CN115217238A - Bearing, heat insulation, fire prevention and corrosion prevention integrated steel structure wall - Google Patents

Abstract

The invention relates to a bearing, heat-insulating, fireproof and anticorrosive integrated steel structure wall, which comprises a fixed steel plate, a supporting structure, an installation structure, a magnesium oxide plate, a gypsum board, a balancing weight, a blowing device, a dry powder box and a limiting device.

Description

Bearing, heat insulation, fire prevention and corrosion prevention integrated steel structure wall

Technical Field

The invention relates to the technical field of steel structure walls, in particular to a load-bearing, heat-insulating, fireproof and anticorrosive integrated steel structure wall.

Background

Steel structures are structures composed of steel materials and are one of the main building structure types. The structure mainly comprises steel beams, steel columns, steel trusses and other members made of section steel, steel plates and the like, and rust removing and preventing processes such as silanization, pure manganese phosphating, washing drying, galvanization and the like are adopted. The components or parts are typically joined by welds, bolts or rivets. Because of light dead weight and simple construction, the steel plate is widely applied to the fields of large-scale factory buildings, venues, super high-rise buildings and the like. The steel structure is easy to rust, and generally the steel structure needs to be derusted, galvanized or painted, and needs to be maintained regularly.

The existing steel structure wall body is poor in fireproof capacity, and the steel structure can lose stability quickly to collapse due to high temperature generated after fire disaster occurs, so that a load-bearing, heat-insulation, fireproof and anticorrosive integrated steel structure wall body is needed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a load-bearing, heat-insulating, fireproof and anticorrosive integrated steel structure wall, which can weaken the fire behavior and prolong the collapse time.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a thermal-insulated fire prevention of bearing anticorrosion integration steel construction wall, includes:

the side wall of the fixed steel plate is provided with a placing groove;

the supporting structure is positioned inside the placing groove and comprises a main steel pipe and two secondary steel pipes positioned on two sides of the main steel pipe, and a cavity inside each secondary steel pipe is a sliding groove;

a mounting structure mounted to the fixed steel plate sidewall;

a magnesium oxide panel located within the mounting structure;

a gypsum board located inside the mounting structure and on the magnesium oxide board side wall;

the counterweight block is positioned at the upper part between the two secondary steel pipes and the main steel pipe;

a blowing device installed at the side wall of the sliding groove;

the dry powder box is positioned at the lower part between the two secondary steel pipes and the main steel pipe;

and the limiting device is arranged on the side wall of the secondary steel pipe.

The X-shaped steel frame is connected between the two secondary steel pipes and the main steel pipe, air holes are formed in the side wall of each secondary steel pipe and communicated with the sliding grooves, the air holes are distributed in groups on the side wall of each secondary steel pipe, the air holes in each group are uniformly distributed, and the secondary steel pipes are provided with guide grooves facing the side wall of the main steel pipe.

Mounting structure includes fixed connection and is in the installing frame of fixed steel sheet lateral wall, set up the board groove on edge in the installing frame, a plurality of spring is installed to the vertical board inslot of installing frame, the push pedal is connected to the spring other end, the upper and lower horizontally board inslot of installing frame is sliding connection fixed plate respectively, and upper and lower fixed plate intermediate connection has the support billet.

The magnesium oxide board is located in the middle of two upper and lower fixed plates of mounting structure, the gypsum board is located magnesium oxide board lateral wall.

The connecting rod is installed at the top of the balancing weight, the connecting rod is connected with the top of the placing groove, and a rack is arranged on the side wall of the balancing weight.

Blow the device including installing the fixed block of sliding tray lateral wall, the installation bearing in the fixed block center hole, bearing inner circle installation bull stick, install the gear on the bull stick, the bull stick other end rotates the installation flabellum, the gear with the rack cooperation of balancing weight.

The inside storage cavity that has seted up of dry powder box, the discharge pipe is installed to dry powder box lateral wall, the discharge pipe with storage cavity intercommunication, the discharge pipe runs through the guide way and stretches into inside the sliding tray, it is provided with the piston board to accomodate the inside of cavity, the montant is installed at piston board top, the montant runs through and stretches out dry powder box top, the clamp plate is installed at the montant top.

Stop device is including installing inferior steel pipe lateral wall's spacing shell, seting up the spacing spout of spacing shell lateral wall, be located inside spacing slide, the installation of spacing slide lateral wall the spacing spring of spacing slide lateral wall with install the limiting plate of another lateral wall of spacing slide, the limiting plate runs through and stretches out spacing shell, the lateral wall laminating of limiting plate the fixed plate magnesium oxide board with the gypsum board lateral wall.

Compared with the prior art, the invention has the beneficial effects that:

the dry powder spraying device can be provided with a fixed steel plate, a placing groove is formed in the side wall of the fixed steel plate, a supporting structure is arranged in the placing groove, an installation structure is arranged on the side wall of the fixed steel plate, a magnesium oxide plate and a gypsum board are fixed on the side wall of the fixed steel plate through the installation structure, the fireproof and anti-corrosion performance of the fixed steel plate is improved, a balancing weight, a spraying device and a dry powder box are arranged in the supporting structure, the balancing weight is connected to the top of the placing groove through a material with a low melting point, when the material is melted due to high temperature, the balancing weight falls down to extrude the dry powder box to push the dry powder to the side of the spraying device, the gear structure is used for driving the spraying device to run when the balancing weight falls down, the fire behavior is weakened, and the collapse time is prolonged.

Drawings

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is an internal structural view of the present invention;

FIG. 3 is a structural exploded view of the present invention;

FIG. 4 is a connection structure diagram of the weight member of the present invention;

FIG. 5 is a view showing the structure of the blowing device of the present invention;

FIG. 6 is a schematic view of a weight block according to the present invention;

FIG. 7 is a schematic diagram of a dry powder cartridge according to the present invention;

FIG. 8 is a partial block diagram of the present invention;

FIG. 9 is a view showing the structure of the stopper according to the present invention;

fig. 10 is a structural view of a fixing plate according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 10, a load-bearing, fire-proof, and corrosion-proof integrated steel structural wall includes a fixed steel plate 100, a supporting structure 200, a mounting structure 300, a magnesium oxide plate 400, a gypsum board 500, a counterweight 600, a blowing device 700, a dry powder box 800, and a limiting device 900.

The side wall of the fixed steel plate 100 is provided with a placing groove 110, and the fixed steel plate 100 is installed as an integral outer wall.

The supporting structure 200 is located inside the placing groove 110, the supporting structure 200 comprises a main steel pipe 210, two secondary steel pipes 220 located on two sides of the main steel pipe 210 and a sliding groove 240 which is a cavity formed inside the secondary steel pipe 220, an X-shaped steel frame 230 is connected between the two secondary steel pipes 220 and the main steel pipe 210, the X-shaped steel frame 230 is used for improving the stability and firmness of connection between the secondary steel pipes 220 and the main steel pipe 210, air holes 250 are formed in the side wall of each secondary steel pipe 220, the air holes 250 are communicated with the sliding groove 240 and used for blowing dry powder out of the side wall of the supporting structure 200 to reduce fire, the air holes 250 are arranged in groups on the side wall of each secondary steel pipe 220, each group of air holes is uniformly distributed, a guide groove 260 is formed in the side wall of the secondary steel pipe 220 facing the main steel pipe 210, and the guide grooves 260 are communicated with the sliding groove 240.

Mounting structure 300 installs at fixed steel sheet 100 lateral wall, and mounting structure 300 is including installing at the mounting panel 310 of fixed steel sheet 100 lateral wall, seting up at the board groove 320 of mounting panel 310 lateral wall, a plurality of spring 330 of vertical board inslot installation of installing frame 310, push pedal 340 is connected to the spring 330 other end, the upper and lower horizontally board inslot of installing frame 310 is sliding connection fixed plate 350 respectively, through welding mode fixed connection between fixed steel sheet 100 and the mounting panel 310, two fixed plate 350 intermediate junction have the support billet, pull out fixed plate 350 from board groove 320 inside, place magnesium oxide board 400 and gypsum board 500 stack in the middle of two fixed plates 350, promote fixed plate 350 and drive magnesium oxide board 400 and gypsum board 500 and slide in board groove 320 inside, promote push pedal 340 when fixed plate 350 slides and extrude spring 330, when fixed plate 350 accomodates completely inside board groove 320, magnesium oxide board 400 and gypsum board 500 shelter from bearing structure 200, seal up bearing structure 200 inside standing groove 110, when needing to take out magnesium oxide board 400 and gypsum board 500, spring 330 promotes the kick-back push pedal 340 and will release fixed plate 350 from board 320 inside.

The magnesium oxide panel 400 is positioned inside the mounting structure 300, the magnesium oxide panel 400 is positioned between the two fixing plates 350, and the gypsum panel 500 is positioned between the two fixing plates 350 and on the side walls of the magnesium oxide panel 400.

Balancing weight 600 is located two inferior steel pipe 220 and the middle position of leaning on of main steel pipe 210, connecting rod 610 is installed at balancing weight 600 top, connecting rod 610 is connected with standing groove 110 top, guide block 620 is installed to balancing weight 600 lateral wall, teeth of a cogwheel 630 are installed to guide block 620 lateral wall, connecting rod 610 is the low melting point alloy, the temperature is higher when the intensity of a fire is great, lead to connecting rod 610 to fuse, balancing weight 600 receives the gravity to influence the lapse at this moment, guide block 620 slides in the inside of guide way 260, stability when increasing balancing weight 600 whereabouts.

Blow device 700 and install at the lateral wall of sliding tray 240, blow device 700 including install at the lateral wall of sliding tray 240 fixed block 710 the hole installation bearing 720 in the center of fixed block 710, bearing 720 inner circle installation bull stick 730, install gear 740 on the bull stick 730, the bull stick 730 other end rotates installation flabellum 750, the gear 740 teeth of a cogwheel and the cooperation of wheel strip 620, when balancing weight 600 whereabouts, rack 620 and the cooperation of gear 740, rack 620 whereabouts and drives gear 740 rotatory, gear 740 drives bull stick 730 and the rotation of flabellum 750, produces the air current when flabellum 750 is rotatory, and the air current is discharged dry powder through gas pocket 250, cuts down the intensity of a fire.

The dry powder box 800 is located at the middle lower position between the two secondary steel pipes 220 and the main steel pipe 210, a containing cavity 810 is formed in the dry powder box 800, a discharge pipe 820 is installed on the side wall of the dry powder box 800, the discharge pipe 820 is communicated with the containing cavity 810, the discharge pipe 820 penetrates through the guide groove 260 and extends into the sliding groove 240, a piston plate 830 is arranged in the containing cavity 810, a vertical rod 840 is installed at the top of the piston plate 830, the vertical rod 840 penetrates through the top of the dry powder box 800, a pressing plate 850 is installed at the top of the vertical rod 840, dry powder is contained in the containing cavity 810, when the counterweight 600 falls to the top of the pressing plate 850, the counterweight 600 pushes the pressing plate 850 to slide downwards by using gravity, the pressing plate 850 pushes the piston plate 830 to slide downwards in the containing cavity 810, and when the piston plate 830 slides, dry powder in the containing cavity 810 is discharged into the sliding groove 240 through the discharge pipe 820 by using air pressure.

The limiting device 900 comprises a limiting shell 910 mounted on the side wall of the secondary steel pipe 220, a limiting sliding groove 920 arranged on the side wall of the limiting shell 910, a limiting sliding plate 930 located inside the limiting sliding groove 920, a limiting spring 940 mounted on the side wall of the limiting sliding plate 930, and a limiting plate 950 mounted on the other side wall of the limiting sliding plate 930, wherein the limiting plate 950 penetrates through and extends out of the limiting shell 910, the outer side wall of the limiting plate 950 is attached to the fixing plate 350, the magnesium oxide plate 400 and the gypsum board 500 side wall, the limiting sliding plate 930 is pulled to enable the limiting sliding plate 930 to slide inside the limiting sliding groove 920 and extrude the limiting spring 940, the limiting plate 950 slides along with the limiting sliding plate 930 and is retracted inside the limiting sliding groove 920, at the moment, the fixing plate 350 is pushed to retract the magnesium oxide plate 400 and the gypsum board 500 into the board groove 320, the limiting sliding plate 930 is loosened, the limiting spring 940 rebounds to push the limiting sliding plate 930 and limit the limiting sliding plate 930 and the limiting sliding plate 950 to move reversely towards the mounting structure 300, the limiting plate 950 penetrates through and extends out of the limiting shell 910 and contacts with the fixing plate 350, the magnesium oxide plate 400 and the gypsum board 500, and the gypsum board 500 side wall, and the magnesium oxide plate 400 and the gypsum board 500 are fixed inside the limiting plate 320.

Referring to fig. 1 to 9, in the load-bearing, heat-insulating, fire-proof and corrosion-resistant integrated steel structural wall according to the embodiment, the fixing plate 350 is pulled to draw out the fixing plate 350 from the inside of the plate groove 320, the magnesium oxide plate 400 and the gypsum board 500 are stacked between the two fixing plates 350, the fixing plate 350 is pushed to drive the magnesium oxide plate 400 and the gypsum board 500 to be accommodated in the plate groove 320 and to extrude the spring 330, the magnesium oxide plate 400 and the gypsum board 500 are limited in the plate groove 320 by the limiting device 900, when the fire is too large, the limiting sliding plate 930 is pulled to accommodate the limiting sliding chute 920 with the limiting sliding plate 930 during escape, the fixing plate 350 is pushed out from the inside of the plate groove 320 by the spring 330 rebounding, the connecting rod 610 is burned by the fire, the counterweight 600 falls to the top of the pressing plate 850 to push the piston plate 830 to slide downwards in the accommodating chamber 810, the dry powder is pushed into the sliding chute 240 by air pressure, the gear teeth 630 drives the gear 740 to rotate the gear 750 to generate air flow, the dry powder is blown out from the air holes 250 by the air flow, thereby reducing the fire, and prolonging the escape time.

Although exemplary embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a thermal-insulated fire prevention of bearing anticorrosion integration steel construction wall which characterized in that includes:

the fixing device comprises a fixing steel plate (100), wherein a placing groove (110) is formed in the side wall of the fixing steel plate (100);

the supporting structure (200) is positioned inside the placing groove (110), the supporting structure (200) comprises a main steel pipe (210) and two secondary steel pipes (220) positioned on two sides of the main steel pipe (210), and the inner cavities of the secondary steel pipes (220) are sliding grooves (240);

a mounting structure (300), wherein the mounting structure (300) is mounted on the side wall of the fixed steel plate (100);

a magnesium oxide panel (400), the magnesium oxide panel (400) being located inside the mounting structure (300);

-a plasterboard (500), the plasterboard (500) being located inside the mounting structure (300) and on the magnesium oxide board (400) side walls;

the balancing weight (600) is positioned at the upper part between the two secondary steel pipes (220) and the main steel pipe (210);

a blowing device (700), wherein the blowing device (700) is installed on the side wall of the sliding groove (240);

the dry powder box (800), the dry powder box (800) is positioned at the lower part between the two secondary steel pipes (220) and the main steel pipe (210);

and the limiting device (900), wherein the limiting device (900) is arranged on the side wall of the secondary steel pipe (220).

2. The integrated steel structure wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention according to claim 1, wherein an X-shaped steel frame (230) is connected between the two secondary steel pipes (220) and the main steel pipe (210), air holes (250) are formed in the side wall of each secondary steel pipe (220), the air holes (250) are communicated with the sliding groove (240), the air holes (250) are arranged in groups on the side wall of each secondary steel pipe (220), the air holes in each group are uniformly distributed, and guide grooves (260) are formed in the side wall of each secondary steel pipe (220) facing the main steel pipe (210).

3. The integrated steel structural wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention as claimed in claim 1, wherein the mounting structure (300) comprises a mounting frame (310) fixedly connected to the side wall of the fixed steel plate (100) and a plate groove (320) formed in the mounting frame (310) along the inner edge, a plurality of springs (330) are mounted in the vertical plate groove of the mounting frame (310), the other ends of the springs (330) are connected with a push plate (340), the upper horizontal plate groove and the lower horizontal plate groove of the mounting frame (310) are respectively connected with a fixed plate (350) in a sliding manner, and a support steel bar is connected between the upper fixed plate (350) and the lower fixed plate (350).

4. The integrated steel structural wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention as claimed in claim 1, wherein the magnesium oxide plate (400) is located between the upper and lower fixing plates (350) of the mounting structure (300), and the gypsum board (500) is located on the side wall of the magnesium oxide plate (400).

5. The integrated steel structural wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention as claimed in claim 1, wherein a connecting rod (610) is installed at the top of the balancing weight (600), the connecting rod (610) is connected with the top of the placing groove (110), and a rack (620) is arranged on the side wall of the balancing weight (600).

6. The integrated steel structural wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention as claimed in claim 1, wherein the blowing device (700) comprises a fixing block (710) mounted on the side wall of the sliding groove (240), a bearing (720) is mounted in a central inner hole of the fixing block (710), a rotating rod (730) is mounted on an inner ring of the bearing (720), a gear (740) is mounted on the rotating rod (730), a fan blade (750) is rotatably mounted at the other end of the rotating rod (730), and the gear (740) is matched with a rack (620) of the counterweight (600).

7. The integrated steel structure wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention as claimed in claim 1, wherein a containing chamber (810) is formed inside the dry powder box (800), a discharge pipe (820) is installed on the side wall of the dry powder box (800), the discharge pipe (820) is communicated with the containing chamber (810), the discharge pipe (820) penetrates through the guide groove (260) and extends into the sliding groove (240), a piston plate (830) is arranged inside the containing chamber (810), a vertical rod (840) is installed at the top of the piston plate (830), the vertical rod (840) extends out of the top of the dry powder box (800), and a pressing plate (850) is installed at the top of the vertical rod (840).

8. The integrated steel structural wall body with the functions of load bearing, heat insulation, fire prevention and corrosion prevention as claimed in claim 1, wherein the limiting device (900) comprises a limiting shell (910) mounted on the side wall of the secondary steel pipe (220), a limiting chute (920) formed in the side wall of the limiting shell (910), a limiting sliding plate (930) located inside the limiting chute (920), a limiting spring (940) mounted on the side wall of the limiting sliding plate (930), and a limiting plate (950) mounted on the other side wall of the limiting sliding plate (930), the limiting plate (950) extends out of the limiting shell (910) in a penetrating manner, and the outer side wall of the limiting plate (950) is attached to the fixing plate (350) of the mounting structure (300), the magnesium oxide plate (400) and the gypsum board (500) side wall.

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