CN112696209A

CN112696209A - Subway tunnel arched wall based on heat-reducing flame-retardant

Info

Publication number: CN112696209A
Application number: CN202011557770.8A
Authority: CN
Inventors: 刘志; 其他发明人请求不公开姓名
Original assignee: Jiangsu Rongding Construction Technology Co ltd
Current assignee: Chuangye Heima Jiangsu Technology Co ltd
Priority date: 2019-11-07
Filing date: 2019-11-07
Publication date: 2021-04-23
Anticipated expiration: 2039-11-07
Also published as: CN110792451B; CN112696209B; CN110792451A

Abstract

The invention discloses a subway tunnel arched wall based on heat reduction and flame retardance, which belongs to the field of building construction, and relates to a multi-state subway tunnel arched wall based on heat reduction and flame retardance, wherein an embedded multi-state variable layer and a hollow overflow layer are arranged, so that an irregular ball is melted under the condition of a fire or a high-temperature imminent fire, liquid containing carbon dioxide flows out, on one hand, heat is volatilized and taken away for cooling, on the other hand, the concentration of the carbon dioxide in the part can be effectively improved, further, a certain inhibiting effect on the fire is achieved, the effective time of fire fighting of workers is prolonged, further, the threat of the fire happening to the subway tunnel to the lives and properties of people is effectively reduced, meanwhile, after the liquid in the irregular ball flows out, a bottom layer framework in a heat transition layer can generate gaps due to the loss of the irregular ball, and the gaps can store and contain more heat and smoke, further reducing the threat of fire.

Description

Subway tunnel arched wall based on heat-reducing flame-retardant

The invention relates to a polymorphic subway tunnel arched wall based on heat reduction and flame retardance, which is applied by division, wherein the application number of the original application is 201911083149.X, the application date is 2019, 11 and 07 days.

Technical Field

The invention relates to the field of building construction, in particular to a subway tunnel arched wall based on heat-reducing flame retardance.

Background

The Subway is a form of railway transportation, and refers to an urban rail transit system mainly operated underground, namely the abbreviation of underground railway or underground railway (Subway, tube, underground); many such systems may be switched to ground or elevated sections of road in areas outside of urban centers in order to fit the building environment and take into account construction and operating costs. The subway is a special, high-density and high-traffic urban rail transit system (Metro) covering various underground and overground roadways in urban areas, and the Taiwan subway in China is called as 'Rapid transit'.

In addition to underground railways, Elevated railways (Elevated railways) or railways laid on roadways are also included. Therefore, the subway is exclusive to the right of way and has no level crossing, which is also the fundamental sign that the subway is distinguished from the light rail traffic system. The earliest (and first) subway in the world was the metropolitan subway in london, england, and was established in 1863.

In the prior art, rain prevention and the like of subway tunnels are researched more, but fireproof measures of the subway tunnels are fewer, and the space of the conventional subway tunnels is relatively closed, so that after a fire disaster occurs, safety threats to personnel are large, for example, 1, 26 Tokyo subway fire accidents occur.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a subway tunnel arched wall based on heat-reducing flame-retardant performance, which can melt irregular balls under the condition of fire or high-temperature imminent fire through the arrangement of an embedded multi-state variable layer and a hollow overflow layer, the liquid containing carbon dioxide flows out, so that on one hand, the liquid volatilizes and takes away heat to cool, on the other hand, the concentration of the carbon dioxide in the part can be effectively improved, further achieves a certain inhibition effect on fire, prolongs the effective time of fire fighting for workers, thereby effectively reducing the threat of fire hazard in the subway tunnel to the lives and properties of people, simultaneously, when the liquid in the irregular ball flows out, the bottom layer skeleton in the thermal deformation layer can generate gaps due to the loss of the irregular ball, these voids are able to store and contain more heat and smoke, further reducing fire hazards.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a subway tunnel arch wall based on it is fire-retardant to reduce heat, includes embedded polymorphic layer and design inner liner, embedded polymorphic layer and tunnel inner wall fixed connection become, and embedded polymorphic layer and the adjacent setting of design inner liner become, embedded polymorphic layer that becomes includes fretwork overflow layer and two thermal layers that the mutual symmetry set up, be connected with a plurality of evenly distributed's upper strut pillar and side strut pillar between design inner liner and the tunnel inner wall, a plurality of the upper strut pillar is located the fretwork overflow layer, a plurality of the side strut pillar is located the thermal layer, the thermal layer includes the bottom skeleton and a plurality of double-material hybrid particles that run through the setting, the bottom skeleton is inlayed completely in a plurality of double-material hybrid particles, the design inner liner is excavated and is had a plurality of evenly distributed's overflow hole and adverse current hole, and a plurality of the overflow hole all is located fretwork overflow layer below, and a plurality of the adverse current hole site is inboard in the thermal layer, can be through the setting on embedded polymorphic change layer and fretwork overflow layer, be about to take place under the condition of conflagration or high temperature conflagration, irregular ball is melted, its inside liquid that contains carbon dioxide flows, volatilize on the one hand and take away the heat and cool down, the other party can effectively improve the carbon dioxide concentration of this part, and then reach certain inhibitory action to the conflagration, the live time of the fire fighting of staff's extension, and then effectively reduce subway tunnel and take place the threat that the conflagration led to the fact people's lives and property, and simultaneously, after liquid has flowed out in the irregular ball, intraformational bottom skeleton of heat altered is because the loss of irregular ball, can produce the space, these spaces can save and hold more heat and flue gas, further reduce the conflagration threat.

Further, the intensity that props pillar and overflow hole on all is greater than the intensity that the pillar was propped to the side and the refluence hole, through comparatively intensive prop the pillar on, be convenient for improve the stability and the intensity on fretwork overflow layer, make it hardly collapse in the use, under the condition of conflagration breaing out or high temperature, the binary mixed particle becomes liquid by the solid, volume increase and mobility become strong, through comparatively intensive overflow hole, the binary mixed particle of preliminary melting of being convenient for in time flows from the overflow hole, reach certain fire-retardant effect of cooling.

Furthermore, the inner wall of the countercurrent hole is fixedly connected with two turning blocks, and the two turning blocks are distributed in a centrosymmetric manner.

Furthermore, two the diversion piece all is the wedge, and two diversion pieces enclose into broken line passageway at the downthehole broken line passageway against the current, and the mixed granule of extra quality after being heated for a long time has the possibility of ageing pulverization, through the broken line passageway that two diversion pieces formed, can change the export in adverse current hole, and then effectively avoid its inside extra quality to mix the powder of granule and fall out from the department of flowing back hole, influences the flame retardant efficiency in later stage.

Further, the double-material mixed particles comprise quartz crystal particles and irregular balls, and liquid filled with carbon dioxide is wrapped in the irregular balls.

Furthermore, the irregular ball is made of PC material, PC begins to soften at 215 ℃, begins to flow at more than 225 ℃, the melt viscosity is too high below 260 ℃, decomposition can occur when the melt viscosity exceeds 340 ℃, when a fire disaster happens to the subway tunnel or the fire disaster is about to happen due to overhigh temperature, the irregular balls are melted, the liquid containing carbon dioxide flows out, so that on one hand, the liquid volatilizes and takes away heat to cool, on the other hand, the concentration of the carbon dioxide in the part can be effectively improved, further achieves a certain inhibiting effect on fire, and the wall thickness of the irregular sphere is 2-4mm and is too thin, it is easy to be broken accidentally during construction or transportation, causing the damage rate to be increased, causing the waste of materials and being too thick, the melting speed of the fire fighting furnace can be slowed down, so that the fire fighting furnace can not be broken in time, the fire is delayed, and the effect of providing longer fire fighting time for workers is not obvious.

Further, the mixing ratio of the quartz crystal particles to the irregular balls is 1: 2-3, natural quartz crystal is typical refractory material, its melting point is up to more than 1300 degrees, the quartz stone that 94% natural quartz made is fire-retardant completely, can not lead to the burning because of contacting high temperature, also possess the incomparable high temperature resistant characteristic of mesa such as rostone, and the particle diameter of quartz crystal granule and the particle diameter of irregular ball all are greater than the internal diameter of overflow hole and refluence hole, make two-material hybrid particles be difficult for leaking from overflow hole or refluence hole and leading to its inside packing density to change, effectively avoid leading to the flame retardant efficiency variation in later stage because of two-material hybrid particles become less.

Further, the bottom skeleton includes a plurality of bone poles that distribute at three-dimensional space, the bone pole comprises the crisscross cavity ectoskeleton of a plurality of mutual forks, under the conflagration or the high temperature that is about to take place the conflagration, liquid flows the back in the irregular ball, quartz crystal granule and bottom skeleton still remain in the heat altered layer, quartz crystal can have nothing the separation to insulate against heat and absorb heat this moment, cool down, and then restrain the temperature and further rise, and simultaneously, because the loss of irregular ball between a plurality of cavity ectoskeletons of bottom skeleton this moment, can produce more space, these spaces can save and hold more heat, produce the heat absorption effect.

Furthermore, a plurality of the hollow outer bones are communicated with each other, flowing liquid is filled in the hollow outer bones, and the flowing liquid is a liquid heat-absorbing material, so that the bottom layer framework has a strong heat-absorbing material, and the purpose of inhibiting the continuous rise of the temperature is achieved.

Furthermore, the filling degree of the flowing liquid in the hollow exoskeleton is 80-90% of the volume of the space in the flowing liquid, and the flowing liquid is heated and gasified at high temperature, so that the filling is over-saturated, and the hollow exoskeleton can be broken by expansion.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme can be through the setting on embedded polymorphic change layer and fretwork overflow layer, be about to take place under the condition of conflagration or high temperature conflagration, irregular ball is melted, its inside liquid that contains carbon dioxide flows, volatilize on the one hand and take away the heat and cool down, the other party can effectively improve the carbon dioxide concentration of this part, and then reach certain inhibitory action to the conflagration, the live time of the fire fighting for staff's extension, and then effectively reduce subway tunnel and take place the threat that the conflagration led to the fact people's lives and property, and simultaneously, after liquid has flowed out in the irregular ball, intraformational bottom skeleton of heat altered is because the loss of irregular ball, can produce the space, more heat and flue gas can be stored and hold in these spaces, further reduce the conflagration threat.

(2) The intensity that props pillar and overflow hole on all is greater than the intensity that props pillar and advection hole, through comparatively intensive prop the pillar on, be convenient for improve the stability and the intensity on fretwork overflow layer, make it hardly collapse in the use, under the condition of conflagration breaing out or high temperature, the binary mixed particle becomes liquid by the solid, volume increase and mobility are strengthened, through comparatively intensive overflow hole, the binary mixed particle of preliminary melting of being convenient for in time flows from the overflow hole, reach certain fire-retardant effect of cooling.

(3) Two diversion blocks of downthehole wall fixedly connected with flow against current, two diversion blocks are central symmetry and distribute, two diversion blocks all are the wedge, and two diversion blocks enclose into the broken line passageway at downthehole the flow against current, the mixed granule of extra quality after being heated for a long time has the possibility of ageing pulverization, through the broken line passageway that two diversion blocks formed, can change the export in adverse current hole, and then effectively avoid its inside extra quality mixed granule's powder to fall out from the hole department of flowing against current, influence the flame retardant efficiency in later stage.

(4) The double-material mixed particles comprise quartz crystal particles and irregular balls, and liquid filled with carbon dioxide is wrapped in the irregular balls.

(5) The irregular ball is made of a PC material, the PC begins to soften at 215 ℃, begins to flow at more than 225 ℃, the melt viscosity below 260 ℃ is too high, decomposition can occur when the temperature exceeds 340 ℃, when a fire disaster happens to a subway tunnel or the temperature is too high to cause a fire disaster, the irregular ball is melted, liquid containing carbon dioxide flows out from the irregular ball, on one hand, heat is volatilized and taken away for cooling, on the other hand, the concentration of the carbon dioxide in the irregular ball can be effectively improved, further, a certain inhibiting effect on the fire disaster is achieved, the wall thickness of the irregular ball is 2-4mm and too thin, the irregular ball is easy to break accidentally in the construction or transportation process, the damage rate of the irregular ball is increased, the material is wasted, the irregular ball is too thick, the melting speed of the irregular ball is slowed down, the irregular ball cannot break in time, the fire behavior is delayed, and the effect of providing.

(6) The mixing ratio of the quartz crystal particles to the irregular balls is 1: 2-3, natural quartz crystal is typical refractory material, its melting point is up to more than 1300 degrees, the quartz stone that 94% natural quartz made is fire-retardant completely, can not lead to the burning because of contacting high temperature, also possess the incomparable high temperature resistant characteristic of mesa such as rostone, and the particle diameter of quartz crystal granule and the particle diameter of irregular ball all are greater than the internal diameter of overflow hole and refluence hole, make two-material hybrid particles be difficult for leaking from overflow hole or refluence hole and leading to its inside packing density to change, effectively avoid leading to the flame retardant efficiency variation in later stage because of two-material hybrid particles become less.

(7) Bottom skeleton includes a plurality of bone poles that distribute at three-dimensional space, the bone pole comprises the crisscross cavity ectoskeleton of a plurality of mutual forks, under the conflagration or the high temperature that is about to take place the conflagration, liquid has run out the back in irregular ball, quartz crystal granule and bottom skeleton still remain in the heat altered layer, quartz crystal can insulate against heat and absorb heat of the separation of nothing this moment, cool down, and then restrain the temperature and further rise, and simultaneously, because the loss of irregular ball between a plurality of cavity ectoskeletons of bottom skeleton this moment, can produce more space, these spaces can save and hold more heat, produce the heat absorption effect.

(8) The hollow outer bones are communicated with each other, the flowing liquid is filled in the hollow outer bones and is a liquid heat absorption material, so that the bottom layer skeleton has a strong heat absorption material, and the continuous rise of the temperature is restrained.

(9) The filling degree of the flowing liquid in the hollow exoskeleton is 80-90% of the volume of the space in the flowing liquid, and the flowing liquid is heated and gasified at high temperature, so that the filling is over-saturated, and the hollow exoskeleton can be broken by expansion.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of a cross-sectional portion of a heat altered layer of the present invention;

FIG. 4 is a schematic structural view of an underlying skeletal section of the present invention;

FIG. 5 is a schematic structural view of the initial dropping of irregular spheres in the bimodal mixed particle of the present invention;

FIG. 6 is a schematic structural view of the bimodal mixed particles of the present invention when the irregular spherical fully-variable flame retardant liquid flows down;

FIG. 7 is a schematic view showing the structure of the molten irregular balls of the present invention as they flow out of the counter flow holes.

The reference numbers in the figures illustrate:

11 upper support struts, 12 side support struts, 21 overflow holes, 22 counterflow holes, 3 diversion blocks, 4 bone rods, 41 hollow outer bones and 42 flowing liquid.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1, a subway tunnel arched wall based on heat-reducing flame-retardant comprises an embedded multi-state variable layer and a shaping inner liner layer, wherein the embedded multi-state variable layer is fixedly connected with the inner wall of the tunnel and is arranged adjacent to the shaping inner liner layer, the embedded multi-state variable layer comprises a hollow overflow layer and two heat variable layers which are symmetrically arranged with each other, a plurality of uniformly distributed upper supporting pillars 11 and side supporting pillars 12 are connected between the shaping inner liner layer and the inner wall of the tunnel, the plurality of upper supporting pillars 11 are arranged in the hollow overflow layer, the plurality of side supporting pillars 12 are arranged in the heat variable layer, the plurality of overflow holes 21 are arranged below the hollow overflow layer, the plurality of counterflow holes 22 are arranged inside the heat variable layer, the shaping inner liner layer is provided with a plurality of uniformly distributed overflow holes 21 and counterflow holes 22, the concentration of the upper supporting pillars 11 and the overflow holes 21 is greater than that of the side supporting pillars 12 and the counterflow holes 22, and the comparatively dense upper supporting pillars 11, stability and intensity on the overflow layer of being convenient for improve the fretwork make it hardly collapse in the use, and under the condition of conflagration breaing out or high temperature, extra quality hybrid particle becomes liquid by the solid, and bulk augmentation and mobility become strong, through comparatively intensive overflow hole 21, the extra quality hybrid particle of being convenient for preliminary melting in time flows out from overflow hole 21, reaches certain fire-retardant effect of cooling.

Please refer to fig. 2 and 7, the inner wall of the reverse flow hole 22 is fixedly connected with two turning blocks 3, the two turning blocks 3 are distributed in central symmetry, the two turning blocks 3 are both wedge-shaped, and the two turning blocks 3 form a broken line channel in the reverse flow hole 22, after long-term heating, the double-material mixed particles have the possibility of aging and pulverization, the outlet of the reverse flow hole 22 can be changed through the broken line channel formed by the two turning blocks 3, thereby effectively preventing the powder of the double-material mixed particles inside the reverse flow hole from falling out from the reverse flow hole 22 and affecting the later-stage flame retardant effect.

Referring to fig. 3, the heat change layer comprises a bottom layer skeleton and a plurality of double-material mixed particles, the bottom layer skeleton is completely embedded in the double-material mixed particles, the double-material mixed particles comprise quartz crystal particles and irregular balls, liquid filled with carbon dioxide is wrapped in the irregular balls, the irregular balls are made of a PC material, the PC begins to soften at 215 ℃, starts to flow at above 225 ℃, melts with too high viscosity below 260 ℃ and can be decomposed at above 340 ℃, when a fire disaster occurs in a subway tunnel or the temperature is too high, the irregular balls are melted, the liquid containing carbon dioxide flows out, on one hand, heat is volatilized and taken away for cooling, on the other hand, the concentration of the carbon dioxide in the part can be effectively increased, and further, a certain inhibiting effect on the fire disaster is achieved;

the wall thickness of the irregular ball is 2-4mm and is too thin, the irregular ball is easy to break accidentally in the construction or transportation process, the damage rate is increased, the material is wasted, the melting speed of the irregular ball is slowed down, the irregular ball cannot break in time, the fire is delayed, the effect of providing longer fire fighting time for workers is not obvious, and the mixing ratio of quartz crystal particles to the irregular ball is 1: 2-3, natural quartz crystal is typical refractory material, its melting point is up to 1300 degrees above, the quartz stone that 94% natural quartz made is fire-retardant completely, can not lead to the burning because of contacting high temperature, also possess the incomparable high temperature resistant characteristic of mesa such as rostone, and the particle diameter of quartz crystal granule and the particle diameter of irregular ball are all greater than the internal diameter of overflow hole 21 and adverse current hole 22, make two material hybrid particles difficult to lead to its inside packing density to change because of spilling from overflow hole 21 or adverse current hole 22, effectively avoid leading to the flame retardant efficiency variation in later stage because of two material hybrid particles become less.

Referring to fig. 3, the bottom skeleton includes a plurality of bone rods 4 distributed in a three-dimensional space, each bone rod 4 is composed of a plurality of hollow outer bones 41 which are mutually forked and staggered, and at a high temperature of a fire or a fire to be generated, when liquid in the irregular ball flows out, quartz crystal particles and the bottom skeleton remain in the thermal deformation layer, and at the moment, the quartz crystal can insulate heat and absorb heat without any barrier, so that the temperature is reduced, and further the temperature is inhibited from further rising.

Referring to fig. 4, the plurality of hollow outer ribs 41 are connected to each other, the plurality of hollow outer ribs 41 are filled with the flowing liquid 42, and the flowing liquid 42 is a liquid heat absorbing material, so that the bottom layer skeleton itself has a strong heat absorbing material, and the temperature is restrained from increasing continuously, the filling degree of the flowing liquid 42 in the hollow outer ribs 41 is 80-90% of the volume of the space in the flowing liquid 42, and under a high temperature, the flowing liquid 42 is heated and gasified, the filling is too saturated, and the hollow outer ribs 41 may be broken.

Through the arrangement of the embedded multi-state variable layer and the hollow overflow layer, under the condition of fire or high-temperature imminent fire, the irregular ball is melted, please refer to fig. 5, the liquid containing carbon dioxide inside the irregular ball flows out from the overflow hole 21 in the state of initial change liquid drops, on one hand, the liquid volatilizes and takes away heat for cooling, on the other hand, the concentration of the carbon dioxide can be effectively improved, further, a certain inhibiting effect on the fire is achieved, the effect of providing longer fire fighting time for workers is provided, further, the threat of the fire in the subway tunnel to the lives and properties of people is effectively reduced, meanwhile, please refer to fig. 6-7, when the irregular ball completely changes the flame retardant liquid and flows out from the broken line channel of the backflow hole 22, the arrow in the figure shows the flowing direction, the heat absorption area is further increased, the cooling effect is improved, quartz crystal particles and a bottom layer framework are remained in, quartz crystal can insulate against heat and absorb heat of separation this moment without, cool down, and then restrain the further rising of temperature, and because the loss of irregular ball between the outer bone 41 of a plurality of cavitys of bottom skeleton, can produce more space, these spaces can be saved and hold more heat and flue gas, further reduce the conflagration threat, this tunnel inner wall can also play the endothermic effect of cooling when not taking place the conflagration simultaneously, make the temperature of subway operating system be unlikely to too high, and then effectively improve life.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. The utility model provides a subway tunnel arch wall based on it is fire-retardant to reduce heat, includes embedded polymorphic change layer and design inner liner, its characterized in that: the embedded polymorphic layer that becomes and tunnel inner wall fixed connection, and the embedded polymorphic layer that becomes sets up with the design inner liner is adjacent, the embedded polymorphic layer that becomes includes fretwork overflow layer and the hot layer that becomes that two mutual symmetries set up, be connected with a plurality of evenly distributed's between design inner liner and the tunnel inner wall and prop pillar (11) and side brace pillar (12), a plurality of prop pillar (11) on and be located the fretwork overflow layer, it is a plurality of side brace pillar (12) are located the heat altered in situ.

2. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 1, wherein: thermal change layer is including running through the bottom skeleton and a plurality of extra quality hybrid particles that set up, the bottom skeleton is inlayed completely in a plurality of extra quality hybrid particles, the design inner liner is dug overflow hole (21) and adverse current hole (22) that have a plurality of evenly distributed, and is a plurality of overflow hole (21) all are located fretwork overflow layer below, and are a plurality of adverse current hole (22) are located thermal change layer inboard.

3. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 2, wherein: the density of the upper supporting pillars (11) and the overflow holes (21) is greater than that of the side supporting pillars (12) and the backflow holes (22).

4. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 2, wherein: two diversion blocks (3) are fixedly connected with the inner wall of the backflow hole (22), and the diversion blocks (3) are distributed in a centrosymmetric mode.

5. The subway tunnel arched wall based on heat reduction and flame retardance of claim 4, is characterized in that: the two turning blocks (3) are wedge-shaped, and the two turning blocks (3) form a broken line channel in the backflow hole (22) in a surrounding mode.

6. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 1, wherein: the double-material mixed particles comprise quartz crystal particles and irregular balls, and liquid filled with carbon dioxide is wrapped in the irregular balls.

7. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 1, wherein: the mixing ratio of the quartz crystal particles to the irregular balls is 1: 2-3, and the grain diameter of the quartz crystal grains and the grain diameter of the irregular balls are both larger than the inner diameters of the overflow hole (21) and the countercurrent hole (22).

8. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 2, wherein: the bottom layer framework comprises a plurality of bone rods (4) distributed in a three-dimensional space, and the bone rods (4) are composed of a plurality of hollow outer bones (41) which are mutually forked and staggered.

9. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 8, wherein: the hollow outer bones (41) are mutually communicated, the hollow outer bones (41) are filled with flowing liquid (42), and the flowing liquid (42) is a liquid heat-absorbing material.

10. The subway tunnel arched wall based on heat reduction and flame retardance as claimed in claim 9, wherein: the filling degree of the flowing liquid (42) in the hollow outer bone (41) is 80-90% of the volume of the space in the flowing liquid (42).