1. A high privacy heat reflective glass that removes scattering characterized by: the heat-resisting structure comprises an assembly loading frame, a bearing bottom layer, a reinforced interlayer, a heat-resisting inner layer and a protective outer layer, wherein the bearing bottom layer is fixedly arranged on the inner side of the assembly loading frame, the reinforced interlayer is fixedly arranged at the top of the bearing bottom layer, the heat-resisting inner layer is fixedly arranged at the top of the reinforced interlayer, the bottom of the heat-resisting inner layer is fixedly provided with a heat-resisting structure, the protective outer layer is fixedly arranged at the top of the heat-resisting inner layer, the outer side of the protective outer layer is fixedly provided with a protective structure, the assembly loading frame comprises a limiting lug and a locking notch, the limiting lug is integrally arranged on one side of the assembly loading frame, the locking notch is arranged on the other side of the assembly loading frame, the outer side of the assembly loading frame is fixedly provided with a combined structure, and the outer side of the assembly loading frame is fixedly provided with a stabilizing mechanism;

the stabilizing mechanism comprises a stabilizing clamping protrusion and a preset slot, the stabilizing clamping protrusion is fixedly arranged at the top of the assembling frame, and the preset slot is arranged on the inner side of the stabilizing clamping protrusion;

the heat reflecting inner layer comprises a preset loading cavity and a dispersing convex layer, the preset loading cavity is arranged on one side of the heat reflecting inner layer, the preset loading cavity is filled with inert gas, and the dispersing convex layer is fixedly arranged on the inner side of the preset loading cavity;

the protective outer layer comprises positioning rubber strips, the positioning rubber strips are reversely arranged on two sides of the protective outer layer, the scattering convex layer is formed by a transparent elastomer material with a hollow structure, a buffer space is formed in the protective outer layer, and the buffer space is communicated with the hollow structure; positioning blocks are arranged on one side, close to the fixing protrusion, of the preset loading cavity, namely a first end side and a second end side, close to the fixing groove, of the preset loading cavity, orthographic projections of the positioning blocks on the first end side and the protective outer layer in the vertical direction are not overlapped, and orthographic projections of the positioning blocks on the second end side in the vertical direction are completely included in the orthographic projections of the protective outer layer in the vertical direction; the orthographic projection of the locating piece on the first end side is completely overlapped with the orthographic projection of the locating rubber strip on the corresponding side, the protection outer layer is close to the end point on one side of the fixed groove is rotatably connected with the corresponding locating rubber strip, the first end side of the protection outer layer is also connected with a sliding block, the sliding block is internally provided with an air outlet hole communicated with the buffering space, the locating rubber strip and the locating piece on the first end side are matched with the sliding block to be provided with a sliding groove, an air groove is also arranged in the sliding groove along the vertical direction, the bottom of the air groove is provided with an air outlet hole communicated with the preset groove on the stabilizing clamp, and the stabilizing clamp is fixedly connected with the detachable protruding part and arranged on the top of the assembling frame.

2. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the combined structure comprises an assembly frame, the assembly frame is fixedly arranged on the outer side of the assembly loading frame, a fixing groove is formed in one side of the assembly frame, a fixing lug is fixed on the other side of the assembly frame, the section of the main body of the fixing groove is of a T-shaped structure, the section of the main body of the fixing lug is of a T-shaped structure, and the main body of the fixing lug is fixedly arranged on the other side of the assembly frame.

3. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the bearing bottom layer comprises: and the unidirectional film is fixedly adhered to one side of the bearing bottom layer.

4. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the reinforced interlayer comprises: and the heat insulation film layer is fixedly bonded between the bearing bottom layer and the reinforced interlayer.

5. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the protection structure is provided with: and the explosion-proof film layer is fixedly bonded on the outer side of the protective outer layer.

6. A de-scattering high privacy heat reflective glass according to claim 2 characterized by: the assembly frame below the fixed protrusion is provided with a connecting channel for connecting the exhaust hole and the preset groove, the bottom of the sliding groove is provided with a blocking plate, the blocking plate blocks the exhaust hole, and an elastic part such as a spring is arranged below the blocking plate.

7. A de-scattering high privacy heat reflective glass according to claim 6 characterized by: the connecting channel comprises a first part positioned in the assembling frame and a second part positioned on the stabilizing clip protrusion, the second part comprises a U-shaped structure, and the U-shaped structure surrounds the preset slot.

8. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the cross section of the stable clamp convex main body is in a parallelogram structure.

9. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the main body of the scattering convex layer is in a trapezoidal structure in section.

10. A scatter-removing high privacy heat reflective glass according to claim 1, characterized in that: the cross section of the positioning rubber strip main body is in a triangular structure.

Background

Glass is an amorphous inorganic non-metallic material, generally made from a variety of inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash, etc.) as main raw materials, and a small amount of auxiliary raw materials, and its main components are silicon dioxide and other oxides. The chemical composition of the ordinary glass is Na₂SiO₃、CaSiO₃、SiO₂Or Na₂O·CaO·6SiO₂And the main component is silicate double salt, which is amorphous solid with a random structure, is widely applied to buildings for isolating wind and transmitting light and belongs to a mixture. Colored glass in which an oxide or salt of a certain metal is mixed to develop a color, tempered glass produced by a physical or chemical method, and the like are also available. Some transparent plastics, such as polymethylmethacrylate, are sometimes also referred to as plexiglas.

Patent No. CN201380073461.5 discloses a glazing with a thermal radiation reflecting coating comprising a substrate and at least one thermal radiation reflecting coating on at least one surface of the substrate, wherein starting from the substrate the coating comprises at least one lower dielectric layer, one functional layer comprising at least one transparent conductive oxide, and one upper dielectric layer, and wherein at least one darkening layer is arranged below the lower dielectric layer, between the lower dielectric layer and the functional layer, between the functional layer and the upper dielectric layer, and/or above the upper dielectric layer, and wherein the darkening layer comprises at least one metal, one metal nitride and/or one metal carbide having a melting point of greater than 1900 ℃ and a specific resistivity of less than 500 μ ohm cm.

Based on the foregoing, current ordinary laminated glass places polyvinyl butyral ester bonding between two-layer ordinary glass, it is safe to have, effectively block the ultraviolet ray, syllable-dividing effect, but do not possess the thermal-insulated function of sunshade, inside a large amount of external radiation can get into, be unfavorable for environmental protection and energy saving, current ordinary laminated glass does not possess the structure that prevents the scattering and produce simultaneously, and then lead to indoor temperature can rise fast when sunshine penetrates directly, thereby make current ordinary laminated glass when installing assembled building such as building site, practicality and travelling comfort are relatively poor.

Disclosure of Invention

Problem (A)

The invention aims to provide scattering-removed high-privacy heat-reflecting glass, and solves the problems that the conventional common laminated glass provided in the background art is formed by placing polyvinyl butyral ester between two layers of common glass for adhesion, has the effects of safely and effectively blocking ultraviolet rays and insulating sound, but does not have the functions of shading and insulating heat, a large amount of external radiation enters the interior of the glass, and is not beneficial to environmental protection and energy conservation, and meanwhile, the conventional common laminated glass does not have a structure for preventing scattering, so that the indoor temperature can be rapidly increased when sunlight is directly radiated, and the practicability and the comfort are poor when the conventional common laminated glass is installed on assembly type buildings such as construction sites and the like.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a high privacy heat reflection glass for removing scattering comprises an assembly loading frame, a bearing bottom layer, a strengthening interlayer, a heat reflecting inner layer and a protective outer layer, wherein the bearing bottom layer is fixedly arranged on the inner side of the assembly loading frame, the strengthening interlayer is fixedly arranged on the top of the bearing bottom layer, the heat reflecting inner layer is fixedly arranged on the top of the strengthening interlayer, the bottom of the heat reflecting inner layer is fixedly provided with a heat resisting structure, the protective outer layer is fixedly arranged on the top of the heat reflecting inner layer, the outer side of the protective outer layer is fixedly provided with a protective structure, the assembly loading frame comprises a limiting lug and a locking notch, the limiting lug is integrally arranged on one side of the assembly loading frame, the locking notch is arranged on the other side of the assembly loading frame, the outer side of the assembly loading frame is fixedly provided with a combined structure, the outer side of the assembly loading frame is fixedly provided with a stabilizing mechanism, and the stabilizing mechanism comprises a stabilizing clip projection and a preset notch, the heat reflection inner layer comprises a preset loading cavity and a dispersing convex layer, the preset loading cavity is arranged on one side of the heat reflection inner layer, the preset loading cavity is filled with inert gas, the dispersing convex layer is fixedly arranged on the inner side of the preset loading cavity, the protective outer layer comprises positioning adhesive tapes, the positioning adhesive tapes are reversely arranged on two sides of the protective outer layer, the dispersing convex layer is formed by a transparent elastomer material with a hollow structure, a buffer space is formed in the protective outer layer, and the buffer space is communicated with the hollow structure; positioning blocks are arranged on one side, close to the fixing protrusion, of the preset loading cavity, namely a first end side and a second end side, close to the fixing groove, of the preset loading cavity, orthographic projections of the positioning blocks on the first end side and the protective outer layer in the vertical direction are not overlapped, and orthographic projections of the positioning blocks on the second end side in the vertical direction are completely included in the orthographic projections of the protective outer layer in the vertical direction; the orthographic projection of the locating piece on the first end side is completely overlapped with the orthographic projection of the locating rubber strip on the corresponding side, the protection outer layer is close to the end point on one side of the fixed groove is rotatably connected with the corresponding locating rubber strip, the first end side of the protection outer layer is also connected with a sliding block, the sliding block is internally provided with an air outlet hole communicated with the buffering space, the locating rubber strip and the locating piece on the first end side are matched with the sliding block to be provided with a sliding groove, an air groove is also arranged in the sliding groove along the vertical direction, the bottom of the air groove is provided with an air outlet hole communicated with the preset groove on the stabilizing clamp, and the stabilizing clamp is fixedly connected with the detachable protruding part and arranged on the top of the assembling frame.

(III) advantageous effects

1. The invention can ensure that the whole glass has the characteristic of one-way perspective by arranging the bearing bottom layer, the strengthening interlayer and the heat reflecting inner layer, the bearing bottom layer is matched with the one-way coating film, and the glass can be adjusted by light rays, thereby protecting the indoor privacy and preventing passers-by from peeping the assembly type building so as to improve the effects of the whole glass on privacy protection and safety, the strengthening interlayer can improve the bonding strength and hardness of the whole glass, further ensure that the glass is safer when being used in areas such as a construction site, simultaneously, the heat insulation film layer can provide certain heat radiation obstruction, ensure that the glass can reduce the temperature rising speed in the assembly type building when the light rays are stronger, further improve the comfort level in the assembly type building, the inert gas in the preset bearing cavity can prevent certain heat conduction, and simultaneously, the heat radiation convex layer can carry out certain gathering reflection on the light rays, prevent that light scattering from making the interior temperature of assembled building rise fast in the assembled building.

2. The invention can carry out limiting and stable bearing on the whole glass by arranging the assembly carrying frame, the combined structure and the stabilizing mechanism so as to be convenient for subsequent combined use, the limiting lug is matched with the locking slot to ensure that the whole glass can be quickly and fixedly assembled in the longitudinal direction, meanwhile, the fixing slot is matched with the fixing lug to ensure that the whole glass can be continuously and quickly positioned and combined in the transverse direction, so that the whole glass can shield and protect areas with different sizes, the stabilizing clamp can clamp the protective outer layer with certain strength to improve the assembly stability of the whole glass and prevent the whole glass from being damaged due to vibration, and meanwhile, the preset slot can dredge rainwater attached to the glass, thereby preventing rainwater from being accumulated on the end surface of the glass and being subsequently combined with dust and covering the surface of the glass to influence the view of the glass.

3. The color-changing film can change color according to illumination intensity by arranging the heat-resisting structure, the protective outer layer and the protective structure, so that the light intensity of the glass penetrating through the glass and reaching the interior of the fabricated building is reduced, the effect of the glass on the aspect of improving the comfort level is further improved, the protective outer layer is matched with the positioning adhesive tape, the exposed glass part can be shielded and protected, the explosion-proof film layer can be fastened and bonded on the protective outer layer, the glass is prevented from being integrally burst due to external force collision in a construction site, surrounding personnel are prevented from being injured, and the use safety of the whole glass is further improved.

4. When the anti-explosion film layer is impacted for the first time, the anti-explosion film layer is buffered for the first time, the buffered protective outer layer is impacted, when the impact force exceeds a first preset value, the impact force can enable the protective outer layer to compress the dispersing convex layer due to the blocking effect of the reinforced interlayer, so that the elastic dispersing convex layer is extruded and deformed, part of the impact force is buffered, meanwhile, gas in the hollow space of the dispersing convex layer is extruded and then discharged to the buffer space of the protective outer layer, part of the impact force is offset in the process, when the impact force exceeds a second preset value, due to the movement of the first end side of the protective outer layer, the gas in the buffer space moves in the sliding groove through the gas outlet hole, so that the gas outlet hole is communicated with the gas outlet hole at the bottom, so that the internal gas is discharged into the preset groove, the impact force is released, when the impact force exceeds a third preset value, the discharged gas enables the stable clamping protrusion to be broken, namely, the force in the vertical direction of the glass is converted into the force in the horizontal direction, so that the damage to the glass is reduced to the maximum extent, and the damaged stable clamping protrusion can be replaced.

Drawings

FIG. 1 is a schematic diagram of an overall front view of an apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic bottom view of the apparatus according to the embodiment of the present invention;

FIG. 3 is a schematic view of a front view of an assembled frame assembly according to an embodiment of the present invention;

FIG. 4 is a schematic bottom view of the assembled carrying frame assembly according to the embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of an apparatus according to an embodiment of the present invention;

FIG. 6 is a schematic view of the overall assembly structure of the apparatus according to the embodiment of the present invention;

FIG. 7 is a schematic view of a thermally reflective inner layer structure according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a protective outer layer according to an embodiment of the present invention;

FIG. 9 is a schematic view of a security configuration in an embodiment of the present invention;

fig. 10 is an exploded schematic view of the safety structure.

In fig. 1 to 10, the correspondence between the part names or lines and the reference numbers is:

1. assembling a loading frame; 101. a limiting bump; 102. locking the slot; 103. assembling a frame; 1031. fixing the slot; 1032. fixing the bump; 104. stabilizing the clamp convex; 1041. presetting a slot; 2. a load bearing bottom layer; 201. unidirectional film covering; 3. reinforcing the interlayer; 301. a heat insulating film layer; 4. a thermally reflective inner layer; 401. presetting a loading cavity; 402. removing the scattered convex layer; 403. a sealing layer; 4031. color-changing film covering; 404. positioning blocks; 5. an outer protective layer; 501. positioning an adhesive tape; 502. a slider; 6. an explosion-proof film layer; 7. a chute; 8. a vent channel; 9. and (4) exhausting holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," 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 invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Please refer to fig. 1 to 8 for an embodiment of the present invention: a scattering-removing highly private heat-reflective glass includes an assembly mount frame 1;

the outer side of the assembly carrying frame 1 is fixedly provided with a combined structure, and the outer side of the assembly carrying frame 1 is fixedly provided with a stabilizing mechanism;

the bearing bottom layer 2 is fixedly arranged on the inner side of the assembly loading frame 1;

the reinforced interlayer 3 is fixedly arranged on the top of the bearing bottom layer 2;

the heat reflecting inner layer 4 is fixedly arranged at the top of the reinforced interlayer 3, and the bottom of the heat reflecting inner layer 4 is fixedly provided with a heat resisting structure;

the outer 5 of protection, the outer 5 of protection is fixed to be set up in the anti-4 tops of inlayer of heat, and the fixed protection architecture that is provided with in the outside of the outer 5 of protection.

As shown in fig. 6 and 7, the carrier substrate 2 includes:

the unidirectional coating 201 is fixedly adhered to one side of the bearing bottom layer 2.

The reinforced interlayer 3 comprises:

and the heat insulation film layer 301, wherein the heat insulation film layer 301 is fixedly bonded between the bearing bottom layer 2 and the reinforced interlayer 3.

The heat reflecting inner layer 4 comprises:

the heat reflecting inner layer 4 is provided with a preset loading cavity 401, the preset loading cavity 401 is arranged on one side of the heat reflecting inner layer 4, and inert gas is filled in the preset loading cavity 401;

the main body of the dispersing convex layer 402 is in a trapezoid structure, and the dispersing convex layer 402 is fixedly arranged on the inner side of the preset loading cavity 401; through the arrangement of the bearing bottom layer 2, the strengthening interlayer 3 and the heat reflecting inner layer 4, the bearing bottom layer 2 is matched with the unidirectional coating film 201, the glass can be enabled to have the characteristic of unidirectional perspective by light regulation, so that the indoor privacy is protected, pedestrians are prevented from peeping the assembly type building by passing through, the effect of the glass on the aspects of privacy protection and safety is improved, the strengthening interlayer 3 can improve the integral bonding strength and hardness of the glass, the glass is safer when being used in areas such as a construction site, meanwhile, the heat insulation film layer 301 can provide certain heat radiation separation, the temperature rising speed of the glass in the assembly type building can be reduced when the light is stronger, the comfort level in the assembly type building is further improved, the inert gas in the presetting bearing cavity 401 can prevent certain heat conduction, and meanwhile, the heat radiation convex layer 402 can be removed to perform certain gathering reflection on the light, prevent that light scattering from making the interior temperature of assembled building rise fast in the assembled building.

As shown in fig. 7 and 8, the heat blocking structure includes:

the sealing layer 403, the sealing layer 403 is fixedly arranged at the bottom of the heat reflecting inner layer 4;

a discoloring covering film 4031, wherein the discoloring covering film 4031 is fixedly adhered to the inner side of the sealing layer 403;

the protective outer layer 5 comprises:

the positioning rubber strip 501 is of a triangular structure, and the main body of the positioning rubber strip 501 is reversely arranged on two sides of the outer protection layer 5.

The protection structure is provided with:

the explosion-proof film layer 6 is fixedly bonded on the outer side of the protective outer layer 5; through hindering hot structure, the setting of protection outer 5 and protective structure, tectorial membrane 4031 discolours according to illumination intensity, in order to reduce the light intensity that passes glass and reachs the assembled building, further improve glass in the aspect of improving the comfort level effect, the cooperation between protection outer 5 and the location adhesive tape 501, can shelter from the protection to the glass part that exposes outside, and then explosion-proof rete 6 can be to protection outer 5 fastening bonding, in order to prevent to lead to glass whole bursting because of external force collision at the building site, cause the injury to personnel on every side, further improve the holistic safety in utilization of glass.

The explosion-proof film layer 6 is formed by impregnating a metal atom layer into a transparent strength composite polyester fiber film made of PET (polyethylene terephthalate) by a high-precision electrolyte sputtering method, and has high-strength adhesion, tensile strength, high elongation of 160%, strong acid resistance, and alkali resistance, and can maintain a good physical property even at high temperature. The metal coatings emit 99% of ultraviolet rays and block heat energy with different wavelengths, so that heat energy brought by the ultraviolet rays and visible light is blocked. While maintaining good light transmittance.

The key for improving the explosion-proof performance of the glass is to relieve external impact force, and the glass is mainly realized through two aspects:

firstly, the method comprises the following steps: the adhesive layer and the metal coating are fully utilized to improve the rigidity of the glass, and the impact force is decomposed on the surface. The ductility and the toughness of the metal coating can effectively resist and decompose impact; even if the glass is broken, the metal material in the film can generate a stretching force to pull glass fragments under the combined action of the stretching force and the colloid of the adhesive layer, so that splashing is prevented, and personal and property safety is effectively protected.

Secondly, the method comprises the following steps: the impact force acting on the safety film by penetrating through the glass is relieved through the mutual sliding micro-displacement between the unique laminated layers of the film, the unique impact resistance is formed, the glass strength can be enhanced by 5-7 times according to measurement and calculation, and the glass is effectively prevented from being broken and hurting people due to external impact.

As shown in fig. 3 and 4, the mount frame 1 includes:

the limiting lug 101, the limiting lug 101 is integrally arranged on one side of the assembly loading frame 1;

and the locking slot 102 is opened at the other side of the assembly loading frame 1.

The composite structure comprises:

an assembly frame 103, wherein the assembly frame 103 is fixedly arranged outside the assembly loading frame 1;

a fixing slot 1031, the shape of the cross section of the main body of the fixing slot 1031 is a T-shaped structure, and the fixing slot 1031 is arranged on one side of the assembling frame 103;

the fixing bump 1032 is provided, the main body of the fixing bump 1032 is shaped like a "T", and the fixing bump 1032 is fixedly disposed on the other side of the assembly frame 103.

The stabilizing mean is including:

the cross section of the main body of the stabilizing clamping protrusion 104 is in a parallelogram structure, and the stabilizing clamping protrusion 104 is fixedly arranged at the top of the assembling frame 103;

a preset slot 1041, wherein the preset slot 1041 is arranged on the inner side of the stabilizing clip bulge 104; through the arrangement of the assembly loading frame 1, the combined structure and the stabilizing mechanism, the assembly loading frame 1 can carry out limit and stable bearing on the whole glass, so as to be convenient for subsequent combined use, the limiting lug 101 is matched with the locking slot 102, the whole glass can be quickly fixed and assembled in the longitudinal direction, meanwhile, the fixing slots 1031 are matched with the fixing lugs 1032, so that the whole glass can be continuously and rapidly positioned and combined in the transverse direction, thereby the whole glass can shield and protect the areas with different sizes, the stable clamping protrusion 104 can clamp the protective outer layer 5 with certain strength, so as to improve the assembly stability of the whole glass, prevent the whole glass from being damaged due to vibration, and at the same time, the preset slot 1041 can dredge rainwater attached to the glass, therefore, rainwater is prevented from accumulating on the end face of the glass and then combining with dust, and the rainwater covers the surface of the glass to influence the visual field observation of the glass.

In another embodiment, as shown in fig. 8, a corrugated friction texture can be formed on the outer side of the positioning rubber strip 501, so that the contact friction force between the positioning rubber strip 501 and the stabilizing clip protrusion 104 is improved, and the clamping stability of the stabilizing clip protrusion 104 on the protective outer layer 5 is further improved.

When the device is used, the device is assembled to a proper position, the whole glass is limited and stably loaded through the assembling and loading frame 1, the limiting lug 101 is matched with the locking slot 102, so that the whole glass can be quickly and fixedly assembled in the longitudinal direction, meanwhile, the fixing slot 1031 is matched with the fixing lug 1032 so that the whole glass is continuously and quickly positioned and combined in the transverse direction, the stabilizing clamp lug 104 clamps the protective outer layer 5 with certain strength to improve the assembling stability of the whole glass, meanwhile, the preset slot 1041 conducts rainwater attached to the glass to prevent the rainwater from accumulating on the end surface of the glass and then combining with dust, the rainwater covers the surface of the glass to influence the visual field observation of the glass, the color-changing coating film 1 changes color according to the illumination intensity so as to reduce the intensity of light which passes through the glass and reaches the assembling type building, the protective outer layer 4035 is matched with the positioning adhesive tape 501 to shield and protect the exposed glass part, and the explosion-proof film layer 6 is tightly adhered to the protective outer layer 5 to prevent the glass from wholly bursting due to external force collision at a construction site, the carrying bottom layer 2 is matched with the unidirectional coating film 201 to cause injury to surrounding personnel, the whole glass has the characteristic of unidirectional perspective through light regulation, thereby protecting the indoor privacy, preventing passersby from peeping the interior of the fabricated building, enhancing the interlayer 3 to improve the integral bonding strength and hardness of the glass, providing a certain heat radiation barrier for the heat insulation film layer 301, reducing the temperature rise speed of the glass in the fabricated building when the light is strong, thereby improving the comfort level in the fabricated building, the inert gas in the preset loading cavity 401 can prevent certain heat conduction, meanwhile, the dispersing convex layer 402 can collect and reflect light to a certain degree, so that the light is prevented from being scattered into the assembly type building, and the temperature in the assembly type building is increased rapidly.

More specifically, when the safety guard device is used in a construction site, the safety guard device is generally subjected to a large external impact, and safety needs to be considered on the basis of ensuring comfort, so that the inventor further improves the safety guard device based on the above inventive scheme, as shown in fig. 8 to 10, the following specific scheme is adopted: the scattering convex layer 402 is made of a transparent elastomer material with a hollow structure, a buffer space is formed in the protective outer layer 5, and the buffer space is communicated with the hollow structure; positioning blocks 404 are arranged on one side, close to the fixing protrusion 1032, of the preset loading cavity 401, namely, on the first end side and on the second end side close to the fixing slot 1031, orthographic projections of the positioning blocks 404 on the first end side and the protective outer layer 5 in the vertical direction are not overlapped, and orthographic projections of the positioning blocks 404 on the second end side in the vertical direction are completely included in orthographic projections of the protective outer layer 5 in the vertical direction; the orthographic projection of the locating piece 404 on the first end side is completely overlapped with the orthographic projection of the locating rubber strip 501 on the corresponding side, the end point of the outer 5 of protection near fixed grooving 1031 one side is rotated with the locating rubber strip 501 that corresponds and is connected, the first end side of the outer 5 of protection still is connected with the sliding block 502, be provided with the venthole that communicates with the buffering space in the sliding block 502, the locating rubber strip 501 and the locating piece 404 on the first end side are provided with spout 7 with the sliding block 502 cooperation, still be provided with air channel 8 along vertical direction in the sliding channel 7, vent hole 9 that communicates with the preset grooving 1041 on the stabilizing clip convex 104 is seted up to air channel 8's bottom, the detachable fixed connection of stabilizing clip convex 104 is set up in equipment frame 103 top. The specific working principle is as follows: according to the invention, when the explosion-proof film layer 6 is impacted for the first time, if the explosion-proof film layer 6 cannot completely offset the impact force, the impact force enables the protective outer layer 5 to receive the impact force after buffering, when the impact force exceeds a first preset value, the reinforced interlayer 3 has very strong rigidity, and can play a very good impact effect on the impact, the impact force enables the protective outer layer 5 to rotate on the first end side by taking the second end side as a rotating shaft, so that the dispersing convex layer 402 is compressed, the elastic dispersing convex layer 402 is extruded and deformed, a part of the impact force is further buffered, meanwhile, the gas in the hollow space of the dispersing convex layer 402 is discharged to the buffer space of the protective outer layer 5 after being extruded, and the process offsets part of the impact force again; when the impact force exceeds a second predetermined value, due to the movement of the first end side of the protective outer layer 5, the gas in the buffer space moves in the chute 7 through the gas outlet hole, so that the gas outlet hole is communicated with the gas outlet hole 9 at the bottom, thereby discharging the internal gas into the preset groove, in the actual connection process, a connection channel for connecting the gas outlet hole 9 and the preset groove 104 can be arranged in the assembly frame 103 below the fixed protrusion 1032, a blocking plate is arranged at the bottom of the chute, the blocking plate blocks the gas outlet hole 9, an elastic component, such as a spring, is arranged below the blocking plate, when the sliding block 502 extrudes the blocking plate, the blocking plate moves downwards and leaks out the gas outlet hole 9, thereby preventing the gas outlet hole 9 from discharging the internal inert gas, meanwhile, when the connection channel is arranged, the connection channel comprises a first part positioned in the assembly frame 103 and a second part positioned on the stabilizing clip protrusion 104, the second part comprises a U-shaped structure which surrounds the preset slot 1041, so that on one hand, particles and the like in the preset slot 1041 can be prevented from entering the buffer space through the U-shaped structure to influence the ventilation effect; on the other hand, through the U-shaped structure, when the impact force exceeds the predetermined value, the impact force can be better absorbed in the stabilizing clip bulge 104, so that the stabilizing clip bulge 104 is broken, namely, the force along the vertical direction of the glass is converted into the force along the horizontal direction, so that the glass is protected to the maximum extent, and after the stabilizing clip bulge 104 is damaged, the glass can be recycled to the maximum extent through detachable replacement.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.