CN108678515A - The explosion-proof cabin of large deformation buffer-type - Google Patents

Abstract

The present invention provides a kind of explosion-proof cabins of large deformation buffer-type, belong to structural engineering field.The present invention is provided with the Wasted-energy steel plate of multi-buffer, it can be mutually coordinated, play respective maximum effect, can substantially be dissipated the energy of blast impulse, the Wasted-energy steel plate of multi-buffer is driven to shake the impact endurance test shock in explosion-proof cabin when explosion occurs, when making to occur between Wasted-energy steel plate relative displacement with high tenacity cracking resistance damping material friction and Extrusion, generate larger damping, the Wasted-energy steel plate curved surface of multi-buffer, the design of arc can ensure that coming into full contact with friction consumes more energy, make explosion be converted to the forms such as thermal energy to the impact energy in explosion-proof cabin to dissipate, the internal lightweight Energy dissipating material being arranged in the steel plate of rectangular vent can absorb the energy of blast impulse generation, its buffering energy-consumption ability is set to be obviously improved, the insulated wall of setting, high resiliency fire retardant cushion plate can reduce explosion to personnel in explosion-proof cabin, the harm that article is brought.

Description

The explosion-proof cabin of large deformation buffer-type

Technical field

The present invention relates to preventing or reducing blast impulse to generate the protective device destroyed to structure, belong to Structural Engineering neck Domain, more particularly to a kind of explosion-proof cabin of large deformation buffer-type.

Background technology

The products such as all kinds of inflammable and explosive petrochemical industries cause huge casualties and economic damage due to explosion often It loses, is lost caused by order to control fire and explosion to the maximum extent, it is necessary to develop the good explosion-protection equipment of explosion-proof effect, especially It is in storehouse, target range, dormitory, ammunition depot, command post, garage, hangar, oil depot, equipment room, transit depot, bomb disposal institute, battlefield The products processing factory such as the military fortification base such as hospital and inspection station and all kinds of inflammable and explosive petrochemical industries, often due to quick-fried It fries and causes huge casualties and economic loss, lose, build caused by order to control fire and explosion to the maximum extent Military security explosion-protection equipment, three-dimensional fortification explosion-protection equipment, training base explosion-protection equipment, field operation material depot explosion-protection equipment, field Campsite explosion-protection equipment, dangerous goods store explosion-protection equipment, chemical plant explosion-protection equipment, oil plant explosion-protection equipment, firecracker factory explosion-protection equipment, The series engineerings such as warehouse explosion-protection equipment, military camp barracks explosion-protection equipment are very necessary.For a series of this problem, explosion-protection equipment Need cracking resistance high, protecting against shock ability is strong, can bear great surge, and resistance to blast pressure is good, and antiknock is very competent, strong Degree is high, deformability is very big, cushion performance is good, can absorb energy caused by blast impulse to greatest extent, can be to explosion Generated disaster is significantly controlled, and the impervious and explosion-proof effect of cracking resistance can be effectively acted as.Explosion-protection equipment can be wide It is general to be applied to perimeter security and defence, the region of search of explosive and contraband, ammunition compound, personnel and material blindage, observation Point, defence shooting position, check-point, border check point etc..

Invention content

In order to solve above-mentioned technical problem, the present invention provides a kind of explosion-proof cabin of large deformation buffer-type, in explosion time It can ensure that explosion-proof cabin fully rubs and consume more energy, so that the impact energy of explosion is converted to the forms such as thermal energy and dissipate, most Limits absorb blast impulse and generate energy.

To achieve the goals above, the technical solution adopted by the present invention is：

A kind of explosion-proof cabin of large deformation buffer-type, including insulated wall, high resiliency fire retardant cushion plate, hoop Wasted-energy steel plate, curved inner surface Wasted-energy steel plate, semicircle Wasted-energy steel plate, arc Wasted-energy steel plate, transition connection Wasted-energy steel plate, high tenacity cracking resistance damping material, rectangle Explosion-proof steel plate, internal lightweight Energy dissipating material, semicircle Wasted-energy steel plate connection girdle ring, explosion-proof fiber concrete and anti-crack and anti-seepage elasticity Coating；

The explosion-proof cabin nacelle of large deformation buffer-type selects rectangular, round or rectangle, nacelle innermost layer to be provided with insulated wall, insulated wall Outside is provided with high resiliency fire retardant cushion plate, and hoop Wasted-energy steel plate, hoop energy consumption are provided with outside high resiliency fire retardant cushion plate Curved inner surface Wasted-energy steel plate, semicircle Wasted-energy steel plate, arc Wasted-energy steel plate, transition connection energy consumption steel are provided with outside steel plate The junction of plate, two semicircle Wasted-energy steel plates connects girdle ring connection by semicircle Wasted-energy steel plate；Hoop Wasted-energy steel plate, inside Curved surface Wasted-energy steel plate and semicircle Wasted-energy steel plate surround cavity, and high tenacity cracking resistance damping material is filled in cavity, and high tenacity is anti- It splits and is provided with rectangular vent steel plate in damping material, internal lightweight Energy dissipating material is provided in the steel plate of rectangular vent；Hoop consumes energy Steel plate, curved inner surface Wasted-energy steel plate and arc Wasted-energy steel plate surround cavity, and high tenacity cracking resistance damping material is filled in cavity, high It is provided with rectangular vent steel plate in toughness cracking resistance damping material, internal lightweight Energy dissipating material is provided in the steel plate of rectangular vent；Ring Hoop Wasted-energy steel plate, semicircle Wasted-energy steel plate connect Wasted-energy steel plate with transition and surround cavity, are hindered filled with high tenacity cracking resistance in cavity Damping material；It is provided with explosion-proof fiber concrete, explosion-proof fiber concrete outside arc Wasted-energy steel plate, transition connection Wasted-energy steel plate Outside be provided with anti-crack and anti-seepage elastic coating, high tenacity cracking resistance damping material, explosion-proof fiber concrete and anti-crack and anti-seepage elasticity Coating carries out transition in corner using circular arc.

Further, the hoop Wasted-energy steel plate, curved inner surface Wasted-energy steel plate, semicircle Wasted-energy steel plate, arc energy consumption Steel plate, transition connection Wasted-energy steel plate are made using low yield point steel plate.

Further, the anti-crack and anti-seepage elastic coating uses high polymer coating, high polymer coating to use styrene-acrylic emulsion, Styrene-acrylic emulsion content is 40~60%.

Further, the high resiliency fire retardant cushion plate uses rock wool, mineral wool, flexible flame retardant rubber and explosion-proof fibre Dimension material is blended, and the explosion-proof fiber selects explosion-proof steel fibre, anti-explosion polypropylene fiber or explosion-proof carbon fiber.

Further, the explosion-proof fiber concrete is added into lightweight concrete, explosion-proof fiber choosing using explosion-proof fiber Explosion-proof steel fibre, anti-explosion polypropylene fiber and explosion-proof carbon fiber to be selected to be blended, the volume content of explosion-proof fiber is 3~5%, Length is 30~50mm, a diameter of 1.5~2mm.

Further, the internal lightweight Energy dissipating material is made using foamed aluminium or high-damping rubber.

Further, the high tenacity cracking resistance damping material is added into lightweight coagulation using IR fiber, damping material Soil adds IR fiber material 2.5kg~5kg per cubic meter of concrete, and IR fiber material selection waste tire is processed into, Damping material is blended using polyvinyl alcohol, poly- acrylic emulsion, the one or more of butadiene-styrene latex, and percent by volume is 6~ 15%。

Further, the described rectangular vent steel plate is using closing steel plate, while with while opposite formation similar to rectangle cavity.

Further, the insulated wall is using foam glass, foam concrete, rock wool and inorganic heat insulation mortar mixing system At, can effectively prevent hot-fluid transmission.

Beneficial effects of the present invention：

That the beneficial effects of the invention are as follows cracking resistance explosion-proof capabilities is strong, deformability is big, seepage capability is high.The present invention is provided with multistage slow The Wasted-energy steel plate of punching, can be mutually coordinated, plays respective maximum effect, the energy for the blast impulse that can substantially dissipate, and ensures explosion-proof Cabin monolithic stability drives the Wasted-energy steel plate of multi-buffer to shake the impact endurance test shock in explosion-proof cabin, makes Wasted-energy steel plate when explosion occurs Between occur relative displacement when with high tenacity cracking resistance damping material friction and Extrusion, generate larger damping, and the consumption of multi-buffer The design of energy steel plate curved surface, arc can ensure that coming into full contact with friction consumes more energy, makes impact energy of the explosion to explosion-proof cabin Amount be converted to the forms such as thermal energy dissipate and rectangular vent steel plate in the internal lightweight Energy dissipating material that is arranged can inhale to greatest extent The energy that blast impulse generates is received, so that its buffering energy-consumption ability is obviously improved, the insulated wall of setting, high resiliency fire retardant cushion plate energy Explosion is reduced to the harm that personnel, article are brought in explosion-proof cabin, field of explosion is built very significant.

Description of the drawings

The explosion-proof cabin of large deformation buffer-type in the present invention is described further below in conjunction with the accompanying drawings：

Fig. 1 is the explosion-proof cabin horizontal slice schematic diagram of large deformation buffer-type of the present invention.

In figure：1 is insulated wall；2 be high resiliency fire retardant cushion plate；3 be hoop Wasted-energy steel plate；4 be curved inner surface energy consumption steel Plate；5 be semicircle Wasted-energy steel plate；6 be arc Wasted-energy steel plate；7 connect Wasted-energy steel plate for transition；8 damp material for high tenacity cracking resistance Material；9 be rectangular vent steel plate；10 be internal lightweight Energy dissipating material；11 connect girdle ring for semicircle Wasted-energy steel plate；12 be explosion-proof fibre Tie up concrete；13 be anti-crack and anti-seepage elastic coating.

Specific implementation mode

In order to further illustrate the present invention, the present invention is described in detail with reference to the accompanying drawings and embodiments, but not They can be interpreted as limiting the scope of the present invention.

Embodiment, as shown in Figure 1, the explosion-proof cabin nacelle of large deformation buffer-type selects rectangular, round or rectangle, nacelle innermost layer It is provided with insulated wall 1, insulated wall 1 is mixed using foam glass, foam concrete, rock wool and inorganic heat insulation mortar, energy Effectively hot-fluid is prevented to transmit, the outside of insulated wall 1 is provided with high resiliency fire retardant cushion plate 2, and high resiliency fire retardant cushion plate 2 uses rock Cotton, mineral wool, flexible flame retardant rubber and explosion-proof fiber material are blended, and the explosion-proof fiber selects explosion-proof steel fibre, prevents The outside of implode tacryl or explosion-proof carbon fiber, high resiliency fire retardant cushion plate 2 is provided with hoop Wasted-energy steel plate 3, hoop energy consumption The outside of steel plate 3 is provided with curved inner surface Wasted-energy steel plate 4, semicircle Wasted-energy steel plate 5, arc Wasted-energy steel plate 6, transition connection energy consumption Steel plate 7, hoop Wasted-energy steel plate 3, curved inner surface Wasted-energy steel plate 4, semicircle Wasted-energy steel plate 5, arc Wasted-energy steel plate 6, transition connection Wasted-energy steel plate 7 is made using low yield point steel plate, and the junction of two semicircle Wasted-energy steel plates 5 passes through semicircle energy consumption steel Plate connects girdle ring 11 and connects；

Hoop Wasted-energy steel plate 3, curved inner surface Wasted-energy steel plate 4 and semicircle Wasted-energy steel plate 5 surround cavity, and high-ductility is filled in cavity Property cracking resistance damping material 8, high tenacity cracking resistance damping material 8 is added into lightweight concrete using IR fiber, damping material, often stands Square rice concrete adds IR fiber material 2.5kg~5kg, and IR fiber material selection waste tire is processed into, and damps material Material is blended using polyvinyl alcohol, poly- acrylic emulsion, the one or more of butadiene-styrene latex, and percent by volume is 6~15%, high Be provided with rectangular vent steel plate 9 in toughness cracking resistance damping material 8, rectangular vent steel plate 9 using closing steel plate, while with while opposite shape At the cavity of similar rectangle, it is provided with internal lightweight Energy dissipating material 10 in rectangular vent steel plate 9, internal lightweight Energy dissipating material 10 is adopted It is made with foamed aluminium or high-damping rubber；Hoop Wasted-energy steel plate 3, curved inner surface Wasted-energy steel plate 4 and arc Wasted-energy steel plate 6 enclose At cavity, it is filled with high tenacity cracking resistance damping material 8 in cavity, rectangular vent steel is provided in high tenacity cracking resistance damping material 8 Plate 9 is provided with internal lightweight Energy dissipating material 10 in rectangular vent steel plate 9；Hoop Wasted-energy steel plate 3, semicircle Wasted-energy steel plate 5 and mistake It crosses connection Wasted-energy steel plate 7 and surrounds cavity, high tenacity cracking resistance damping material 8 is filled in cavity；

The outside that arc Wasted-energy steel plate 6, transition connect Wasted-energy steel plate 7 is provided with explosion-proof fiber concrete 12, explosion-proof fiber coagulation Soil 12 is added into lightweight concrete using explosion-proof fiber, and explosion-proof fiber selects explosion-proof steel fibre, anti-explosion polypropylene fiber and prevents Quick-fried carbon fiber is blended, and the volume content of explosion-proof fiber is 3~5%, and length is 30~50mm, a diameter of 1.5~2mm, explosion-proof The outside of fiber concrete 12 is provided with anti-crack and anti-seepage elastic coating 13, and anti-crack and anti-seepage elastic coating 13 uses high polymer coating, It is 40~60% that high polymer coating, which uses styrene-acrylic emulsion, styrene-acrylic emulsion content, high tenacity cracking resistance damping material 8, explosion-proof fiber coagulation Soil 12 and anti-crack and anti-seepage elastic coating 13 carry out transition in corner using circular arc.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (9)

1. a kind of explosion-proof cabin of large deformation buffer-type, including insulated wall (1), high resiliency fire retardant cushion plate (2), hoop Wasted-energy steel plate (3), curved inner surface Wasted-energy steel plate (4), semicircle Wasted-energy steel plate (5), arc Wasted-energy steel plate (6), transition connect Wasted-energy steel plate (7), high tenacity cracking resistance damping material (8), rectangular vent steel plate (9), internal lightweight Energy dissipating material (10), semicircle Wasted-energy steel plate Connect girdle ring (11), explosion-proof fiber concrete (12) and anti-crack and anti-seepage elastic coating (13), it is characterised in that：

The explosion-proof cabin nacelle of large deformation buffer-type selects rectangular, round or rectangle, and nacelle innermost layer is provided with insulated wall (1), heat-insulated It is provided with high resiliency fire retardant cushion plate (2) outside wall (1), hoop energy consumption is provided with outside high resiliency fire retardant cushion plate (2) Steel plate (3) is provided with curved inner surface Wasted-energy steel plate (4), semicircle Wasted-energy steel plate (5), arc outside hoop Wasted-energy steel plate (3) The junction of Wasted-energy steel plate (6), transition connection Wasted-energy steel plate (7), two semicircle Wasted-energy steel plates (5) passes through semicircle energy consumption steel Plate connects girdle ring (11) and connects；Hoop Wasted-energy steel plate (3), curved inner surface Wasted-energy steel plate (4) and semicircle Wasted-energy steel plate (5) surround Cavity, cavity is interior to be filled with high tenacity cracking resistance damping material (8), and rectangular vent is provided in high tenacity cracking resistance damping material (8) Steel plate (9), rectangular vent steel plate (9) is interior to be provided with internal lightweight Energy dissipating material (10)；Hoop Wasted-energy steel plate (3), curved inner surface Wasted-energy steel plate (4) and arc Wasted-energy steel plate (6) surround cavity, and high tenacity cracking resistance damping material (8), high tenacity are filled in cavity It is provided with rectangular vent steel plate (9) in cracking resistance damping material (8), internal lightweight energy consumption material is provided in rectangular vent steel plate (9) Expect (10)；Hoop Wasted-energy steel plate (3), semicircle Wasted-energy steel plate (5) connect Wasted-energy steel plate (7) with transition and surround cavity, in cavity Filled with high tenacity cracking resistance damping material (8)；It is provided with outside arc Wasted-energy steel plate (6), transition connection Wasted-energy steel plate (7) anti- Quick-fried fiber concrete (12), anti-crack and anti-seepage elastic coating (13) is provided with outside explosion-proof fiber concrete (12), and high tenacity is anti- It splits damping material (8), explosion-proof fiber concrete (12) and anti-crack and anti-seepage elastic coating (13) and transition is carried out using circular arc in corner.

2. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The hoop Wasted-energy steel plate (3), Curved inner surface Wasted-energy steel plate (4), semicircle Wasted-energy steel plate (5), arc Wasted-energy steel plate (6), transition connection Wasted-energy steel plate (7) use Low yield point steel plate is made.

3. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The anti-crack and anti-seepage elastic coating (13) high polymer coating is used, it is 40~60% that high polymer coating, which uses styrene-acrylic emulsion, styrene-acrylic emulsion content,.

4. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The high resiliency fire retardant cushion plate (2) it is blended using rock wool, mineral wool, flexible flame retardant rubber and explosion-proof fiber material, the explosion-proof fiber selection is explosion-proof Steel fibre, anti-explosion polypropylene fiber or explosion-proof carbon fiber.

5. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The explosion-proof fiber concrete (12) Lightweight concrete is added into using explosion-proof fiber, explosion-proof fiber selects explosion-proof steel fibre, anti-explosion polypropylene fiber and explosion-proof carbon Fiber is blended, and the volume content of explosion-proof fiber is 3~5%, and length is 30~50mm, a diameter of 1.5~2mm.

6. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The internal lightweight Energy dissipating material (10) foamed aluminium or high-damping rubber is used to be made.

7. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The high tenacity cracking resistance damping material (8) IR fiber, damping material is used to be added into lightweight concrete, the addition IR fiber material 2.5kg per cubic meter of concrete ~5kg, IR fiber material selection waste tire are processed into, and damping material is using polyvinyl alcohol, poly- acrylic emulsion, butadiene-styrene latex It is one or more be blended, percent by volume be 6~15%.

8. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The rectangular vent steel plate (9) is adopted With closing steel plate, while with while it is opposite formation similar to rectangle cavity.

9. the explosion-proof cabin of large deformation buffer-type according to claim 1, it is characterised in that：The insulated wall (1) uses foam Glass, foam concrete, rock wool and inorganic heat insulation mortar are mixed.