CN115217238B - Bearing heat-insulating fireproof anticorrosion integrated steel structure wall - Google Patents

Abstract

The invention relates to a bearing, heat-insulating, fireproof and corrosion-resistant integrated steel structure wall, which comprises a fixed steel plate, a supporting structure, a mounting 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-insulating fireproof anticorrosion integrated steel structure wall

Technical Field

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

Background

Steel structures are structures composed of steel materials, and are one of the main types of building structures. The structure mainly comprises steel beams, steel columns, steel trusses and other components made of section steel, steel plates and the like, and rust removal and prevention 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 the self weight is lighter, and the construction is simple, the method is widely applied to the fields of large-scale factory buildings, venues, super high-rise buildings and the like. Steel structures are prone to rust, and generally steel structures are subject to rust removal, galvanization or paint and periodic maintenance.

The existing steel structure wall has poor fireproof capability, and the high temperature generated after a fire disaster occurs can cause the steel structure to lose stability quickly to collapse, so that the bearing heat-insulating fireproof and anticorrosion integrated steel structure wall is needed.

Disclosure of Invention

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

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

a load-bearing, heat-insulating, fireproof and corrosion-resistant integrated steel structure wall, comprising:

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

the support structure is positioned in 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 in the secondary steel pipe is a sliding groove;

the mounting structure is mounted on the side wall of the fixed steel plate;

a magnesium oxide panel located inside the mounting structure;

a gypsum board positioned within the mounting structure and on the magnesia board side wall;

the balancing weights are positioned at the upper parts of the middle parts of the two secondary steel pipes and the main steel pipe;

a blowing device mounted on 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 middle part of the main steel pipe;

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

Two the secondary steel pipes with be connected with X type steelframe in the middle of the main steel pipe, the gas pocket has been seted up to secondary steel pipe lateral wall, the gas pocket with the sliding tray intercommunication, the gas pocket is in grouping arrangement on the secondary steel pipe lateral wall, and the gas pocket of every group is a plurality of equipartitions, the secondary steel pipe is towards main steel pipe lateral wall has seted up the guide way.

The mounting structure comprises a mounting frame fixedly connected with the side wall of the fixed steel plate and a plate groove formed in the inner edge of the mounting frame, a plurality of springs are mounted in the vertical plate groove of the mounting frame, the other ends of the springs are connected with a push plate, the upper plate groove and the lower plate groove of the mounting frame are respectively and slidably connected with a fixed plate, and a supporting steel bar is connected between the upper plate groove and the lower plate groove.

The magnesium oxide board is positioned between the upper fixing plate and the lower fixing plate of the mounting structure, and the gypsum board is positioned on the side wall of the magnesium oxide board.

The connecting rod is installed at the balancing weight top, the connecting rod with place the groove top and be connected, the balancing weight lateral wall is equipped with the rack.

The blowing device comprises a fixed block arranged on the side wall of the sliding groove, a bearing is arranged in an inner hole in the center of the fixed block, a rotating rod is arranged on an inner ring of the bearing, a gear is arranged on the rotating rod, a fan blade is rotatably arranged at the other end of the rotating rod, and the gear is matched with a rack of the balancing weight.

The dry powder box is characterized in that a storage chamber is formed in the dry powder box, a discharge pipe is arranged on the side wall of the dry powder box and communicated with the storage chamber, the discharge pipe penetrates through the guide groove and stretches into the sliding groove, a piston plate is arranged in the storage chamber, a vertical rod is arranged at the top of the piston plate, the vertical rod penetrates through and stretches out of the top of the dry powder box, and a pressing plate is arranged at the top of the vertical rod.

The limiting device comprises a limiting shell arranged on the side wall of the secondary steel pipe, a limiting sliding groove arranged on the side wall of the limiting shell, a limiting sliding plate arranged in the limiting sliding groove, a limiting spring arranged on the side wall of the limiting sliding plate and a limiting plate arranged on the other side wall of the limiting sliding plate, wherein the limiting plate penetrates through and extends out of the limiting shell, and the outer side wall of the limiting plate is attached to the fixing plate, the magnesium oxide plate and the gypsum plate side wall.

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

according to the invention, a fixed steel plate can be arranged, a placing groove is formed in the side wall of the fixed steel plate, a supporting structure is arranged in the placing groove, a mounting structure is arranged on the side wall of the fixed steel plate, a magnesium oxide plate and a gypsum plate are fixed on the side wall of the fixed steel plate through the mounting structure, the fireproof and anti-corrosion performances of the fixed steel plate are improved, a balancing weight, a blowing device and a dry powder box are arranged in the supporting structure, the balancing weight is connected to the top of the placing groove by using a material with a low melting point, after the material is melted due to high temperature, the balancing weight falls down to extrude the dry powder box to push dry powder to the side of the blowing device, and when the balancing weight falls down, the blowing device is driven to operate by using a gear structure to spray the dry powder, so that the fire is weakened, and the collapse time is prolonged.

Drawings

FIG. 1 is a diagram of the overall structure of the present invention;

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

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

FIG. 4 is a diagram of the connecting structure of the balancing weight of the present invention;

FIG. 5 is a structural view of a blowing device according to the present invention;

FIG. 6 is a diagram of the structure of the counterweight of the invention;

FIG. 7 is a block 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 block diagram of a spacing device of the present invention;

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

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, are intended to fall within the scope of the present invention.

Referring to fig. 1 to 10, a load-bearing, heat-insulating, fireproof and corrosion-resistant integrated steel structure wall comprises a fixed steel plate 100, a supporting structure 200, a mounting structure 300, a magnesium oxide plate 400, a gypsum board 500, a balancing weight 600, a blowing device 700, a dry powder box 800 and a limiting device 900.

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

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 formed in an inner cavity of 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 increasing 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 the secondary steel pipe 220 and are communicated with the sliding groove 240, dry powder is blown out of the side wall of the supporting structure 200, fire is reduced, the air holes 250 are distributed on the side wall of the secondary steel pipe 220 in a grouping mode, the air holes of each group are uniformly distributed, guide grooves 260 are 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.

The mounting structure 300 is mounted on the side wall of the fixed steel plate 100, the mounting structure 300 comprises a mounting plate 310 mounted on the side wall of the fixed steel plate 100, and a plate groove 320 formed on the side wall of the mounting plate 310, 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 and lower horizontal plate grooves of the mounting frame 310 are respectively and slidably connected with a fixed plate 350, the fixed steel plate 100 and the mounting plate 310 are fixedly connected in a welding mode, supporting steel bars are connected between the two fixed plates 350, the fixed plate 350 is pulled out of the plate groove 320, the magnesium oxide plate 400 and the gypsum plate 500 are stacked between the two fixed plates 350, the fixed plate 350 is pushed to drive the magnesium oxide plate 400 and the gypsum plate 500 to slide in the plate groove 320, the push plate 340 is pushed to squeeze the springs 330 when the fixed plate 350 slides, when the fixed plate 350 is completely contained in the plate groove 320, the magnesium oxide plate 400 and the gypsum plate 500 are respectively and slidably connected with the fixed plate 350, the supporting structure 200 is blocked in the placing groove 110, the magnesium oxide plate 400 and the gypsum plate 500 are required to be taken out, and the spring 330 is pushed by the push plate 340 to push the fixed plate 340 out of the inside the groove 320.

The magnesium oxide board 400 is positioned inside the mounting structure 300, the magnesium oxide board 400 is positioned between the two fixing boards 350, and the gypsum board 500 is positioned between the two fixing boards 350 and on the side wall of the magnesium oxide board 400.

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

The blowing device 700 is installed on the side wall of the sliding groove 240, the blowing device 700 comprises a fixed block 710 installed on the side wall of the sliding groove 240, a bearing 720 is installed in the inner hole of the center of the fixed block 710, a rotating rod 730 is installed on the inner ring of the bearing 720, a gear 740 is installed on the rotating rod 730, a fan blade 750 is rotatably installed on the other end of the rotating rod 730, gear 740 teeth are matched with a gear strip 620, when the balancing weight 600 falls down, the gear 620 is matched with the gear 740, the gear 620 falls down to drive the gear 740 to rotate, the gear 740 drives the rotating rod 730 and the fan blade 750 to rotate, air flow is generated when the fan blade 750 rotates, dry powder is discharged through the air hole 250 by the air flow, and fire is reduced.

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

The limiting device 900 comprises a limiting shell 910 arranged on the side wall of the secondary steel pipe 220, a limiting sliding chute 920 arranged on the side wall of the limiting shell 910, a limiting sliding plate 930 arranged in the limiting sliding chute 920, a limiting spring 940 arranged on the side wall of the limiting sliding plate 930 and a limiting plate 950 arranged on the other side wall of the limiting sliding plate 930, wherein the limiting plate 950 penetrates through the limiting shell 910, the outer side wall of the limiting plate 950 is attached to the side wall of the fixing plate 350, the magnesium oxide plate 400 and the gypsum plate 500, the limiting sliding plate 930 slides in the limiting sliding chute 920 and presses the limiting spring 940 through pulling the limiting sliding plate 930, the limiting plate 950 slides in the limiting sliding chute 920 along with the limiting sliding plate 930, at the moment, the fixing plate 350 is pushed to push the magnesium oxide plate 400 and the gypsum plate 500 to be received in the plate groove 320, the limiting sliding plate 930 is released, the limiting spring 940 is pushed to rebound to push the limiting sliding plate 930 and the limiting plate 950 to reversely move towards the mounting structure 300, and the limiting plate 950 penetrates through the limiting shell 910 and contacts with the side wall of the fixing plate 350, and the magnesium oxide plate 400 and the gypsum plate 500 are limited and fixed in the inside the plate groove 320.

Referring to fig. 1-9, in the integrated steel wall with heat-insulating, fireproof and corrosion-preventing functions in this embodiment, the fixing plate 350 is pulled to draw the fixing plate 350 out of the plate groove 320, the magnesium oxide plate 400 and the gypsum plate 500 are stacked and placed between the two fixing plates 350, the fixing plate 350 is pushed to drive the magnesium oxide plate 400 and the gypsum plate 500 to be accommodated in the plate groove 320 and to squeeze the spring 330, the magnesium oxide plate 400 and the gypsum plate 500 are limited in the plate groove 320 by the limiting device 900, when the fire is too large, the limiting slide 930 is pulled during escape to draw the limiting plate 950 into the limiting slide groove 920, the spring 330 rebounds to push the fixing plate 350 out of the plate groove 320, the fire burning connecting rod 610 fuses the connecting rod 610, 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, dry powder is pushed into the sliding groove 240 by air pressure, and simultaneously the counterweight 600 falls to drive the gear 740 to rotate, the gear 740 is driven by the gear 740 to rotate by the gear wheel teeth 750 to generate air current, and the dry powder is blown from the air hole 250 by the air current to cut down, and the escape time is prolonged.

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

Claims (2)

1. The utility model provides a bearing thermal-insulated fire prevention anticorrosive integrated steel construction wall body which characterized in that includes:

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

the support structure (200), the support structure (200) is located inside the placing groove (110), the support structure (200) comprises a main steel pipe (210) and two secondary steel pipes (220) located on two sides of the main steel pipe (210), and a cavity inside the secondary steel pipes (220) is a sliding groove (240); an X-shaped steel frame (230) is connected between the secondary steel pipe (220) and the main steel pipe (210), air holes (250) are formed in the side wall of the secondary steel pipe (220), the air holes (250) are communicated with the sliding grooves (240), the air holes (250) are distributed on the side wall of the secondary steel pipe (220) in a grouping mode, the air holes of each group are uniformly distributed, and guide grooves (260) are formed in the side wall of the secondary steel pipe (220) facing the main steel pipe (210);

a mounting structure (300), the mounting structure (300) being mounted on a side wall of the fixed steel plate (100); 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 inner edge of the mounting frame (310), wherein 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 and lower horizontal plate grooves of the mounting frame (310) are respectively and slidably connected with a fixed plate (350), and a supporting steel bar is connected between the upper and lower fixed plates (350);

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

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

the balancing weights (600) are positioned at the upper parts of the middle parts of the two secondary steel pipes (220) and the main steel pipe (210); a connecting rod (610) is arranged at the top of the balancing weight (600), the connecting rod (610) is connected with the top of the placing groove (110), and racks (620) are arranged on the side wall of the balancing weight (600); the connecting rod (610) is made of low-melting-point alloy, when the fire is large, the connecting rod (610) is fused, and the balancing weight (600) slides downwards under the influence of gravity;

a blowing device (700), the blowing device (700) being mounted on the side wall of the sliding tray (240); the blowing device (700) comprises a fixed block (710) arranged on the side wall of the sliding groove (240), a bearing (720) is arranged in the inner hole of the center of the fixed block (710), a rotating rod (730) is arranged on the inner ring of the bearing (720), a gear (740) is arranged on the rotating rod (730), a fan blade (750) is rotatably arranged at the other end of the rotating rod (730), and the gear (740) is matched with a rack (620) of the balancing weight (600);

a dry powder box (800), wherein the dry powder box (800) is positioned at the lower part between the two secondary steel pipes (220) and the main steel pipe (210); a storage cavity (810) is formed in the dry powder box (800), a discharge pipe (820) is arranged on the side wall of the dry powder box (800), the discharge pipe (820) is communicated with the storage cavity (810), the discharge pipe (820) penetrates through the guide groove (260) and stretches into the sliding groove (240), a piston plate (830) is arranged in the storage cavity (810), a vertical rod (840) is arranged at the top of the piston plate (830), the vertical rod (840) stretches out of the top of the dry powder box (800), and a pressing plate (850) is arranged at the top of the vertical rod (840);

the limiting device (900) is arranged on the side wall of the secondary steel pipe (220); stop device (900) are including installing spacing shell (910) of inferior steel pipe (220) lateral wall, offer spacing spout (920) of spacing shell (910) lateral wall, be located spacing slide (930) inside spacing slide (930), install spacing spring (940) of spacing slide (930) lateral wall and install limiting plate (950) of another lateral wall of spacing slide (930), limiting plate (950) run through and stretch out spacing shell (910), the lateral wall laminating of limiting plate (950) fixed plate (350) of mounting structure (300 magnesium oxide board (400) with gypsum board (500) lateral wall.

2. The bearing, heat-insulating, fireproof and corrosion-resistant integrated steel structure wall according to claim 1, wherein the magnesium oxide board (400) is located between the upper and lower fixing boards (350) of the installation structure (300), and the gypsum board (500) is located on the side wall of the magnesium oxide board (400).