieces, they are milled to the samples required for testing or to samples used in generators

An analysis of the results shows that

the composition exceeds the prototype in fire extinguishing efficiency,

the introduction of CMOs with an increase in the proportion of oxidizing agents makes it possible to eliminate toxic organic halogen-containing components and products of their destruction in the combustion products, leading to an increase in “20 KgCO3 in the gas phase, which also increases the fire extinguishing efficiency of the compositions

A significant increase in the extinguishing efficiency of the compositions can significantly reduce the weight of the compositions needed to eliminate the fire, and as a result, the weight of the entire fire extinguishing system Weight

systems are especially important for mobile complexes and any vehicles

(56) U.S. Patent No. 3,972,820 CL A 62 C 1/00, publ. 1973

Khimi (eskiy squad may} pp

331 spruce

Hexachrorchmn

NIrat LPI

Perchlorate Kapi

ZPOKGIDNNCH I MPLa

IEOMRILTCH N zgi l porf ta

anhydrite Angle ° ROD or krdgntrp

With lriyintcht

Minimum 1 value1

ogchetushashchri he4 ° NTR, e (lichskih x-lorproisoisodium, etc.

Duma of their dastre, 1 g.

nor KCI i K /) Coefficient rdgte THREE inn

; with RL Dynamic in if11 f

Poise

Time / hr five at 2 h

pr zzatg pi

fesshhorchttn

Nitrate CCC

Perhlprtt "

Epoxy Hatch

IZOmrti1Tetr1gid (u ttpop (.

Uperod anhydride or RT t-TOTi

With pforiiimlt

Minimum

fire extinguishing gotsc ntr-j i 1

g / h1

Tohgichnost YOGSG ChMIR t gamichss them x pnnnniFjn-- we

and prod uch inn Content e p (.

Rani G (I t.f From U O

Coefficient pin, m and

p em

20SS

VRRMYA UNELICHRNICH (UJiTtri “

2 P | 1

fifty

 P

F 13, 1

About ri 1 1

1 About

I /

is o

eleven

12 S O 1 and O

, t 10

02 1 VJ6

j

72001617g

Claims (1)

The claims potassium in the following ratio COMPOSITION FOR EXTINGUISHING FIRES, nents, wt.%: including epoxy resin and perchlo-epoxy resin 10-14,5 potassium chloride, characterized in that, for the purpose of potassium perchlorate 2 - 25 fire extinguishing efficiency, Isomethyl tetrahydrophthale elimination of toxic products of burning anhydride 12 - 15 composition, it additionally contains iso-Carbon or dye 0.001 -0.5 methyltetrahydrophthalic anhydride, carbon-sulforicinate 0.01 - 0.5 genus or dye, sulforicinate, nitrate .. "Potassium nitrate Else