CN208031695U - The structure-improved of fire extinguisher bomb - Google Patents

Abstract

The utility model provides a kind of structure-improved of fire extinguisher bomb, includes the shell of one one-tenth geometry or profile；Shell has defined internal chamber, to fill fire extinguishing material；And at least the first lead connects combined blasting gunpowder by chamber.Substantially, the first lead defines the firstth area, connects the middle area in the firstth area and connects the secondth area of middle area.Firstth area protrudes from outside shell, so that middle area is configured along the profile of shell and extends；And, one second lead is set to be configured along case outlines, at least regional area touches the first lead, and make the first lead, the second lead respectively/collectively form structure kenel around shell, to improve the application range of fire extinguisher bomb, the effects that explosion efficiency and explosion start are more timely.

Description

The structure-improved of fire extinguisher bomb

Technical field

The utility model is related to a kind of structure-improveds being used for fire extinguisher bomb or its similar extinguisher；Particularly relate to one kind Cladding fire extinguishing material shell and lead configuration, come improve extinguisher application range and explosion efficiency new structure.

Background technology

General fire plant is related to many limiting factors, such as the configuration of system, the culvert of installation cost, installation region Lid range (or installation blind area), the supply of water, the repair etc. of pump and pipeline；In order to compensate for or reduce these restrictive conditions, pressurize Chemical fire-fighting equipment (or fire extinguisher) system used extensively and largely.But these fire extinguishers because allow pressurization factor and With comparable weight (about 3~4 kilograms), for general female or child when urgent using or to begin a new line be prodigious negative Load.

In particular, the operation system of fire extinguisher needs by training and practice；And the guiding of the injection stream of chemical agent is It needs to judge and imagine in advance, therefore the user in the scene of a fire is because of cigarette, heat, nervous, panic, and cause to judge insufficient or nothing Method reacts rapidly appropriate and uses fire extinguisher, all substantially reduces the effectiveness of fire extinguisher.

In order to improve above-mentioned situation, existing skill has revealed that a kind of application spheroid loads fire extinguishing material or powder, And configure lead and blasting powder etc., it is assembled into the means of a fire extinguishing ball jointly.For example, TaiWan, China the 93200211st " fire extinguishing ball ", US6796382B2 " FIRE EXTINGUISING BALL " Patent Case etc., is to provide typical embodiment.

This kind of fire extinguishing ball includes a shell filled with fire extinguishing material, and the trepanning at shell both ends is worn for two sections of leads respectively Enter in shell, then group unification is filled with the plastic pipe (or detonator) of blasting powder.It applies at the scene of a fire, when lead is by the scene of a fire Flare light after, activate the gunpowder explosion of plastic pipe, so that the fire extinguishing material in shell is dispersed and release, to stamp out the flames.They Be easy with operation, can directly be thrown into the scene of a fire, it is light-weight, be easy install, maintain, being configurable on Anywhere or position etc. is excellent Point.

One is in the project of application aspect in relation to this kind of fire extinguishing ball or fire extinguisher bomb, the lead-line configuration structure of this kind of fire extinguishing ball In certain occasions in use, not contacting scene of a fire flare immediately and generating the situation of the blasting powder that ignites；For example, the fire in the scene of a fire (or first time) only touches the shell for occupying larger volume or area to seedling at first.Therefore, lead how is improved by scene of a fire fire The probability that seedling is lighted makes fire extinguishing material disperse and stamps out the flames in time in favor of accelerating lead to light blasting powder, prevents fire as quickly as possible Field expands, and reaches the effects that providing ideal extinguishing effect, must especially be considered.

For representative, these references show related fire extinguishing ball (or fire extinguisher bomb), lead and blasting powder phase Close the design skill of composite structure；If the composite structure of overline design consideration fire extinguishing ball and lead, its construction is set to be different from existing The person of having by its changeable use kenel, and is different from old law；Substantially, its application range can also be increased.And these projects The shown or announcement in above-mentioned reference.

Utility model content

Then, the main purpose of the utility model is to provide a kind of structure-improved of fire extinguisher bomb, improves lead by point The probability of combustion provides ideal extinguishing effect, the effects that explosion efficiency and explosion start are more timely.

To achieve the above object, the technical solution adopted in the utility model is：

A kind of structure-improved of fire extinguisher bomb, it is characterized in that including：

One at geometric form profile shell, shell has defined internal chamber, to load fire extinguishing material；

By at least the first lead of chamber, the first lead defines the firstth area of combined blasting gunpowder, the firstth area of connection Middle area and connection middle area the secondth area；Firstth area can be protruded from from a hole of shell outside shell, make middle area edge The profile configuration of shell extends；And

Second lead, definition have the firstth area, connect the middle area in the firstth area and connect the secondth area of middle area；Second lead It is configured along case outlines, at least regional area touches the first lead, and the first lead, the second lead is made to constitute the knot around shell Configuration state.

Wherein：The shell is equipped with filling hole, and loads fire extinguishing material；Shell forms sphere structure and flat case structure One of；

Shell is equipped with the first conduit, the second conduit, accommodates the first lead, the second lead respectively.

Wherein：First lead forms the structure of at least 150 degree of winding shell, and the second lead forms winding shell at least 150 degree of structure, and collectively form the kenel of at least 600 degree of winding shell；

First lead, the second lead have regional area to form intersection kenel.

Wherein：First lead is divided into the first main lead, the first secondary lead, and the second lead is divided into the second main lead, second Secondary lead；The first main lead, the first secondary lead, the second main lead, the second secondary lead be respectively provided with the firstth area, middle area and Secondth area；

Hole includes the first main aperture hole, the first secondary orifices hole, is arranged respectively in shell relative position；

Firstth area of the first main lead is protruded from the first main aperture hole, and the middle area of the first main lead is made to be configured along case outlines Extend, around being located on shell at least 150 degree；Firstth area of the first secondary lead is protruded from the first secondary orifices hole, makes the first secondary lead Middle area is configured along case outlines to be extended, around being located on shell at least 150 degree；First main lead, the first common winding of secondary lead The structure kenel of at least 300 degree of shell；

Firstth area of the second main lead connects the middle area of the first main lead, and the second main lead prolongs along case outlines configuration It stretches, around being located on shell at least 150 degree；The first secondary lead of the firstth area connection of second secondary lead, and make the second secondary lead edge Case outlines configuration extends, and around being located on shell at least 150 degree, and makes the second main lead, the second common winding shell of pair lead At least 300 degree of structure kenel.

Wherein：The hole includes the second main aperture hole, the second secondary orifices hole again；

Firstth area of the first main lead, the firstth area of the first secondary lead, the firstth area of the second main lead, the second secondary lead Firstth area is separately connected combined blasting gunpowder, and the firstth area of the first main lead, the firstth area of the first secondary lead, the second master draw Firstth area of line, the second secondary lead the firstth area pass through the first main aperture hole, the first secondary orifices hole, the second main aperture hole, second secondary respectively Hole makes the middle area of the first main lead, the middle area of the first secondary lead, the middle area of the second main lead, the second secondary lead Middle area, the secondth area of the first main lead, the secondth area of the first secondary lead, the secondth area of the second main lead, the second secondary lead Secondth area is arranged on shell.

Wherein：First lead, the second lead form interlaced winding-structure using a plural branch line, and coat anti- Damp layer.

Compared with prior art, it is had the advantage that using the utility model of above-mentioned technical proposal：

1. the shell and at least the first lead, the second lead related fit structure by overline design consideration, and it is different In existing structure, its use, operational configurations are also changed, and are different from old law.

2. in particular, the configuration structure of the shell and the first lead, the second lead, helps to improve the first lead, second The probability that lead is lighted by scene of a fire flare makes fire extinguishing material disperse and stamps out the flames in time so that blasting powder is fired in acceleration point, to the greatest extent Speed prevents the scene of a fire from expanding, and reaches the effects that providing ideal extinguishing effect.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the utility model；Depict the parts such as shell, the first lead, the second lead Structure combination situations.

Fig. 2 is a stereochemical structure decomposing schematic representation of the utility model；Depict shell, the first lead, the second lead, quick-fried The architectural scenarios of the parts such as broken gunpowder.

Fig. 3 is a schematic structural cross-sectional view of Fig. 1；Show the structure combination configuration scenario of shell and the first lead.

Fig. 4 is another schematic structural cross-sectional view of Fig. 1；Depict the structure combination configuration scenario of shell and the second lead.

Fig. 5 is the schematic structural cross-sectional view of a derivative embodiment of the utility model；Depict the first lead, the second lead Pass through chamber, the structure combination situations of combined blasting gunpowder respectively.

Fig. 6 is the planar structure schematic diagram of an embodiment of the utility model；Show the first lead (or second lead) Architectural scenarios.

Fig. 7 is the planar structure schematic diagram of another embodiment of the utility model；Show that (or second draw the first lead Line) architectural scenarios.

Fig. 8 is the dimensional structure diagram of an amendment embodiment of the utility model.

Fig. 9 is the decomposition texture schematic diagram of Fig. 8.

Figure 10 is a schematic structural cross-sectional view of Fig. 8.

Reference sign：10 first leads；The first main leads of 10a；The secondary leads of 10b first；11,21 first area；12, 22 second areas；13,23 middle area；20 second leads；The second main leads of 20a；The secondary leads of 20b second；60 holes；61 first masters Hole；62 first secondary orifices holes；68 second main aperture holes；69 second secondary orifices holes；70 blasting powders；75 damp-proof layers；80 fire extinguishing materials；90 Shell；91 chambers；92 filling holes；93 first conduits；94 second conduits；X branch lines.

Specific implementation mode

Please refer to Fig.1, Fig. 2 and Fig. 3, the utility model for the structure-improved of fire extinguisher bomb include one formed geometry or The shell of profile is generally indicated with Ref. No. 90.Shell 90 could be alternatively formed the hemisphere or asymmetric of two symmetrical kenels The structure of state carrys out relative combinations, and is bonded into a whole kenel through viscose glue or adhesive tape.And to have defined one (interior for shell 90 Portion) chamber 91, to load powder or fire extinguishing material 80；For example, Fig. 1 shows that shell 90 is equipped with filling hole 92, dress is provided Fill out the mechanism of fire extinguishing material 80.

The structure that shell 90 is provided at least the first lead 10, the second lead 20 is also shown in figure；Also, the first lead 10 (and/or second leads 20) have subregion to pass through chamber 91, combined blasting gunpowder 70.Substantially, the first lead 10 defines There is the first area 11 of combined blasting gunpowder 70, connect the middle area 13 in the first area 11 and connects the second area 12 of middle area 13；The The definition of two leads 20 has the first area 21, connects the middle area 23 in the first area 21 and connects the second area 22 of middle area 23.

In the embodiment adopted, arrangement of the shell 90 according to the first lead 10 (or second lead 20) is equipped at least one A hole 60 (filling fire extinguishing material 80), to allow the first area 11 of the first lead 10 to protrude from outside shell 90, makes middle area 13 It configures and extends along the profile of shell 90；Also, the second area 12 is made optionally to touch the first area 11 (for example, imaginary line in figure The discribed situation in part), so that the first lead 10 is formed the kenel of winding shell 90 about 360 degree (or at least 300 degree).

And second lead 20 along 90 profile of shell around being located on shell 90, so that the second lead 20 is touched first and draw Line 10 makes the second lead 20 form the kenel of winding shell 90 about 360 degree (or at least 300 degree)；Or make the first lead 10, Two leads 20 have regional area to form the kenel intersected or intersected, and establish the first lead 10, the second lead 20 difference/common structure Cyclization provides ideal extinguishing effect, explosion efficiency and quick-fried around the structure kenel of shell 90 to improve the probability that lead is ignited The effects that broken start is more timely.

In the embodiment adopted, which is provided at least the first conduit 93, the second conduit 94, respectively receiving or auxiliary It helps and positions first lead 10, the second lead 20.

In a feasible embodiment, it is assumed that the first lead 10 divides into the first main lead 10a, the first secondary lead 10b, Second lead 20 divides into the second main lead 20a, the second secondary lead 20b.And above-mentioned hole 60 is at least divided into the first main aperture Hole 61, the first secondary orifices hole 62, and be arranged respectively in 90 relative position of shell.

The first area 11 that the first main lead 10a is depicted in figure is protruded from the first main aperture hole 61, makes in-between area 13 along shell The configuration of 90 profile of body extends, around being located on shell 90 the about structure kenel of 180 degree (or at least 150 degree)；For example, Fig. 3 is described Situation.The first area 11 of first secondary lead 10b is protruded from the first secondary orifices hole 62, and alternative touches or do not touch the first master and draws The second area 12 of line 10a；Also, make the middle area 13 of the first secondary lead 10b configure along 90 profile of shell to extend, around being located at shell The structure kenel of upper about 180 degree (or at least 150 degree) makes first the secondth area of secondary lead 12 approach or arrive at the first main aperture hole 61 Position, and selectivity touches or does not touch the first area 11 of the first main lead 10a；Make the first main lead 10a, the first secondary lead The structure kenel of the common winding shells of 10b 90 about 360 degree (or at least 300 degree)；For example, the discribed situations of Fig. 3.

Fig. 4 depicts the middle area 13 of the first main lead 10a of the first area 21 connection of the second main lead 20a, makes the second master Lead 20a is configured along 90 profile of shell to be extended, and around the about structure kenel of 180 degree (or at least 150 degree) is located on shell 90, makes it Second area 22 is close or connects the first pair lead 10b (or in which area 13).The first area 21 connection first of second secondary lead 20b Secondary lead 10b, and make the second pair lead 20b be configured along 90 profile of shell and extend, around being located on shell 90 about, 180 degree is (or extremely Few 150 degree) structure kenel, so that second the secondth area of secondary lead 22 is approached or touch the kenel of the first main lead 10a, and make second The structure kenel of main lead 20a, the second secondary lead common winding shells of 20b 90 about 360 degree (or at least 300 degree).

Therefore, the first lead 10 (or the first main lead 10a, first pair lead 10b) and the second lead 20 (or the second master Lead 20a, the second pair lead 20b) collectively form the structure kenel of 720 degree of (or at least 600 degree) winding shells 90.

Referring to FIG. 5, disclosing a derivative embodiment.Hole 60 is shown in figure and includes the second main aperture hole 68, the second secondary orifices hole 69；First the 11, first pair the firstth areas lead 10b 11 of main the firstth areas lead 10a, the second main lead 20a One the 21, second pair the firstth areas lead 20b 21 of area is separately connected combined blasting gunpowder 70, and the first area 11,21 passes through respectively One main aperture hole 61, the first secondary orifices hole 62, the second main aperture hole 68, the second secondary orifices hole 69 make the 13,23, second area of middle area 12,22 set Set the architectural scenarios on shell 90.

Fig. 6, Fig. 7 are please referred to, which can apply a plurality of branch line of odd number or even number X-shaped coats damp-proof layer 75 at interlaced winding or the kenel of braiding；Moistureproof paper may be selected in damp-proof layer 75 or its is similar Object is constituted.

Fig. 8, Fig. 9 and Figure 10 are please referred to, in a modified embodiment, shell 90 forms a flat box body knot Structure.And shell 90 be equipped with the first conduit 93, the second conduit 94, respectively receiving or auxiliary positioning the first lead 10, the second lead 20.Shell 90 is also equipped with a plurality of holes 60, to allow the first lead 10 (and/or second lead 20) to be protruded from hole 60, It configures and extends along 90 profile of shell, the second lead 20 of cooperation collectively forms the structure kenel of 720 degree of winding shells 90.

It must be illustrated, the embodiment that Fig. 8, Fig. 9 and Figure 10 describe, being conducive to it, to be fixedly attached to oil tank of vehicle attached Effect inside near field or bonnet.It therefore, will when external force collision or other factors cause fuel tank or engine catching fire Can in time explosion dissipate release fire extinguishing material 80, by spark extinguishing；It burns as existing moment forms big fire, danger is caused to personnel Situation will be preferably minimized as far as possible.In other words, the structure kenel design of the utility model may be applied not only in general field It closes；And, it is possible to provide the safety as vehicle or means of transport is equipped with, and provides the effect of timely explosion fire extinguishing；Relatively, Improve the application range of fire extinguisher bomb.

It is apprehensible to be, so that shell 90 is configured third lead, the 4th lead ... according to above-described embodiment, will be feasible Embodiment.

For representative, the structure-improved of this fire extinguisher bomb is under conditions of meeting easy to operate, for old law, Have the advantages that it is following consider and：

1. the shell 90 and at least the first lead 10, the second lead 20 related fit structure by overline design consideration, And it is different from existing structure, its use, operational configurations are also changed, and it is different from old law.

2. in particular, the configuration structure of the shell 90 and the first lead 10, the second lead 20, helps to improve the first lead 10, the probability that the second lead 20 is lighted by scene of a fire flare makes fire extinguishing material 80 disperse in time so that blasting powder is fired in acceleration point It stamps out the flames, prevents the scene of a fire from expanding as quickly as possible, reach the effects that ideal extinguishing effect is provided.

It is described above to be merely exemplary for the utility model, and not restrictive, those of ordinary skill in the art Understand, in the case where not departing from spirit and scope defined by claim, can many modifications may be made, variation or it is equivalent, but It falls within the scope of protection of the utility model.

Claims (10)

1. a kind of structure-improved of fire extinguisher bomb, it is characterized in that including：

One at geometric form profile shell, shell has defined internal chamber, to load fire extinguishing material；

By at least the first lead of chamber, the first lead defines in the firstth area of combined blasting gunpowder, the firstth area of connection Between area and connection middle area the secondth area；Firstth area can be protruded from from a hole of shell outside shell, make middle area along shell Profile configuration extend；And

Second lead, definition have the firstth area, connect the middle area in the firstth area and connect the secondth area of middle area；Second lead is along shell Body profile configures, and at least regional area touches the first lead, and the first lead, the second lead is made to constitute the structural type around shell State.

2. the structure-improved of fire extinguisher bomb according to claim 1, it is characterised in that：The shell is equipped with filling hole, and fills Fill out fire extinguishing material；Shell forms one of sphere structure and flat case structure；

Shell is equipped with the first conduit, the second conduit, accommodates the first lead, the second lead respectively.

3. the structure-improved of fire extinguisher bomb according to claim 1 or 2, it is characterised in that：First lead forms winding shell The structure that at least 150 degree of body, the second lead form the structure of at least 150 degree of winding shell, and collectively form winding shell at least 600 degree of kenel；

First lead, the second lead have regional area to form intersection kenel.

4. the structure-improved of fire extinguisher bomb according to claim 1 or 2, it is characterised in that：First lead is divided into the first master Lead, the first secondary lead, the second lead are divided into the second main lead, the second secondary lead；The first main lead, the first secondary lead, the Two main leads, the second secondary lead are respectively provided with the firstth area, middle area and the secondth area；

Hole includes the first main aperture hole, the first secondary orifices hole, is arranged respectively in shell relative position；

Firstth area of the first main lead is protruded from the first main aperture hole, and the middle area of the first main lead is made to prolong along case outlines configuration It stretches, around being located on shell at least 150 degree；Firstth area of the first secondary lead is protruded from the first secondary orifices hole, is made in the first secondary lead Between area configure and extend along case outlines, around being located on shell at least 150 degree；First main lead, the first common winding shell of secondary lead The structure kenel of at least 300 degree of body；

Firstth area of the second main lead connects the middle area of the first main lead, and the second main lead is configured along case outlines to be extended, around At least 150 degree are located on shell；The first secondary lead of the firstth area connection of second secondary lead, and make the second secondary lead along shell wheel Exterior feature configuration extends, and around being located on shell at least 150 degree, and makes the common winding shell of the second main lead, the second pair lead at least 300 The structure kenel of degree.

5. the structure-improved of fire extinguisher bomb according to claim 3, it is characterised in that：First lead is divided into the first master and draws Line, the first secondary lead, the second lead are divided into the second main lead, the second secondary lead；The first main lead, the first secondary lead, second Main lead, the second secondary lead are respectively provided with the firstth area, middle area and the secondth area；

Hole includes the first main aperture hole, the first secondary orifices hole, is arranged respectively in shell relative position；

Firstth area of the first main lead is protruded from the first main aperture hole, and the middle area of the first main lead is made to prolong along case outlines configuration It stretches, around being located on shell at least 150 degree；Firstth area of the first secondary lead is protruded from the first secondary orifices hole, is made in the first secondary lead Between area configure and extend along case outlines, around being located on shell at least 150 degree；First main lead, the first common winding shell of secondary lead The structure kenel of at least 300 degree of body；

Firstth area of the second main lead connects the middle area of the first main lead, and the second main lead is configured along case outlines to be extended, around At least 150 degree are located on shell；The first secondary lead of the firstth area connection of second secondary lead, and make the second secondary lead along shell wheel Exterior feature configuration extends, and around being located on shell at least 150 degree, and makes the common winding shell of the second main lead, the second pair lead at least 300 The structure kenel of degree.

6. the structure-improved of fire extinguisher bomb according to claim 4, it is characterised in that：The hole again include the second main aperture hole, Second secondary orifices hole；

Firstth area of the first main lead, the firstth area of the first secondary lead, the firstth area of the second main lead, the second secondary lead first Area is separately connected combined blasting gunpowder, and the firstth area of the first main lead, the firstth area of the first secondary lead, the second main lead Firstth area, the second secondary lead the firstth area respectively by the first main aperture hole, the first secondary orifices hole, the second main aperture hole, the second secondary orifices hole, Make the middle area of the first main lead, the middle area of the first secondary lead, the middle area of the second main lead, the second secondary lead centre Area, the secondth area of the first main lead, the secondth area of the first secondary lead, the secondth area of the second main lead, the second secondary lead second Area is arranged on shell.

7. the structure-improved of fire extinguisher bomb according to claim 5, it is characterised in that：The hole again include the second main aperture hole, Second secondary orifices hole；

Firstth area of the first main lead, the firstth area of the first secondary lead, the firstth area of the second main lead, the second secondary lead first Area is separately connected combined blasting gunpowder, and the firstth area of the first main lead, the firstth area of the first secondary lead, the second main lead Firstth area, the second secondary lead the firstth area respectively by the first main aperture hole, the first secondary orifices hole, the second main aperture hole, the second secondary orifices hole, Make the middle area of the first main lead, the middle area of the first secondary lead, the middle area of the second main lead, the second secondary lead centre Area, the secondth area of the first main lead, the secondth area of the first secondary lead, the secondth area of the second main lead, the second secondary lead second Area is arranged on shell.

8. the structure-improved of fire extinguisher bomb according to claim 1 or 2, it is characterised in that：First lead, the second lead make Interlaced winding-structure is formed with a plural number branch line, and coats damp-proof layer.

9. the structure-improved of fire extinguisher bomb according to claim 3, it is characterised in that：First lead, the second lead use A plural branch line forms interlaced winding-structure, and coats damp-proof layer.

10. the structure-improved of fire extinguisher bomb according to claim 4, it is characterised in that：First lead, the second lead use A plural branch line forms interlaced winding-structure, and coats damp-proof layer.