CN114961090B

CN114961090B - Environment-friendly recycling building material board with anti-collision protection

Info

Publication number: CN114961090B
Application number: CN202210678709.1A
Authority: CN
Inventors: 马安; 王占吉; 丁昊; 沈旭; 刘娟; 臧超
Original assignee: Nantong Gusheng Building Materials Co ltd
Current assignee: Nantong Gusheng Building Materials Co ltd
Priority date: 2022-06-15
Filing date: 2022-06-15
Publication date: 2023-05-09
Anticipated expiration: 2042-06-15
Also published as: CN114961090A

Abstract

The utility model discloses an environment-friendly recycling building material plate with anti-collision protection, which comprises a frame plate and a protection plate, wherein the protection plate is arranged on the back surface of the frame plate, a plug board is embedded in the protection plate, a connecting frame is arranged on the front surface of the plug board, a spring is wound on the surface of the connecting frame, a flame-retardant cloth is wound on the outer surface of the spring, a sucker is arranged at the tail end of the flame-retardant cloth, a drawing block is arranged on the surface of the sucker in a penetrating and embedding manner, a pull rope is connected to the surface of the drawing block, a buffer spring is arranged on the back wall of the frame plate, and a foam plate is arranged on the front surface of the buffer spring. According to the utility model, the protective plate, the clockwork spring, the sucker, the drawing block and the pull rope are arranged, so that the bottom end of the flame-retardant cloth loses the constraint effect on the clockwork spring during impact, the clockwork spring drives the flame-retardant cloth to be wound, and the wound flame-retardant cloth fills the internal gap of the protective plate, so that the anti-impact capability is enhanced.

Description

Environment-friendly recycling building material board with anti-collision protection

Technical Field

The utility model relates to the technical field of building boards, in particular to an environment-friendly recycling building material board with anti-collision protection.

Background

In view of the environmental protection requirement of building materials, the reusable part of the building waste is recycled and combined with the mixture of plant straw raw materials to be made into an environmental protection type recycling building material plate, so that the expenditure cost of building boards can be effectively reduced, the recycling building material plate becomes a new field of material development in the building construction technology, and in order to meet the development requirement of building board diversification, the recycling building material plate needs to be subjected to improvement and protection treatment so as to strengthen the usability of the environmental protection type recycling building material plate.

The existing building board has the following defects:

1. the utility model discloses an environment-friendly energy-saving building board with a heat insulation function, wherein a heat insulation cavity is arranged in a board body of the utility model, porous heat insulation boards are arranged in the heat insulation cavity in a mutually separated manner, concrete reinforcement mesh structures are arranged around the outer part of the heat insulation boards, the concrete reinforcement mesh structures can effectively ensure the supporting capability of the board, meanwhile, the heat insulation boards are arranged in the interior, the flame retardant capability of the board can be effectively improved, and the heat insulation effect of the board can be improved in the interior, so that the heat insulation capability of the board is provided;

2. patent document CN207974351U discloses a regenerated building material board, "including roof, bottom plate and spliced pole, roof and bottom plate are gypsum material constitution, the spliced pole is stainless steel material constitution, between spliced pole department roof and the bottom plate and the spliced pole is equipped with a plurality ofly, roof and inside integrated board that all is equipped with of bottom plate, the integrated board comprises corrosion resistant plate, polyethylene foam board and rubber sponge board, rubber sponge board is located between corrosion resistant plate and the polyethylene foam board, corrosion resistant plate and rubber sponge board are equipped with the polyurea aerogel layer. Through the paraffin adsorption film, the polyurea aerogel and the sound insulation damping, the whole brick body has the functions of corrosion resistance, sound insulation and water resistance, the brick body can decompose the composite colloid on the surface of the plate body through chemical materials, and the brick body can be reused after being mixed and detected, so that the recycling of resources is achieved, the waste of the resources is avoided, meanwhile, the phenomenon that some unrecoverable resources cannot pollute the environment is ensured, and the building material plate only considers the convenient disassembly and assembly of the materials for reuse when in use, but lacks a corresponding pre-reinforcing structure to strengthen the crashproof capability of the plate;

3. patent document CN213979423U discloses a novel regeneration fire prevention building material board, "including first ceramic plate, second ceramic plate, first welt, second welt and sealant, pass through sealant fixed connection between first welt and the second welt, set up flutedly between first welt and the second welt, inside flame retardant coating, heat preservation and the anticorrosive coating of being provided with of recess, the flame retardant coating is located the heat preservation upper end, and flame retardant coating upper end and the overlap joint of first welt bottom. The anti-corrosion building material plate has the beneficial effects that the anti-corrosion layer, the heat preservation layer and the fireproof layer inside the groove can be protected by arranging the first lining plate and the second lining plate, so that the use effect of the whole plate can be improved, the first ceramic plate and the second ceramic plate can play the first fireproof effect, meanwhile, the first ceramic plate and the first lining plate are convenient to replace in the later period under the action of sealant, the whole utilization rate can be increased, and the building material plate plays a role in fireproof treatment through the fireproof layer when in use, but can not be used for carrying out effective disassembly and assembly on the fireproof layer for fire escape;

4. patent document CN212201100U discloses a regenerated building material board, "including base plate, water-passing cooling layer, fire-retardant layer, inhale the sound baffle, interior plaque and crashproof subassembly, on the base plate was located to water-passing cooling layer, fire-retardant layer is located on the water-passing cooling layer, inhale the sound baffle and locate on the fire-retardant layer, inhale the sound baffle and including making an uproar layer and inhaling the sound layer, it locates on the fire-retardant layer to fall the sound layer, inhale the sound layer and locate on the sound layer, interior plaque locates on the sound layer, be equipped with damping crashproof groove on the interior plaque, crashproof subassembly locates in the damping crashproof groove. The utility model relates to the technical field of building materials, in particular to a regenerated building material plate with anti-collision, sound absorption and heat insulation effects.

Disclosure of Invention

The utility model aims to provide an environment-friendly recycling building material board with anti-collision protection, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the environment-friendly recycling building material plate with the anti-collision protection comprises a frame plate and a protection plate, wherein the protection plate is arranged on the back surface of the frame plate, a plugboard is embedded in the protection plate, a backboard is arranged on the back surface of the plugboard, and a waterproof plate is arranged in the backboard;

the front surface of the plugboard is provided with a connecting frame which is arranged in an array way, the surface of the connecting frame is wound with a clockwork spring, the outer surface of the clockwork spring is wound with flame-retardant cloth, the tail end of the flame-retardant cloth is provided with a sucker, the bottom of the sucker is connected with the inner bottom wall of the protection board, the surface of the sucker is provided with a drawing block in a penetrating and jogging way, the surface of the drawing block is connected with a pull rope, and the tail end of the pull rope extends into the flame-retardant cloth to be connected with the flame-retardant cloth;

the back wall of the frame plate is provided with buffer springs which are arranged in an array manner, the front face of each buffer spring is provided with a foam plate, and the foam plates are in embedded sliding connection with the frame of the frame plate.

Preferably, the reinforcing plate is installed on the front of the frame plate, the reinforcing ribs which are vertically and horizontally arranged are installed on the inner wall of the reinforcing plate, plastic steel blocks are connected to the two ends of the reinforcing ribs, compression springs are installed on the surface, close to the reinforcing plate, of the plastic steel blocks, sliding grooves are formed in the inner wall of the reinforcing plate, the sliding grooves are connected with the plastic steel blocks in a jogged mode, and the compression springs are located in the sliding grooves.

Preferably, the flame-retardant cloth comprises a flame-retardant layer, a water-resistant layer, a heat-insulating layer and a water absorption layer, wherein the water-resistant layer is arranged on the back surface of the flame-retardant layer, the heat-insulating layer is arranged on the back surface of the water-resistant layer, the water absorption layer is arranged on the back surface of the heat-insulating layer, and the front surface of the flame-retardant layer is close to the back surface of the frame plate.

Preferably, the internally mounted of backplate has the riser, the sound-absorbing sponge board is all installed to the front and the back of riser, the inside of sound-absorbing sponge board runs through and installs connecting screw, and connecting screw is close to the one end and the riser threaded connection of riser, the truncated cone piece is installed to the one end that the riser was kept away from to connecting screw, the waterproof board is located the rear of rear sound-absorbing sponge board.

Preferably, the front surface of the connecting frame is gradually close to the back surface of the frame plate from top to bottom, and the thickness of the winding flame-retardant cloth on the surface of the clockwork spring is gradually increased from top to bottom;

the reinforcing ribs are in an arc-shaped design after pre-bending treatment, the installation direction of the sliding chute and the trend of the inner wall of the reinforcing plate are in cross arrangement, and two groups of reinforcing ribs form an arc-shaped raised frame structure;

the connection depth of each group of connection screw rods and the vertical plate is inconsistent, and a through round hole is formed in the conical frustum block;

the flame-retardant cloth is connected with the outer wall of the clockwork spring through non-adhesive glue.

Preferably, the back of the waterproof board is provided with a cementing layer, and the back of the cementing layer is provided with a decorative board I.

Preferably, the protruding blend stop is installed to the inner wall of protection shield, and the blend stop is located the place ahead of plugboard, the limiting groove of invagination is installed to the inner wall of protection shield, and the limiting groove is located the rear of blend stop, the back-mounted of backplate has symmetrical arrangement's fixed block, the inside gomphosis slidable mounting of fixed block has movable plug, and movable plug is connected with the limiting groove gomphosis.

Preferably, the front surface of the reinforcing plate is provided with a panel, the panel is composed of a waterproof layer, a transparent corrosion-resistant coating and a second decorative plate, the front surface of the reinforcing plate is provided with the second decorative plate, the front surface of the second decorative plate is provided with the transparent corrosion-resistant coating, the front surface of the transparent corrosion-resistant coating is provided with the waterproof layer, and the second decorative plate is made of wheat straw as a raw material.

Preferably, the method is characterized by comprising the following steps of:

s1, before the building material board is used, connecting screws are connected to the inside of the vertical plate in different depths, so that the truncated cone forms a rolling backlog state on the surface of the sound-absorbing sponge board, the surface of the sound-absorbing sponge board forms a concave state with different rolling, and a good sound-insulating effect is achieved;

s2, when the building material plate is impacted in the use process, the impact force F1 is transmitted to the reinforcing plate after passing through the panel, and in the process, the reinforcing rib which is subjected to pre-bending treatment and is in an arc-shaped state plays a role in heavy-resisting protection;

s3, when the impact acting force F2 is larger than F1, the acting force can not be completely eliminated through the resistance of the reinforcing plate, and the acting force after the F2 is cut down by the reinforcing plate is transferred to the foam plate, so that the double-resisting protection effect is achieved through the matching of the buffer spring and the foam plate;

s4, when the impact acting force F3 is larger than F2, the acting force is transmitted to the surface of the protection plate through the double reduction resistance of the reinforcing plate, the buffer spring and the foam plate, the front surface of the protection plate is deformed through the impact action, the flame-retardant cloth in a straightened state is synchronously deformed, the flame-retardant cloth is then rolled up under the action of the spring, the thickness of the rolled up surface of the spring is increased, and the impact resistance effect is achieved;

s5, if a fire occurs in the rear space of the first decorative plate in the process, the first decorative plate is torn off from the surface of the adhesive layer and then the movable insert blocks are mutually close to each other, so that the movable insert blocks are separated from the limit grooves, the backboard and the insert plates are detached from the inside of the protective plate, and then fire-extinguishing escape treatment is performed by using flame-retardant cloth.

The working steps of winding the clockwork spring in the step S4 are as follows:

s31, after the flame-retardant cloth is deformed under force, the flame-retardant cloth extends backwards, at the moment, the flame-retardant cloth belt moves the pull rope to straighten, and then the pull block is pulled out of the sucker;

s32, after the drawing block leaves the sucker, the sucker loses connection with the inner bottom wall of the protection plate, and at the moment, the bottom end of the flame-retardant cloth loses the constraint function on the spring, so that the spring drives the flame-retardant cloth to be wound, and then the wound flame-retardant cloth fills the inner gap of the protection plate, and the anti-collision capacity is enhanced.

Preferably, the working steps of the fire-extinguishing escape treatment in the step S5 by using the flame-retardant cloth are as follows:

s51, splicing the disassembled flame-retardant cloth, and when the spliced flame-retardant cloth is used for escaping, enabling the flame-retardant layer to face the fire occurrence direction, utilizing the flame-retardant layer to play a flame-retardant effect, and enabling the water-absorbing layer to face the surface of an escaper;

s52, splashing water on the surface of the water absorption layer, wrapping the spliced flame-retardant cloth on the body surface of an evacuee, and utilizing the heat insulation layer to play a role in resisting heat transfer and playing a role in resisting water diffusion inside the water absorption layer through the water insulation layer;

and S53, when the fire is extinguished, the spliced flame-retardant cloth covers the surface of the object on which the fire is generated, and the flame-retardant layer is utilized to play a role in isolating the expansion of the fire, so that the fire extinguishing treatment is further performed.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the protective plate, the clockwork spring, the sucker, the drawing block and the pull rope are arranged, the flame-retardant cloth is extended backwards after being stressed and deformed, at the moment, the flame-retardant cloth is driven by the pull rope to straighten, then the drawing block is pulled out of the sucker, at the moment, the bottom end of the flame-retardant cloth loses the constraint effect on the clockwork spring, and then the clockwork spring drives the flame-retardant cloth to be wound, so that the wound flame-retardant cloth fills the internal gap of the protective plate, and the anti-collision capability is enhanced.

2. According to the utility model, the reinforcing plate, the reinforcing ribs, the plastic steel blocks and the compression springs are arranged, the pre-bending treatment is carried out, the pre-stress resisting treatment can be carried out, the plastic steel blocks are driven to move along the sliding grooves, the space is further provided, the reinforcing ribs are conveniently stretched, the compression springs are extruded while the reinforcing ribs are stretched, the plastic steel blocks are forced to be restored to the original state after the impact effect is eliminated by means of the elastic effect of the compression springs, and the two ends of the reinforcing ribs are further forced to be restored to the original state.

3. According to the utility model, the flame-retardant layer, the water-proof layer, the heat-insulating layer and the water-absorbing layer are arranged, the detached flame-retardant cloth is spliced, the flame-retardant layer faces the fire occurrence direction, the flame-retardant effect is achieved by using the flame-retardant layer, the water-absorbing layer faces the surface of an evacuee, water is splashed on the surface of the water-absorbing layer, the spliced flame-retardant cloth is wrapped on the body surface of the evacuee, the heat-resistant transfer effect is achieved by using the heat-insulating layer, and the effect of preventing the water in the water-absorbing layer from diffusing is achieved by using the water-proof layer.

4. According to the sound-absorbing sponge board, the vertical plate, the sound-absorbing sponge board, the conical frustum blocks and the connecting screw rods are arranged, and the connecting screw rods are connected to the inside of the vertical plate in different depths, so that the conical frustum blocks form a rolling accumulation state on the surface of the sound-absorbing sponge board, the surface of the sound-absorbing sponge board forms a concave state with different fluctuation, and a good sound-insulating effect is achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of an installation structure of a protection board, a plugboard, a limit groove, a stop bar and a decoration board according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a back plate according to the present utility model;

FIG. 4 is a schematic view of a cross-sectional mounting structure of a reinforcing plate according to the present utility model;

FIG. 5 is a schematic view of the mounting structure of the reinforcing bars, plastic steel blocks and compression springs of the present utility model;

FIG. 6 is a schematic view of the structure of the flame retardant cloth according to the present utility model;

FIG. 7 is a schematic view of the flame retardant cloth, connecting frame and clockwork spring mounting structure of the present utility model;

FIG. 8 is a schematic view of the structure at A of the present utility model;

FIG. 9 is a schematic view of the mounting structure of the protective panel, flame retardant cloth, connection frame and plugboard of the present utility model;

FIG. 10 is a flow chart of the method of use of the present utility model.

In the figure: 1. a frame plate; 2. a protective plate; 3. flame retardant cloth; 4. a connection frame; 5. a clockwork spring; 6. a suction cup; 7. a drawing block; 8. a pull rope; 9. a back plate; 10. a movable plug; 11. a fixed block; 12. a limit groove; 13. a barrier strip; 14. a flame retardant layer; 15. a water-resistant layer; 16. a thermal insulation layer; 17. a water-absorbing layer; 18. a foam board; 19. a reinforcing plate; 20. reinforcing ribs; 21. a plastic steel block; 22. a compression spring; 23. a panel; 24. a plug board; 25. a vertical plate; 26. a sound absorbing sponge board; 27. conical frustum block; 28. a connecting screw; 29. a waterproof board; 30. a glue layer; 31. a first decorative plate; 32. a buffer spring; 33. a waterproof layer; 34. a transparent corrosion-resistant coating; 35. and a second decorative plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-10, an embodiment of the present utility model is provided: an environment-friendly recycling building material plate with anti-collision protection comprises a frame plate 1 and a protection plate 2, wherein the protection plate 2 is arranged on the back surface of the frame plate 1, a plug board 24 is embedded in the protection plate 2, a backboard 9 is arranged on the back surface of the plug board 24, and a waterproof plate 29 is arranged in the backboard 9;

the front surface of the plugboard 24 is provided with a connecting frame 4 which is arranged in an array, the surface of the connecting frame 4 is wound with a clockwork spring 5, the outer surface of the clockwork spring 5 is wound with a flame-retardant cloth 3, the tail end of the flame-retardant cloth 3 is provided with a sucker 6, the bottom of the sucker 6 is connected with the inner bottom wall of the protection board 2, the surface of the sucker 6 is penetrated and embedded with a drawing block 7, the surface of the drawing block 7 is connected with a pull rope 8, and the tail end of the pull rope 8 extends into the flame-retardant cloth 3 to be connected with the flame-retardant cloth 3;

the front surface of the connecting frame 4 gradually approaches the back surface of the frame plate 1 from top to bottom, and the thickness of the surface of the clockwork spring 5, around which the flame retardant cloth 3 is wound, gradually increases from top to bottom.

Through the gradually expanding installation design of the connecting frames 4, a plurality of groups of connecting frames 4 which are arranged up and down can be placed on different planes, so that the flame retardant cloth 3 is smoothly connected with the inner bottom wall of the protective plate 2, the bottom end of the flame retardant cloth 3 which is closer to the surface of the connecting frame 4 of the inner bottom wall of the protective plate 2 is closer to the bottom of the protective plate 2, in order to ensure that the thickness of all the flame retardant cloth 3 in the protective plate 2 after being wound can transversely fill the internal gaps of the protective plate 2, the anti-collision protection effect is achieved, and the winding thickness of the flame retardant cloth 3 on the surface of each group of connecting frames 4 in the initial state needs to be different;

the flame-retardant cloth 3 is stretched backwards after being stressed and deformed, the flame-retardant cloth 3 drives the pull rope 8 to be straightened, the pull block 7 is pulled out of the sucker 6, the bottom end of the flame-retardant cloth 3 loses the constraint function on the clockwork spring 5, the clockwork spring 5 drives the flame-retardant cloth 3 to be wound, the wound flame-retardant cloth 3 fills the internal gap of the protection plate 2, and the anti-collision capacity is enhanced.

The rear wall of the frame plate 1 is provided with buffer springs 32 which are arranged in an array, the front surface of the buffer springs 32 is provided with a foam plate 18, and the foam plate 18 is in embedded sliding connection with the frame of the frame plate 1.

Further, the impact protection effect is achieved by the restoring effect of the buffer spring 32 and the loose and porous design of the foam deck 18 itself.

The reinforcing plate 19 is installed in the front of frame board 1, the strengthening rib 20 of arranging vertically and horizontally is installed to the inner wall of reinforcing plate 19, the both ends of strengthening rib 20 are connected with mould steel billet 21, mould steel billet 21 and be close to the surface mounting of reinforcing plate 19 and have compression spring 22, the inner wall of reinforcing plate 19 is equipped with the spout, the spout is connected with mould steel billet 21 gomphosis, compression spring 22 is located the inside of spout, the strengthening rib 20 is the arc design through the preflex processing, the installation direction of spout and the inner wall trend of reinforcing plate 19 are crisscross and arrange, two sets of strengthening ribs 20 constitute the bellied frame construction of arc.

Further, through the pre-bending treatment, when the reinforcing rib 20 encounters impact, the pre-stress resisting treatment can be performed, and when the reinforcing rib 20 resists impact, the plastic steel block 21 is driven to move along the chute, so that the space is convenient for the reinforcing rib 20 to stretch, the compression spring 22 is extruded while the reinforcing rib 20 stretches, and then the plastic steel block 21 is forced to be restored to the original state after the impact is eliminated by means of the elastic action of the compression spring 22, so that the two ends of the reinforcing rib 20 are forced to be restored to the original state.

The flame-retardant cloth 3 comprises a flame-retardant layer 14, a water-resistant layer 15, a heat-insulating layer 16 and a water-absorbing layer 17, wherein the water-resistant layer 15 is arranged on the back surface of the flame-retardant layer 14, the heat-insulating layer 16 is arranged on the back surface of the water-resistant layer 15, the water-absorbing layer 17 is arranged on the back surface of the heat-insulating layer 16, the front surface of the flame-retardant layer 14 is close to the back surface of the frame plate 1, and the flame-retardant cloth 3 is connected with the outer wall of the clockwork spring 5 through non-adhesive glue.

Further, splice the fire-retardant cloth 3 that will tear down, when using the fire-retardant cloth 3 after the concatenation to flee, with fire-retardant layer 14 orientation fire situation emergence direction, play flame retardant effect with fire-retardant layer 14, and with the surface of layer 17 orientation person of fleing that absorbs water, splash water on the surface of layer 17 that absorbs water, later wrap up in the body surface of person of fleing with fire-retardant cloth 3 after the concatenation, play the effect that hinders the heat transfer with insulating layer 16, play the effect that prevents the inside moisture diffusion of layer 17 that absorbs water through water barrier 15.

The internally mounted of backplate 9 has riser 25, and sound-absorbing sponge board 26 is all installed to the front and the back of riser 25, and sound-absorbing sponge board 26's inside runs through and installs connecting screw 28, and connecting screw 28 is close to riser 25's one end and riser 25 threaded connection, and conical frustum piece 27 is installed to connecting screw 28 one end that is away from riser 25, and waterproof board 29 is located the rear of sound-absorbing sponge board 26 in the rear, and every group connecting screw 28 is inconsistent with riser 25's coupling depth, and conical frustum piece 27's inside is equipped with the round hole that runs through.

Further, the connecting screw rods 28 are connected to the inside of the vertical plate 25 in different depths, so that the truncated cone blocks 27 form a rolling backlog state on the surface of the sound-absorbing sponge plate 26, and the surface of the sound-absorbing sponge plate 26 forms a concave state with different rolling, thereby achieving a good sound-insulating effect.

The adhesive layer 30 is mounted on the back surface of the waterproof board 29, and the decorative board 31 is mounted on the back surface of the adhesive layer 30.

Further, the first decorative plate 31 can be smoothly adhered and mounted on the surface of the waterproof plate 29 by the adhesive layer 30, and the first decorative plate 31 can be conveniently separated from the surface of the waterproof plate 29, so that the movable insert 10 is exposed.

The inner wall of the protection board 2 is provided with a convex baffle bar 13, the baffle bar 13 is positioned in front of the plugboard 24, the inner wall of the protection board 2 is provided with an inward limiting groove 12, the limiting groove 12 is positioned behind the baffle bar 13, the back of the back board 9 is provided with symmetrically arranged fixed blocks 11, the inside of the fixed blocks 11 is embedded and slidingly provided with a movable plug block 10, and the movable plug block 10 is embedded and connected with the limiting groove 12.

Further, when the plug board 24 and the back plate 9 are mounted, they are inserted into the interior of the protection plate 2 and then meet the blocking of the blocking strip 13, and then the movable plug 10 is pulled away from the opposite direction, so that the plug board 24 and the back plate 9 are restrained in the interior of the protection plate 2 after the movable plug 10 is inserted into the interior of the limit groove 12.

The front of reinforcing plate 19 installs panel 23, and panel 23 comprises waterproof layer 33, transparent corrosion-resistant coating 34 and decorative board two 35, and decorative board two 35 is installed to the front of reinforcing plate 19, and transparent corrosion-resistant coating 34 is installed to the front of decorative board two 35, and waterproof layer 33 is installed to the front of transparent corrosion-resistant coating 34, and decorative board two 35 is made for wheat straw as the raw materials.

Further, the waterproof layer 33 is a transparent structure, and the waterproof layer 33 and the transparent corrosion-resistant coating 34 can provide waterproof and corrosion-resistant effects for the second decorative board 35 without obstructing the normal decorative and ornamental effects of the second decorative board 35.

The method comprises the following steps:

s1, before the building material plate is used, connecting screws 28 are connected to the inside of the vertical plate 25 in different depths, so that the truncated cone 27 forms a rolling backlog state on the surface of the sound-absorbing sponge plate 26, the surface of the sound-absorbing sponge plate 26 forms a concave state with different rolling, and a good sound-insulating effect is achieved;

s2, when the building material plate is impacted in the use process, the impact force F1 is transmitted to the reinforcing plate 19 after passing through the panel 23, and in the process, the reinforcing rib 20 which is in an arc-shaped state and is subjected to pre-bending treatment plays a role in heavy resisting protection;

s3, when the impact acting force F2 is larger than F1, the resistance of the acting force through the reinforcing plate 19 still cannot be completely eliminated, and at the moment, the acting force of F2 cut down by the reinforcing plate 19 is transferred to the foam plate 18, so that the double-resisting protection effect is achieved through the cooperation of the buffer spring 32 and the foam plate 18;

s4, when the impact acting force F3 is larger than F2, the acting force is transmitted to the surface of the protection plate 2 through the double reduction resistance of the reinforcing plate 19, the buffer spring 32 and the foam plate 18, the front surface of the protection plate 2 is deformed through the impact action, the flame-retardant cloth 3 in a straightened state is synchronously deformed, the flame-retardant cloth 3 is then wound up under the action of the spring 5, the thickness of the wound surface of the spring 5 is increased, and the impact resistance effect is achieved;

s5, if a fire occurs in the rear space of the first decorative board 31 in the process, the first decorative board 31 is torn off from the surface of the adhesive layer 30, and then the movable plug 10 is close to each other, so that the movable plug 10 is separated from the limit groove 12, the backboard 9 and the plug board 24 are detached from the interior of the protection board 2, and then fire-extinguishing escape treatment is performed by using the flame-retardant cloth 3.

The working steps of winding the clockwork spring 5 in the step S4 are as follows:

s31, after the flame-retardant cloth 3 is deformed under force, the flame-retardant cloth 3 extends backwards, and at the moment, the pull rope 8 is driven by the flame-retardant cloth 3 to straighten, and then the pull block 7 is pulled out of the sucker 6;

s32, after the drawing block 7 leaves the sucker 6, the sucker 6 loses connection with the inner bottom wall of the protection board 2, at the moment, the bottom end of the flame-retardant cloth 3 loses the constraint function on the clockwork spring 5, and then the clockwork spring 5 drives the flame-retardant cloth 3 to be wound, and further the wound flame-retardant cloth 3 fills the inner gap of the protection board 2, so that the anti-collision capability is enhanced.

S5, the fire-extinguishing escape treatment by using the flame-retardant cloth 3 comprises the following working steps:

s51, splicing the disassembled flame-retardant cloth 3, and when the spliced flame-retardant cloth 3 is used for escaping, enabling the flame-retardant layer 14 to face the fire occurrence direction, utilizing the flame-retardant layer 14 to play a flame-retardant effect, and enabling the water-absorbing layer 17 to face the surface of an escaping person;

s52, water is splashed on the surface of the water absorption layer 17, then the spliced flame-retardant cloth 3 is wrapped on the body surface of an evacuee, the heat insulation layer 16 is utilized to play a role in resisting heat transfer, and the water absorption layer 15 is utilized to play a role in resisting water diffusion in the water absorption layer 17;

and S53, when the fire is extinguished, the spliced flame-retardant cloth 3 is covered on the surface of a fire object, and the flame-retardant layer 14 is utilized to play a role in isolating the expansion of fire, so that the fire extinguishing treatment is further performed.

Working principle: before the building material plate is used, connecting screws 28 are connected to the inside of the vertical plate 25 at different depths, so that the surface of the sound-absorbing sponge plate 26 is in a concave state with different fluctuation, and a good sound-insulating effect is achieved;

when the impact is encountered, the impact force is firstly transmitted to the reinforcing plate 19 through the panel 23, the reinforcing rib 20 which is in an arc state and is subjected to pre-bending treatment plays a role in resisting protection, then is transmitted to the foam plate 18, and further plays a role in resisting protection by matching the buffer spring 32 and the foam plate 18, and then is transmitted to the surface of the protection plate 2, the front surface of the protection plate 2 is deformed through the impact action, the flame-retardant cloth 3 in a straight state is synchronously deformed, the flame-retardant cloth 3 is wound upwards under the action of the spring 5, the thickness of the wound surface of the spring 5 is increased, and the impact resistance effect is achieved;

in this process, if a fire occurs in the rear space of the first decorative board 31, the first decorative board 31 is torn off from the surface of the adhesive layer 30, and then the movable insert 10 is moved close to each other, so that the movable insert 10 is separated from the limiting groove 12, thereby removing the back board 9 and the plug board 24 from the interior of the protection board 2, and then performing fire-extinguishing escape treatment by using the fire-retardant cloth 3.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an environment-friendly recycling building material board with crashproof protection, includes frame board (1) and protection shield (2), its characterized in that: the back of the frame plate (1) is provided with a protection plate (2), the inside of the protection plate (2) is embedded with a plugboard (24), the back of the plugboard (24) is provided with a backboard (9), and the inside of the backboard (9) is provided with a waterproof plate (29);

the front of the plugboard (24) is provided with a connecting frame (4) which is arranged in an array, the surface of the connecting frame (4) is wound with a clockwork spring (5), the outer surface of the clockwork spring (5) is wound with a flame-retardant cloth (3), the tail end of the flame-retardant cloth (3) is provided with a sucker (6), the bottom of the sucker (6) is connected with the inner bottom wall of the protection board (2), the surface of the sucker (6) is provided with a drawing block (7) in a penetrating and jogging way, the surface of the drawing block (7) is connected with a pull rope (8), and the tail end of the pull rope (8) extends into the flame-retardant cloth (3) to be connected with the flame-retardant cloth (3);

the back wall of the frame plate (1) is provided with buffer springs (32) which are arranged in an array, the front surface of each buffer spring (32) is provided with a foam plate (18), and the foam plates (18) are in embedded sliding connection with the frame of the frame plate (1).

2. An environmentally friendly recycled building material panel with impact protection as claimed in claim 1, wherein: reinforcing plate (19) are installed in the front of frame board (1), strengthening rib (20) that vertically and horizontally arranged are installed to the inner wall of reinforcing plate (19), both ends of strengthening rib (20) are connected with plastic steel piece (21), surface mounting that plastic steel piece (21) are close to reinforcing plate (19) has compression spring (22), the inner wall of reinforcing plate (19) is equipped with the spout, the spout is connected with plastic steel piece (21) gomphosis, compression spring (22) are located the inside of spout.

3. An environmentally friendly recycled building material panel with impact protection as claimed in claim 2, wherein: the flame-retardant fabric (3) is composed of a flame-retardant layer (14), a water-resistant layer (15), a heat-insulating layer (16) and a water-absorbing layer (17), wherein the water-resistant layer (15) is installed on the back surface of the flame-retardant layer (14), the heat-insulating layer (16) is installed on the back surface of the water-resistant layer (15), the water-absorbing layer (17) is installed on the back surface of the heat-insulating layer (16), and the front surface of the flame-retardant layer (14) is close to the back surface of the frame plate (1).

4. An environmentally friendly recycled building material panel with impact protection as claimed in claim 3, wherein: the inside of backplate (9) is installed riser (25), sound-absorbing sponge board (26) are all installed to the front and the back of riser (25), connect screw (28) are installed in the inside run-through of sound-absorbing sponge board (26), and connect screw (28) be close to the one end and riser (25) threaded connection of riser (25), conical frustum piece (27) are installed to one end that riser (25) was kept away from to connect screw (28), waterproof board (29) are located the rear of sound-absorbing sponge board (26).

5. An environmentally friendly recycled building material panel with impact protection as claimed in claim 4, wherein: the front surface of the connecting frame (4) is gradually close to the back surface of the frame plate (1) from top to bottom, and the thickness of the flame-retardant cloth (3) wound on the surface of the spring (5) is gradually increased from top to bottom;

the reinforcing ribs (20) are in an arc-shaped design after pre-bending treatment, the installation direction of the sliding chute and the trend of the inner wall of the reinforcing plate (19) are in cross arrangement, and two groups of the reinforcing ribs (20) form an arc-shaped protruding frame structure;

the connection depth of each group of connection screw rods (28) and the vertical plate (25) is inconsistent, and a penetrating round hole is formed in the conical frustum block (27);

the flame-retardant cloth (3) is connected with the outer wall of the clockwork spring (5) through non-adhesive glue.

6. An environmentally friendly recycled building material panel with impact protection as claimed in claim 1, wherein: the back of the waterproof board (29) is provided with a cementing layer (30), and the back of the cementing layer (30) is provided with a decorative board I (31).

7. An environmentally friendly recycled building material panel with impact protection as claimed in claim 1, wherein: the utility model discloses a protection shield, including protection shield (2), fixed block (9), movable inserting block (10), fixed block (10) and fixed block (12) are installed to the back of backplate (9), protruding blend stop (13) are installed to the inner wall of protection shield (2), and blend stop (13) are located the place ahead of plugboard (24), limiting groove (12) of invagination are installed to the inner wall of protection shield (2), and limiting groove (12) are located the rear of blend stop (13), fixed block (11) of symmetrical arrangement are installed to the back of backplate (9), movable inserting block (10) are installed to inside gomphosis slidable mounting of fixed block (11), and movable inserting block (10) are connected with limiting groove (12) gomphosis.

8. An environmentally friendly recycled building material panel with impact protection as claimed in claim 2, wherein: the front of reinforcing plate (19) is installed panel (23), panel (23) are by waterproof layer (33), transparent corrosion-resistant coating (34) and decorative board two (35) are constituteed, decorative board two (35) are installed in the front of reinforcing plate (19), transparent corrosion-resistant coating (34) are installed in the front of decorative board two (35), waterproof layer (33) are installed in the front of transparent corrosion-resistant coating (34), and decorative board two (35) are made for wheat straw as the raw materials.

9. The method for using the environment-friendly recycling building material board with anti-collision protection according to any one of claims 1 to 8, which is characterized by comprising the following steps:

s1, before the building material plate is used, connecting screws (28) are connected to the inside of the vertical plate (25) in different depths, so that the truncated cone (27) forms a rolling backlog state on the surface of the sound-absorbing sponge plate (26), the surface of the sound-absorbing sponge plate (26) forms a concave state with different fluctuation, and a good sound-insulating effect is achieved;

s2, when the building material plate is impacted in the use process, the impact force F1 is transmitted to the reinforcing plate (19) after passing through the panel (23), and in the process, the reinforcing rib (20) which is subjected to pre-bending treatment and is in an arc-shaped state plays a role in heavy-resisting protection;

s3, when the impact acting force F2 is larger than F1, the acting force can not be completely eliminated through the resistance of the reinforcing plate (19), and the acting force of F2 cut down by the reinforcing plate (19) is transferred to the foam plate (18), so that the double-resisting protection effect is achieved through the cooperation of the buffer spring (32) and the foam plate (18);

s4, when the impact acting force F3 is larger than F2, the acting force is transmitted to the surface of the protection plate (2) through the double reduction of the reinforcing plate (19), the buffer spring (32) and the foam plate (18), the front surface of the protection plate (2) is deformed through the impact action, the flame-retardant cloth (3) in a straightened state is synchronously deformed, and then the flame-retardant cloth (3) is rolled up under the action of the spring (5), so that the thickness of the rolled up surface of the spring (5) is increased, and the impact resistance effect is achieved;

s5, if a fire occurs in the rear space of the first decorative plate (31) in the process, the first decorative plate (31) is torn off from the surface of the adhesive layer (30), then the movable inserting blocks (10) are mutually close to each other, so that the movable inserting blocks (10) are separated from the limit grooves (12), the backboard (9) and the inserting plates (24) are detached from the inside of the protective plate (2), and then fire-extinguishing escape treatment is performed by using the flame-retardant cloth (3);

the working steps of winding the clockwork spring (5) in the step S4 are as follows:

s31, after the flame-retardant cloth (3) is stressed and deformed, the flame-retardant cloth (3) drives the pull rope (8) to be straightened, and then the pull block (7) is pulled out of the sucker (6);

s32, after the drawing block (7) leaves the sucker (6), the sucker (6) loses connection with the inner bottom wall of the protection plate (2), at the moment, the bottom end of the flame-retardant cloth (3) loses the constraint function on the clockwork spring (5), so that the clockwork spring (5) drives the flame-retardant cloth (3) to be wound, and then the wound flame-retardant cloth (3) fills the inner gap of the protection plate (2), and the anti-collision capacity is enhanced.

10. The method for using the environment-friendly recycled building material board with anti-collision protection according to claim 9, wherein the working steps of using the flame retardant cloth (3) for fire-extinguishing escape treatment in the step S5 are as follows:

s51, splicing the disassembled flame-retardant cloth (3), when the spliced flame-retardant cloth (3) is used for escaping, enabling the flame-retardant layer (14) to face the fire occurrence direction, utilizing the flame-retardant layer (14) to play a flame-retardant effect, and enabling the water-absorbing layer (17) to face the surface of an escaping person;

s52, water is splashed on the surface of the water absorption layer (17), then the spliced flame-retardant cloth (3) is wrapped on the body surface of an evacuee, the heat-transfer-resistant effect is achieved by the heat insulation layer (16), and the effect of preventing the water inside the water absorption layer (17) from diffusing is achieved by the water isolation layer (15);

and S53, when the fire is extinguished, the spliced flame-retardant cloth (3) is covered on the surface of a fire object, and the flame-retardant layer (14) is used for isolating the expansion of fire, so that the fire extinguishing treatment is performed.