CN112663803A

CN112663803A - Outer wall protector for construction

Info

Publication number: CN112663803A
Application number: CN202011500435.4A
Authority: CN
Inventors: 杨盈
Original assignee: Chengdu Zhubo Building Materials Co ltd
Current assignee: Chengdu Zhubo Building Materials Co ltd
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-04-16

Abstract

The invention discloses an outer wall protection device for building construction, belonging to the field of outer wall protection, and the scheme is that a waterproof curtain is used for protecting an outer wall, so that the contact of floating impurities with the outer wall is reduced, in rainy weather, the contact of rainwater with the outer wall is reduced through a temperature control expansion ball in an installation through hole, moisture at the outer end of the waterproof curtain is guided to the inside of a hollow graphite ball through water guide fibers, so that the water guide fibers in the hollow graphite ball adsorb the moisture and release heat, a carbonic acid solution in a hollow expansion ring rapidly expands when heated, the water retaining effect of the waterproof curtain is improved, the heat evaporates rainwater at the outer side of the waterproof curtain, on the other hand, a shape memory spring expands when heated, the ultrahigh water absorption fibers at the outer end of a sliding pipe adsorb the humidity in the outer wall, and the light is transmitted into a light guide pipe through a high-light-transmitting ring, the drying to the outer wall can be accelerated, and the outer wall drying efficiency is improved.

Description

Outer wall protector for construction

Technical Field

The invention relates to the field of outer wall protection, in particular to an outer wall protection device for building construction.

Background

Wall materials generally have a plurality of tiny holes, or penetrating gaps are generated due to the fact that the wall materials are not tightly installed or the materials shrink. Due to the holes and the gaps, cold air permeates into the room from the windward wall surface by the pressure of outdoor wind in winter, temperature difference exists between the indoor and the outdoor, and indoor hot air permeates into the outer wall from the inner wall, so that air permeation of the outer wall occurs by wind pressure and hot pressing. The heat loss thus occurring is detrimental to the insulation of the wall. In order to prevent air permeation of the outer wall, wall materials with high compactness are generally adopted, and the treatment methods such as plastering layers are added inside and outside the wall, close joint treatment among reinforcing members and the like are adopted. In hot areas, the middle and lower reaches of Yangtze river and transition areas thereof, the solar radiation is strong in summer, and outdoor heat is transmitted into the room through the outer wall, so that the indoor temperature is raised, and the overheating phenomenon is generated.

The wall plastering means the surface layer project of plastering cement mortar, mixed mortar and lime mortar on the wall. The plastering work of the indoor and outdoor wall is a work after the construction of the building structure is finished, and the scientific plastering work can play the functions of moisture prevention, weathering prevention, heat insulation and the like, thereby preventing the wall body of the building from being eroded by wind, rain, snow and the like. The concrete wall surface constructed by the large formwork is smooth and flat, but the wall surface constructed by the large formwork needs to be plastered and straightened at the positions of the joint of the longitudinal and transverse walls, the joint of the upper layer and the lower layer of the staircase, the opening of the door and the window and the like

At present, the outer wall of a building needs to be painted before coating, but the outer wall cannot be well protected after painting is finished, so that the outer wall is not dry and meets water or is damaged, and the painted wall surface of the outer wall of the building is prone to falling and cracking.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide an outer wall protection device for building construction, the scheme is that a waterproof curtain slides on a slide rail to a proper position of an outer wall to protect the outer wall, so that the contact of floating impurities with the outer wall is reduced, in rainy days, the contact of rainwater with the outer wall is reduced through a temperature control expansion ball in an installation through hole, moisture at the outer end of the waterproof curtain is guided to the inside of a hollow graphite ball through water guide fibers, so that the water guide fibers in the hollow graphite ball adsorb the moisture and release heat, when the heat is transferred to the outer end of a hollow expansion ring, a carbonic acid solution in the hollow expansion ring rapidly expands when meeting the heat, the water retaining effect of the waterproof curtain is improved, the heat evaporates rainwater outside the waterproof curtain, and when the heat is transferred to the outer ends of water absorption ultrahigh fibers and a shape memory spring through heat conducting wires, the shape memory spring expands when meeting the heat, ejecting with the sliding tube, the super high fiber that absorbs water through the sliding tube outer end adsorbs the humidity in with the outer wall, and light transmits to the light pipe in through high printing opacity ring to on reflecting light to the outer wall through the light pipe, with higher speed to the stoving of outer wall, improve outer wall drying efficiency.

2. Technical scheme

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

The utility model provides an outer wall protector for construction, includes the slide rail, the outer end sliding connection of slide rail has a pair of horizontal pole, and is a pair of fixedly connected with connecting rod between the horizontal pole, fixedly connected with waterproof curtain between the inner wall of horizontal pole and connecting rod, the outer end of waterproof curtain is dug there is the installation through-hole, the inside fixedly connected with control by temperature change inflation ball of installation through-hole, the inside packing of waterproof curtain has a plurality of inflation strips, inflation strip communicates with each other with the inner wall of installation through-hole, the outer end fixedly connected with a plurality of even minute fine hair of inflation strip, the fine hair extends to the outside of waterproof curtain, when building outer wall whitewashes finishes, installs the slide rail on needs outer wall surface, and waterproof curtain passes through the horizontal pole and slides to the suitable position of outer wall on the slide rail, protects the outer wall, reduces showy impurity and outer wall contact, and when rainwater weather, reduce rainwater and outer wall contact through the control by temperature change inflation ball in the through-hole of installation to effectual improvement outer wall whitewashes the fastness after, is difficult for droing, control by temperature change inflation ball includes hollow expansion ring, the inside packing of hollow expansion ring has carbonic acid solution, the high printing opacity of inner wall fixedly connected with ring of hollow expansion ring, the hollow graphite ball of fixedly connected with between the inner wall of high printing opacity ring, the inside packing of hollow graphite ball has the zeolite, and when humidity in the air is higher, leads the inside to the hollow graphite ball through the moisture of water guide fibre with waterproof curtain outer end, and it is too big to reduce waterproof curtain outside humidity.

Further, a plurality of evenly distributed's of inside fixedly connected with water guide fiber of hollow graphite ball, water guide fiber runs through the outside that hollow graphite ball and high printing opacity ring extended to hollow expansion ring, fixedly connected with moisture adsorption equipment between the inner wall of installation through-hole, moisture adsorption equipment is located the left side of hollow expansion ring for water guide fiber in the hollow graphite ball adsorbs the moisture and releases heat, and when heat transfer to the outer end of hollow expansion ring, the carbonic acid solution in the hollow expansion ring is met heat and is expanded fast, improves the effect of the manger plate of waterproof curtain, and the heat evaporates the rainwater in the waterproof curtain outside.

Furthermore, the moisture adsorption device comprises an adsorption pipe, a fixing ring is fixedly connected to the left end of the adsorption pipe, the fixing ring is located on the outer side of the waterproof curtain, an annular mounting groove is formed in the left end of the fixing ring, an adsorption ring matched with the annular mounting groove is arranged inside the annular mounting groove, ultrahigh water-absorbing fibers are fixedly connected to the outer end of the adsorption ring, a sliding pipe is fixedly connected to the right end of the adsorption ring, the sliding pipe is located inside the adsorption pipe and is in sliding connection with the adsorption pipe, a light pipe is arranged inside the adsorption pipe and is located inside the adsorption ring, a shape memory spring is fixedly connected to the outer end of the light pipe and is located on the right side of the sliding pipe, a heat conducting wire is arranged inside the light pipe, one end of the heat conducting wire is in contact with the outer end of the hollow expansion ring, and when heat is transferred to the ultrahigh water-absorbing fibers and the outer end of the shape memory spring through the heat conducting wire, shape memory spring meets thermal expansion, and is ejecting with the sliding tube, adsorbs the humidity in with the outer wall through the super high fiber that absorbs water of sliding tube outer end, and on the other hand, light transmits to the light pipe in through high printing opacity ring to on reflecting light to the outer wall through the light pipe, with higher speed to the stoving of outer wall, improve outer wall drying efficiency.

Further, the connecting rod is formed by the universal joint connection through a plurality of connecting blocks for waterproof curtain laminating in the wall of different shapes, the waterproof curtain of reduction is to the skid-proof limitation of wall.

Further, waterproof curtain adopts glass fiber to make, the outer end of waterproof curtain is scribbled the brush and is had hydrophobic coating, and not only effectual floating stops, effectual reduction rainwater is in the remaining of waterproof curtain outer end moreover.

Further, the inflation strip adopts rubber to make, the inside packing of inflation strip has carbon dioxide gas, and the inflation strip is met thermal expansion time for waterproof curtain surface deformation, effectual with the remaining rainwater separation in the waterproof curtain outside, the effectual dry degree that improves the waterproof curtain outside.

Furthermore, one end of the water guide fiber, which is far away from the hollow graphite ball, is fixedly connected with ceramsite, water-absorbent resin is filled in the ceramsite, and when the water-absorbent resin absorbs moisture, the water-absorbent resin changes color after meeting water, so that the dryness of the building outer wall can be quickly observed.

An outer wall protection device for building construction comprises the following steps:

s1, the waterproof curtain slides to a proper position of the outer wall on the slide rail through the cross rod to protect the outer wall, so that the contact of floating impurities with the outer wall is reduced, and in rainy days, the contact of rainwater with the outer wall is reduced through the temperature control expansion balls in the mounting through holes;

s2, guiding moisture at the outer end of the waterproof curtain to the inside of the hollow graphite ball through the water guide fibers, so that the water guide fibers in the hollow graphite ball absorb the moisture and release heat, and when heat is transferred to the outer end of the hollow expansion ring, the carbonic acid solution in the hollow expansion ring is rapidly expanded when heated;

s3, when heat is transferred to the ultra-high water absorption fibers and the outer ends of the shape memory springs through the heat conducting wires, the shape memory springs expand when heated, the sliding pipes are ejected out, and the ultra-high water absorption fibers at the outer ends of the sliding pipes adsorb the humidity in the outer wall;

s4, light is transmitted to the light pipe through the high light-transmitting ring, and the light is reflected to the outer wall through the light pipe, so that the drying of the outer wall is accelerated, and the drying efficiency of the outer wall is improved.

3. Advantageous effects

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

(1) the scheme protects the outer wall by sliding the waterproof curtain on the slide rail to a proper position of the outer wall, reduces the contact of floating impurities with the outer wall, reduces the contact of rainwater with the outer wall by the temperature control expansion ball in the mounting through hole in rainwater weather, leads the moisture at the outer end of the waterproof curtain to the inside of the hollow graphite ball by the water guide fiber, leads the water guide fiber in the hollow graphite ball to absorb the moisture and release heat, when heat is transferred to the outer end of the hollow expansion ring, the carbonic acid solution in the hollow expansion ring expands rapidly when meeting the heat, improves the water retaining effect of the waterproof curtain, evaporates the rainwater outside the waterproof curtain by the heat, and pushes out the slide pipe when the heat is transferred to the outer ends of the ultrahigh water absorption fiber and the shape memory spring by the heat conduction wire, the ultrahigh water absorption fiber at the outer end of the slide pipe absorbs the humidity in the outer wall, light transmits to the light pipe in through high printing opacity ring, and reflect light to the outer wall on through the light pipe, drying to the outer wall with higher speed, improve outer wall drying efficiency, control by temperature change inflation ball includes hollow inflation ring, the inside packing of hollow inflation ring has carbonic acid solution, the high printing opacity ring of inner wall fixedly connected with of hollow inflation ring, the hollow graphite ball of fixedly connected with between the inner wall of high printing opacity ring, the inside packing of hollow graphite ball has the zeolite, when humidity in the air is higher, lead the inside to the hollow graphite ball through the moisture of water guide fibre with waterproof curtain outer end, it is too big to reduce the outside humidity of waterproof curtain.

(2) The inside fixedly connected with water guide fibre of a plurality of evenly distributed of hollow graphite ball, the water guide fibre runs through the outside that hollow graphite ball and high printing opacity ring extended to hollow expansion ring, fixedly connected with moisture adsorption equipment between the inner wall of installation through-hole, moisture adsorption equipment is located the left side of hollow expansion ring, make the water guide fibre in the hollow graphite ball adsorb the moisture and release heat, when heat transfer to the outer end of hollow expansion ring, the carbonic acid solution in the hollow expansion ring meets heat and expands fast, improve the effect of the manger plate of waterproof curtain, and the heat is with the rainwater evaporation in the waterproof curtain outside.

(3) The moisture adsorption device comprises an adsorption pipe, the left end of the adsorption pipe is fixedly connected with a fixing ring, the fixing ring is positioned on the outer side of the waterproof curtain, the left end of the fixing ring is provided with an annular installation groove, an adsorption ring matched with the annular installation groove is arranged inside the annular installation groove, the outer end of the adsorption ring is fixedly connected with ultrahigh water absorption fibers, the right end of the adsorption ring is fixedly connected with a sliding pipe, the sliding pipe is positioned inside the adsorption pipe, the sliding pipe is slidably connected with the adsorption pipe, a light pipe is arranged inside the adsorption pipe, the light pipe is positioned inside the adsorption ring, the outer end of the light pipe is fixedly connected with a shape memory spring, the shape memory spring is positioned on the right side of the sliding pipe, a heat conducting wire is arranged inside the light pipe, one end of the heat conducting wire is contacted with the outer end of a hollow expansion ring, when heat is transferred to the outer ends of the, ejecting with the sliding tube, the super high water absorption fibre through the sliding tube outer end adsorbs the humidity in with the outer wall, and on the other hand, light transmits to in the light pipe through high printing opacity ring to on reflecting light to the outer wall through the light pipe, with higher speed to the stoving of outer wall, improve outer wall drying efficiency.

(4) The connecting rod is formed by the universal joint connection through a plurality of connecting blocks for waterproof curtain laminating in the wall of different shapes, the waterproof curtain of reduction is to the skid-proof limitation of wall.

(5) Waterproof curtain adopts glass fiber to make, and the outer end of waterproof curtain is scribbled the brush and is had hydrophobic coating, and not only effectual blockking floating, effectual reduction rainwater is in the remaining of waterproof curtain outer end moreover.

(6) The inflation strip adopts rubber to make, and the inside packing of inflation strip has carbon dioxide gas, and the inflation strip is met when thermal expansion for waterproof curtain surface deformation, effectual with the remaining rainwater separation in the waterproof curtain outside, the drying degree in the waterproof curtain outside of effectual improvement.

(7) The water guide fiber is fixedly connected with ceramsite at one end far away from the hollow graphite ball, the inside of the ceramsite is filled with water-absorbent resin, and when the water-absorbent resin absorbs moisture, the water-absorbent resin changes color after meeting the water, so that the dryness degree of the building outer wall can be quickly observed.

Drawings

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

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic side sectional view of the present invention;

FIG. 4 is a schematic structural view of a front cross section of the temperature-controlled expansion ball of the present invention;

FIG. 5 is a schematic view of a front cross-sectional structure of an adsorption tube according to the present invention;

FIG. 6 is a schematic side view of the retaining ring of the present invention.

The reference numbers in the figures illustrate:

the device comprises a cross bar 1, a connecting bar 2, a waterproof curtain 3, a mounting through hole 4, an expansion strip 5, a hollow expansion ring 6, an adsorption tube 7, a carbonic acid solution 8, a high-light-transmittance ring 9, a hollow graphite sphere 10, zeolite 11, water guide fibers 12, ceramsite 13, water absorbent resin 14, a fixing ring 15, an adsorption ring 16, ultrahigh-water-absorption fibers 17, a sliding tube 18, a light guide tube 19, a shape memory spring 20 and a heat conduction wire 21.

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. 1-3, an outer wall protection device for building construction comprises a slide rail, a pair of cross bars 1 are slidably connected to the outer end of the slide rail, a connecting rod 2 is fixedly connected between the pair of cross bars 1, a waterproof curtain 3 is fixedly connected between the cross bars 1 and the inner wall of the connecting rod 2, a mounting through hole 4 is chiseled on the outer end of the waterproof curtain 3, a temperature control expansion ball is fixedly connected to the inside of the mounting through hole 4, a plurality of expansion strips 5 are filled in the waterproof curtain 3, the expansion strips 5 are communicated with the inner wall of the mounting through hole 4, a plurality of uniform micro-fluff is fixedly connected to the outer end of the expansion strips 5, the micro-fluff extends to the outer side of the waterproof curtain 3, the temperature control expansion ball comprises a hollow expansion ring 6, a carbonic acid solution 8 is filled in the hollow expansion ring 6, a high-light-transmitting ring 9 is fixedly connected to the inner wall of the hollow expansion ring 6, the hollow graphite spheres 10 are filled with zeolite 11 inside.

Referring to fig. 4, a plurality of water guide fibers 12 are uniformly distributed and fixedly connected inside the hollow graphite sphere 10, the water guide fibers 12 penetrate through the hollow graphite sphere 10 and the high light-transmitting ring 9 and extend to the outside of the hollow expansion ring 6, a moisture adsorption device is fixedly connected between the inner walls of the installation through holes 4 and is located on the left side of the hollow expansion ring 6, when the humidity in the air is high, the water guide fibers 12 inside the hollow graphite sphere 10 adsorb the moisture and release heat, when the heat is transferred to the outer end of the hollow expansion ring 6, the carbonic acid solution 8 inside the hollow expansion ring 6 expands rapidly when heated, the water retaining effect of the waterproof curtain 3 is improved, and the heat evaporates rainwater outside the waterproof curtain 3.

Referring to fig. 5-6, the moisture adsorbing device includes an adsorbing tube 7, a fixing ring 15 is fixedly connected to a left end of the adsorbing tube 7, the fixing ring 15 is located outside the waterproof curtain 3, an annular mounting groove is drilled at a left end of the fixing ring 15, an adsorbing ring 16 matched with the annular mounting groove is arranged inside the annular mounting groove, an ultra-high water-absorbing fiber 17 is fixedly connected to an outer end of the adsorbing ring 16, a sliding tube 18 is fixedly connected to a right end of the adsorbing ring 16, the sliding tube 18 is located inside the adsorbing tube 7, the sliding tube 18 is slidably connected to the adsorbing tube 7, a light guide tube 19 is arranged inside the adsorbing tube 7, the light guide tube 19 is located inside the adsorbing ring 16, a shape memory spring 20 is fixedly connected to an outer end of the light guide tube 19, the shape memory spring 20 is located at a right side of the sliding tube 18, a heat conducting wire 21 is arranged inside the light guide tube 19, one end of the heat conducting wire 21 is in contact with an outer end of the hollow expansion ring 6, shape memory spring 20 is met thermal expansion, and is ejecting with slide tube 18, adsorbs the humidity in the outer wall through the super high absorbent polymer 17 of slide tube 18 outer end, and on the other hand, light passes through high printing opacity ring 9 and transmits to light pipe 19 in to on reflecting light to the outer wall through light pipe 19, the stoving to the outer wall with higher speed improves outer wall drying efficiency.

Please refer to fig. 1-2, the connecting rod 2 is formed by connecting universal joints through a plurality of connecting blocks, so that the waterproof curtain 3 is attached to the wall surfaces with different shapes, the reduced limitation of the waterproof curtain 3 on the skid resistance of the wall surfaces is realized, the waterproof curtain 3 is made of glass fiber, the outer end of the waterproof curtain 3 is coated with a hydrophobic coating, not only is the floating blocked effectively, but also the residual of rainwater at the outer end of the waterproof curtain 3 is reduced effectively.

Referring to fig. 2-4, the expansion strip 5 is made of rubber, carbon dioxide gas is filled in the expansion strip 5, when the expansion strip 5 expands with heat, the surface of the waterproof curtain 3 deforms, rainwater remained on the outer side of the waterproof curtain 3 is effectively separated, and the drying degree of the outer side of the waterproof curtain 3 is effectively improved, one end, away from the hollow graphite ball 10, of the water guide fiber 12 is fixedly connected with a ceramsite 13, the water absorbent resin 14 is filled in the ceramsite 13, and when the water absorbent resin 14 absorbs water, the water absorbent resin 14 changes color after meeting water, so that the drying degree of the outer wall of the building is quickly observed.

s1, the waterproof curtain 3 slides on the slide rail to a proper position of the outer wall through the cross rod 1 to protect the outer wall, so that the contact of floating impurities with the outer wall is reduced, and in rainy days, the contact of rainwater with the outer wall is reduced through the temperature control expansion ball in the installation through hole 4;

s2, guiding moisture at the outer end of the waterproof curtain 3 to the inside of the hollow graphite ball 10 through the water guide fibers 12, so that the water guide fibers 12 in the hollow graphite ball 10 absorb the moisture and release heat, and when the heat is transferred to the outer end of the hollow expansion ring 6, the carbonic acid solution 8 in the hollow expansion ring 6 is heated to expand rapidly;

s3, when heat is transferred to the ultra-high water absorption fibers 17 and the outer ends of the shape memory springs 20 through the heat conducting wires 21, the shape memory springs 20 expand when heated, the sliding pipes 18 are ejected out, and the ultra-high water absorption fibers 17 at the outer ends of the sliding pipes 18 absorb the humidity in the outer wall;

s4, light is transmitted to the light guide pipe 19 through the high light transmission ring 9, and the light is reflected to the outer wall through the light guide pipe 19, so that the drying of the outer wall is accelerated, and the drying efficiency of the outer wall is improved.

According to the scheme, the waterproof curtain 3 slides to a proper position of an outer wall on a slide rail to protect the outer wall, so that the contact of floating impurities with the outer wall is reduced, in rainy days, the contact of rainwater with the outer wall is reduced through the temperature control expansion ball in the mounting through hole 4, moisture at the outer end of the waterproof curtain 3 is guided to the inside of the hollow graphite ball 10 through the water guide fiber 12, so that the moisture is adsorbed and released by the water guide fiber 12 in the hollow graphite ball 10, when heat is transferred to the outer end of the hollow expansion ring 6, the carbonic acid solution 8 in the hollow expansion ring 6 expands rapidly when heated, the water retaining effect of the waterproof curtain 3 is improved, the heat evaporates rainwater at the outer side of the waterproof curtain 3, when the heat is transferred to the outer ends of the ultrahigh water absorption fiber 17 and the shape memory spring 20 through the heat conducting wire 21, the shape memory spring 20 expands when heated, the sliding tube 18 is ejected out, and the humidity in the outer wall is adsorbed through the ultrahigh water absorption fiber 17 of the sliding tube 18, light transmits to light pipe 19 in through high printing opacity ring 9 to on 19 reflects light to the outer wall through light pipe, to the stoving of outer wall with higher speed, improve outer wall drying efficiency.

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 an outer wall protector for construction, includes the slide rail, the outer end sliding connection of slide rail has a pair of horizontal pole (1), its characterized in that: a pair of fixedly connected with connecting rod (2) between horizontal pole (1), fixedly connected with waterproof curtain (3) between the inner wall of horizontal pole (1) and connecting rod (2), the outer end of waterproof curtain (3) is opened chisel and is had installation through-hole (4), the inside fixedly connected with control by temperature change inflation ball of installation through-hole (4), the inside packing of waterproof curtain (3) has a plurality of inflation strips (5), inflation strip (5) communicate with each other with the inner wall of installation through-hole (4), the outer end fixedly connected with a plurality of even fine hair of inflation strip (5), fine hair extends to the outside of waterproof curtain (3), control by temperature change inflation ball includes hollow inflation ring (6), the inside packing of hollow inflation ring (6) has carbonic acid solution (8), the inner wall fixedly connected with high light-transmitting ring (9) of hollow inflation ring (6), and hollow graphite spheres (10) are fixedly connected between the inner walls of the high light-transmitting rings (9).

2. The exterior wall protection device for building construction according to claim 1, wherein: zeolite (11) are filled in the inside of hollow graphite sphere (10), a plurality of evenly distributed water guide fibers (12) are fixedly connected in the inside of hollow graphite sphere (10), the water guide fibers (12) run through the outside that hollow graphite sphere (10) and high light-transmitting ring (9) extend to hollow expansion ring (6), fixedly connected with moisture adsorption device between the inner wall of mounting through hole (4), moisture adsorption device is located the left side of hollow expansion ring (6).

3. The exterior wall protection device for building construction according to claim 2, wherein: the moisture adsorption device comprises an adsorption pipe (7), a fixing ring (15) is fixedly connected to the left end of the adsorption pipe (7), the fixing ring (15) is located on the outer side of the waterproof curtain (3), an annular mounting groove is formed in the left end of the fixing ring (15), an adsorption ring (16) matched with the annular mounting groove is arranged inside the annular mounting groove, ultrahigh water absorption fibers (17) are fixedly connected to the outer end of the adsorption ring (16), a sliding pipe (18) is fixedly connected to the right end of the adsorption ring (16), the sliding pipe (18) is located inside the adsorption pipe (7), the sliding pipe (18) is slidably connected with the adsorption pipe (7), a light guide pipe (19) is arranged inside the adsorption pipe (7), the light guide pipe (19) is located on the inner side of the adsorption ring (16), and a shape memory spring (20) is fixedly connected to the outer end of the light guide pipe (19), the shape memory spring (20) is located on the right side of the sliding pipe (18), a heat conducting wire (21) is arranged inside the light guide pipe (19), and one end of the heat conducting wire (21) is in contact with the outer end of the hollow expansion ring (6).

4. The exterior wall protection device for building construction according to claim 1, wherein: the connecting rod (2) is formed by connecting universal joints through a plurality of connecting blocks.

5. The exterior wall protection device for building construction according to claim 1, wherein: the waterproof curtain (3) is made of glass fiber, and the outer end of the waterproof curtain (3) is coated with a hydrophobic coating.

6. The exterior wall protection device for building construction according to claim 1, wherein: the expansion strip (5) is made of rubber, and carbon dioxide gas is filled in the expansion strip (5).

7. The exterior wall protection device for building construction according to claim 2, wherein: one end of the water guide fiber (12) far away from the hollow graphite ball (10) is fixedly connected with ceramsite (13), and water-absorbent resin (14) is filled in the ceramsite (13).

8. The exterior wall protection device for building construction according to any one of claims 1 to 7, wherein: the using method comprises the following steps:

s1, the waterproof curtain (3) slides on the slide rail to a proper position of the outer wall through the cross rod (1) to protect the outer wall, contact of floating impurities with the outer wall is reduced, and contact of rainwater with the outer wall is reduced through the temperature control expansion ball in the installation through hole (4) in rainy weather;

s2, guiding moisture at the outer end of the waterproof curtain (3) to the inside of the hollow graphite ball (10) through the water guide fiber (12), so that the water guide fiber (12) in the hollow graphite ball (10) absorbs the moisture and releases heat, and when the heat is transferred to the outer end of the hollow expansion ring (6), the carbonic acid solution (8) in the hollow expansion ring (6) is rapidly expanded when heated;

s3, when heat is transferred to the ultrahigh water absorption fibers (17) and the outer ends of the shape memory springs (20) through the heat conducting wires (21), the shape memory springs (20) expand when heated, the sliding pipes (18) are ejected out, and humidity in the outer wall is absorbed through the ultrahigh water absorption fibers (17) at the outer ends of the sliding pipes (18);

s4, light is transmitted to the light guide pipe (19) through the high light transmission ring (9), and the light is reflected to the outer wall through the light guide pipe (19), so that the drying of the outer wall is accelerated, and the drying efficiency of the outer wall is improved.