CN113700244A

CN113700244A - Environment-friendly decorative composite vacuum insulation panel for building exterior wall

Info

Publication number: CN113700244A
Application number: CN202110850554.0A
Authority: CN
Inventors: 吴富贵
Original assignee: Shenzhen Building Decoration Group Co ltd
Current assignee: Shenzhen Building Decoration Group Co ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2021-11-26
Anticipated expiration: 2041-07-27
Also published as: CN113700244B

Abstract

The invention discloses a green environment-friendly decorative composite vacuum insulation panel for building exterior walls, which comprises: the composite sheet, the inboard of composite sheet is run through and is seted up the through-hole, one side of composite sheet is provided with the gomphosis piece, the gomphosis groove has been seted up to the front and the opposite side of shell, the inboard of through-hole is run through the activity and is provided with the stock, the top of composite sheet is provided with the fixed block, the bottom of composite sheet is provided with the mounting panel, the inboard activity in gomphosis groove is provided with the shielding plate, the inside of shielding plate is provided with two sets of fixed plates, the top of fixed plate is provided with fixed spring, the inboard of composite sheet is provided with the waterproof layer. According to the invention, by installing the shielding plate, when the vacuum heat-insulating plate is installed at a corner, the shielding plate on the front surface of the heat-insulating plate can be taken out through the movable frame, and then the embedded block on one side is combined with the embedded groove on the other front surface, so that the gap between the two groups of plates at an included angle is reduced, and the probability of water seepage of a wall body is reduced.

Description

Environment-friendly decorative composite vacuum insulation panel for building exterior wall

Technical Field

The invention relates to the technical field of vacuum insulation panels, in particular to a green environment-friendly decorative composite vacuum insulation panel for an outer wall of a building.

Background

Along with the development of the times, the materials that the building trade used are gradually updated, not only require to keep warm to insulate against heat to the material use of building outer wall, still require green can carry out repeated reutilization, just so can reduce resource development, thereby the environmental protection, the best vacuum insulation panels that use more of current outer wall insulation board effect, carry out effectual isolation with the temperature of building inside and outside through the vacuum, just so can realize the building effect of warm in winter and cool in summer, but current vacuum insulation panels have more weak needs to be improved. Such as:

1. the existing heat insulation plates are mostly straight plates, when two groups of plates are connected at a corner, gaps between the two groups of plates can only be made up by using cement, but the gaps between the plates can be subject to water seepage, so that water enters the interior of a building to damage the wall body easily; 2. when the existing vacuum insulation panel is installed, any connecting structure is installed between the panels, and gaps can only be filled by cement, so that the installation mode is very inconvenient, and the installed vacuum insulation panel cannot be reused, so that the resource cannot be recycled; 3. the existing vacuum insulation panels only have the capabilities of heat preservation, heat insulation, water resistance and fire resistance when in use, have less effect on insulation from the outside, and in modern scientific and technological times, more and more radiation appears in life, even the heat radiation of the sun can penetrate through the wall body to cause harm to human bodies; 4. the existing vacuum insulation panel directly uses the anchor rod to fix the insulation panel when being installed, but the traditional common anchor rod cannot be tightly attached to the inner side of the through hole, so that the water seepage is easy to occur, and the water enters the wall body to cause the corrosion.

Therefore, there is a need for a green and environment-friendly decorative composite vacuum insulation panel for building exterior walls, which at least partially solves the problems of the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides an environment-friendly decorative composite vacuum insulation panel for building exterior walls, comprising: the composite sheet, the inboard of composite sheet is run through and is seted up the through-hole, one side of composite sheet is provided with the gomphosis piece, the gomphosis groove has been seted up to the front and the opposite side of shell, the inboard of through-hole is run through the activity and is provided with the stock, the top of composite sheet is provided with the fixed block, the bottom of composite sheet is provided with the mounting panel, the inboard activity in gomphosis groove is provided with the shielding plate, the inside of shielding plate is provided with two sets of fixed plates, the top of fixed plate is provided with fixed spring, the inboard of composite sheet is provided with the waterproof layer.

According to the green environment-friendly decorative composite vacuum insulation panel for the building outer wall, two groups of flexible rubber plates are arranged at the top of the fixed block, a sliding rail is arranged on the inner side of the fixed block, semicircular sliding grooves are formed in two sides of the sliding rail, flexible side base plates are arranged on two sides of the fixed block, and a plurality of groups of groove nuts penetrate through the top of the sliding rail.

According to the green environment-friendly decorative composite vacuum heat-insulating plate for the building outer wall, a plurality of groups of mounting holes are formed in the top of the mounting plate in a penetrating mode, sliding blocks corresponding to the sliding rails are arranged at the bottom of the mounting plate, semicircular sliding strips corresponding to the semicircular sliding grooves are arranged on two sides of each sliding block, and flexible side pads are arranged on two sides of each sliding block.

According to the green environment-friendly decorative composite vacuum insulation panel for the building outer wall, the fireproof layer is arranged on the inner side of the waterproof layer, the radiation-proof layer is arranged on the inner side of the fireproof layer, and the vacuum layer is arranged on the inner side of the radiation-proof layer.

According to the green and environment-friendly decorative composite vacuum insulation panel for the building outer wall, the top of the fixed spring is movably provided with the bolt, and the front of the bolt is provided with the movable frame.

According to the green environment-friendly decorative composite vacuum insulation panel for the building outer wall, the screw is arranged at the bottom of the groove nut, the flange gasket is movably arranged on the outer side of the screw, and the flange gasket is positioned below the groove nut.

According to the green environment-friendly decorative composite vacuum insulation panel for the building outer wall, the anchor rod is connected with the building outer wall through the anchor rod head module, the anchor rod head module comprises a first abutting part, a first supporting cylinder, a movable rod, a second abutting part, a second supporting cylinder and a rotating head seat, the first abutting part comprises an abutting block and a first abutting spring, the first supporting cylinder comprises a front end cylinder, a rear end cylinder and a plurality of arc-shaped supporting plates arranged between the front end cylinder and the rear end cylinder, the first abutting spring is arranged in the front end cylinder, the abutting block is connected with the first abutting spring and is positioned in the front end cylinder, the first abutting part is arranged in the front end cylinder of the first supporting cylinder, the arc-shaped supporting plates are provided with wear-resistant flexible cylinders, the movable rod is arranged in the first supporting cylinder, the front end of the movable rod is in threaded connection with the inner wall of the front end cylinder, the rear end is located in the rear end barrel, the second supporting barrel is connected with the first supporting barrel through the second abutting portion, the second abutting portion comprises an abutting barrel, a second abutting spring and an abutting rod, the front end of the abutting barrel is arranged in the rear end barrel, the rear end of the abutting barrel is arranged in the front barrel of the second supporting barrel, the second abutting spring is arranged in the abutting barrel, the front end of the second abutting spring is connected in the rear end barrel, the rear end of the second abutting spring is connected in the front barrel, the abutting rod is arranged in an abutting hole in the outer wall of the second supporting barrel, the inner end of the abutting rod penetrates through a strip-shaped groove in the abutting barrel and abuts against the second abutting spring, and the rotating head seat is arranged at the rear portion of the second supporting barrel.

According to the green environment-friendly decorative composite vacuum insulation panel for the building outer wall, a baffle is arranged in a second supporting cylinder, the baffle divides the interior of the second supporting cylinder into a front cylinder body and a rear cavity, a through hole is formed in the baffle, the rear end of a second abutting spring abuts against the baffle, a rear end hole is formed in the rear side of the rear cavity, a plurality of rear cavity holes are formed in the outer wall of the rear cavity, a plurality of clamping rod groups are arranged in the rear cavity, each clamping rod group comprises a clamping rod body, a clamping seat body and a clamping rod spring, the clamping seat body is arranged at the inner end of the clamping rod body, the clamping rod spring is arranged on the clamping rod body, the outer end of the clamping rod body penetrates through the rear cavity holes, and the rotating head seat is screwed in the rear end hole and abuts against the plurality of clamping seat bodies.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the invention provides a green and environment-friendly decorative composite vacuum heat-insulating plate for a building outer wall, which is provided with a baffle plate, when the vacuum heat-insulating plate is installed at a corner, the baffle plate on the front surface of the heat-insulating plate can be taken out through a movable frame, and then an embedded block on one side is combined with an embedded groove on the other front surface, so that a gap between two groups of plates at an included angle is reduced, and the probability of water seepage of a wall body is reduced.

2. The invention provides a green environment-friendly decorative composite vacuum heat-insulating plate for a building outer wall, which is provided with a slide rail and a slide block, two groups of the vacuum heat-insulating plates can be directly combined and installed when in use, and a flexible side pad is installed between the slide block and a broken block, so that the heat insulation performance of the vacuum heat-insulating plates can be effectively ensured, the installation is more convenient, and the secondary use can be realized.

3. The invention provides a green and environment-friendly decorative composite vacuum heat-insulating plate for a building outer wall, which can effectively prevent solar radiation or radiation of a signal tower after being installed and can effectively provide safety in a building by installing a radiation-proof layer.

4. The invention provides a green environment-friendly decorative composite vacuum heat-insulating plate for a building outer wall, which is provided with expansion blocks, when the green environment-friendly decorative composite vacuum heat-insulating plate is installed in use, anchor rods can be directly embedded into the inner side of the building wall, and the expansion blocks in the building wall expand along with time after installation, so that gaps in the building wall are filled, and the situation that gaps are seeped when common anchor rods are installed can be effectively prevented.

Other advantages, objects, and features of the present invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the present invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic structural view of a slide rail according to the present invention;

FIG. 3 is a schematic structural view of a slider according to the present invention;

FIG. 4 is a schematic diagram of a vacuum layer according to the present invention;

FIG. 5 is a schematic view of the structure of the shielding plate of the present invention;

FIG. 6 is a schematic structural view of a groove nut according to the present invention;

FIG. 7 is a schematic view of the construction of the bolt head module of the present invention;

fig. 8 is a schematic view of an exploded construction of the bolt head module of the present invention;

FIG. 9 is a schematic structural view of a first support cylinder according to the present invention;

FIG. 10 is a schematic structural view of a second support cylinder according to the present invention;

FIG. 11 is a schematic structural diagram of a second butting portion according to the invention;

fig. 12 is a schematic structural view of a rotating head base according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 6, the present invention provides an environment-friendly decorative composite vacuum insulation panel for building exterior walls, comprising: the composite board comprises a composite board 1, wherein a through hole 101 is formed in the inner side of the composite board 1 in a penetrating manner, an embedding block 102 is arranged on one side of the composite board 1, embedding grooves 103 are formed in the front side and the other side of the shell 1, shielding plates 5 are movably arranged on the inner sides of the embedding grooves 103, two groups of fixing plates 501 are arranged inside the shielding plates 5, fixing springs 502 are arranged at the tops of the fixing plates 501, bolts 503 are movably arranged at the tops of the fixing springs 502, and movable frames 504 are arranged on the front sides of the bolts 503.

The working principle of the technical scheme is as follows: the invention provides a green and environment-friendly decorative composite vacuum insulation panel for a building outer wall, which comprises a composite plate 1, wherein a through hole 101 is formed in the inner side of the composite plate 1 in a penetrating manner, an embedded block 102 is installed on one side of the composite plate 1, embedded grooves 103 are formed in the front side and the other side of the composite plate 1, the composite plate 1 is a bearing structure of the vacuum insulation panel, can provide an installation position for components on the outer side and can protect the components inside, the through hole 101 can provide an installation position for an anchor rod 104 fixing structure to ensure that the vacuum insulation panel can be normally installed with a building wall surface, the embedded block 102 can be inserted into the embedded groove 103, the sealing degree between the panel and the panel can be effectively ensured, and the waterproof performance of the vacuum insulation panel is improved; the inner side of the embedding groove 103 is movably provided with a baffle plate 5, two groups of fixing plates 501 are arranged inside the baffle plate 5, the top of each fixing plate 501 is provided with a fixed spring 502, the top of each fixed spring 502 is movably provided with a bolt 503, the front of each bolt 503 is provided with a movable frame 504, the baffle plate 5 can be directly disassembled, and can prevent the inside of the tabling groove 103 from being filled with mortar without disassembling and remaining on the inner side of the composite board 1, so as to facilitate the secondary utilization of the composite board 1, the fixing plate 501 can provide support for the fixing spring 502 inside, the fixing spring 502 can push the plug 503 of the output end to move outwards and can rebound normally, the plug 503 can be directly inserted into the inner side of the socket inside the tabling groove 103, therefore, the shielding plate 5 is prevented from automatically falling, the movable frame 504 can assist in moving the bolt 503, and a user can use the vacuum insulation panel conveniently.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, when this green's building outer wall is installed with decorating compound vacuum insulation panel at the corner, can take out the positive shielding plate of insulation panel through the movable frame, make up the gomphosis piece of one side and another positive gomphosis groove of group again to make two groups of boards reduce in the gap between the contained angle, thereby reduce the probability of wall body infiltration.

In one embodiment, a fixed block 201 is arranged at the top of the composite board 1, two sets of soft rubber boards 202 are arranged at the top of the fixed block 201, a slide rail 2 is arranged on the inner side of the fixed block 201, semicircular slide grooves 203 are arranged on two sides of the slide rail 2, and flexible side backing plates 204 are arranged on two sides of the fixed block 201.

Furthermore, a plurality of groups of groove nuts 6 are arranged at the top of the slide rail 2 in a penetrating manner; the bottom of groove nut 6 is provided with screw 602, the outside activity of screw 602 is provided with flange gasket 601, just flange gasket 601 is located the below of groove nut 6

The working principle and the beneficial effects of the technical scheme are as follows: in the embodiment, a fixed block 201 is installed at the top of a composite board 1, two groups of soft rubber boards 202 are installed at the top of the fixed block 201, a slide rail 2 is installed at the inner side of the fixed block 201, semicircular slide grooves 203 are installed at two sides of the slide rail 2, flexible side pads 204 are installed at two sides of the fixed block 201, a plurality of groups of groove nuts 6 are installed at the top of the slide rail 2 in a penetrating manner, the fixed block 201 can provide combined installation for the composite board 1, the soft rubber boards 202 can increase the tightness when the slide rail 2 and the slide block 3 are installed, the slide rail 2 can be combined with the slide block 3 to facilitate the combined installation between two vertically adjacent vacuum insulation boards, the semicircular slide grooves 203 are arranged at two sides of the slide rail 2 to increase the sliding effect, so that the composite board 1 is more convenient to be combined and installed, the flexible side pads 204 are extruded with soft properties, gaps inside the composite board 1 are eliminated, thereby ensuring the thermal insulation of the composite board 1, the integral heat insulation performance of the vacuum heat insulation plate can be effectively ensured.

Further, run through at the top of slide rail 2 and install a plurality of sets of groove nut 6, screw 602 is installed to groove nut 6's bottom, the outside movable mounting of screw 602 has flange gasket 601, and flange gasket 601 is located groove nut 6's below, groove nut 6 is the nut of recessed inside, prevent that the nut from blockking this vacuum insulation panel and carrying out the built-up mounting, screw 602 can install with the screw rod hole of heat-insulating panel, guarantee that composite sheet 1 can normally install, flange gasket 601 can increase composite sheet 1's sealed, can improve the compactness of vacuum insulation panel installation simultaneously.

Further, the bottom of composite sheet 1 is provided with mounting panel 301, a plurality of groups mounting hole 302 have been seted up in the top of mounting panel 301 run through, mounting panel 301's bottom be provided with the slider 3 that slide rail 2 corresponds, the both sides of slider 3 be provided with semicircle draw runner 303 that semicircle spout 203 corresponds, the both sides of slider 3 are provided with flexible side pad 304.

The working principle and the beneficial effects of the technical scheme are as follows: in this embodiment, the mounting plate 301 is installed at the bottom of the composite plate 1, a plurality of sets of mounting holes 302 are formed through the top of the mounting plate 301, the slider 3 is installed at the bottom of the mounting plate 301, the semicircular slider 303 is installed at two sides of the slider 3, the flexible side pads 304 are installed at two sides of the slider 3, the mounting plate 301 can install the composite plate 1 on the top through a common screw connector, so as to ensure the stability of the vacuum insulation panel installed in an embedded manner, and meanwhile, a user can install the vacuum insulation panel, the mounting holes 302 can be assembled with the common screw connector, so as to provide a supporting effect for the installation of the vacuum insulation panel, so as to ensure the normal use of the vacuum insulation panel, the slider 3 can penetrate through the inner side of the sliding rail 2 to slide left and right, the sliding rail 2 and the slider 3 can be assembled and installed through sliding, thereby ensuring the integrity of the vacuum insulation panel, convenient to use person installs this vacuum insulation panels, semicircle draw runner 303 is through its semicircular gomphosis piece, combine with semicircle spout 203, can increase this vacuum insulation panels's slip performance, compare in ordinary draw runner and spout, semicircle spout 203 is better with semicircle draw runner 303's slip nature, labor pressure when reducing the staff installation, flexible side pad 304 has the same sealed effect with flexible side backing plate 204, two sets of combinations are hugged closely and are can be reduced the gap between, the condition of infiltration appears in this vacuum insulation panels of greatly reduced, can guarantee this vacuum insulation panels's impermeability.

In one embodiment, the composite board 1 is provided with a waterproof layer 401 on the inner side, a fireproof layer 402 is provided on the inner side of the waterproof layer 401, a radiation protection layer 403 is provided on the inner side of the fireproof layer 402, and a vacuum layer 4 is provided on the inner side of the radiation protection layer 403.

The working principle and the beneficial effects of the technical scheme are as follows: in the embodiment, the waterproof layer 401 is installed on the inner side of the composite board 1, the fireproof layer 402 is installed on the inner side of the waterproof layer 401, the radiation protection layer 403 is installed on the inner side of the fireproof layer 402, the vacuum layer 4 is installed on the inner side of the radiation protection layer 403, the waterproof layer 401 can directly dredge deep external water through the hydrophobic layer on the surface, and the external water is prevented from entering the vacuum insulation board through the insulation board, so that the impermeability of the vacuum insulation board is improved, the fireproof layer 402 can play a role in heat insulation and combustion prevention when a high-temperature fire source occurs, and can play a certain flame retardance simultaneously, so that the situation that fire occurs outside the vacuum insulation board causes the inside of a building to be affected, the radiation protection layer 403 can effectively isolate external solar radiation and other radiation, the inside of the building from radiation, and the temperature of the inner side and the outer side of the composite board 1 can be effectively isolated by the vacuum layer 4 in a vacuum manner, the effect that the building is warm in winter and cool in summer can be effectively achieved.

As shown in fig. 7-12, in one embodiment, the anchor rod 104 is connected to the building outer wall through the anchor rod head module 7, the anchor rod head module 7 includes a first abutting portion 71, a first supporting cylinder 72, a movable rod 73, a second abutting portion 74, a second supporting cylinder 75 and a rotating head seat 77, the first abutting portion 71 includes an abutting block 711 and a first abutting spring 712, the first supporting cylinder 72 includes a front end cylinder 721, a rear end cylinder 722 and a plurality of arc-shaped supporting plates 723 arranged between the front end cylinder 721 and the rear end cylinder 722, the first abutting spring 712 is arranged in the front end cylinder 721, the abutting block 711 is connected to the first abutting spring 712 and is located in the front end cylinder 721, the first abutting portion 71 is arranged in the front end cylinder 721 of the first supporting cylinder 72, the plurality of arc-shaped supporting plates 723 are provided with wear-resistant flexible cylinders 724, the movable rod 73 is arranged in the first supporting cylinder 72, the front end of the movable rod 73 is screwed with the inner wall of the front end barrel 721, the rear end is positioned in the rear end barrel 722, the second supporting cylinder 75 is connected with the first supporting cylinder 72 through the second abutting portion 74, the second abutting portion 74 includes an abutting cylinder 741, a second abutting spring 742 and an abutting rod 743, the front end of the abutting cylinder 741 is disposed in the rear cylinder 722, the rear end of the abutting cylinder 741 is disposed in the front cylinder 751 of the second supporting cylinder 75, the second abutting spring 742 is disposed in the abutting cylinder 741, and the front end of the second resisting spring 742 is connected in the rear end cylinder 722, the rear end is connected in the front cylinder 751, the supporting rod 743 is arranged in the supporting hole 750 on the outer wall of the second supporting cylinder 75, the inner end of the supporting rod 743 passes through the strip-shaped slot 744 on the supporting cylinder 741 and supports against the second supporting spring 742, and the rotating head seat 77 is disposed at the rear of the second supporting cylinder 75.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a specific structure of the anchor rod head module 7, specifically, the anchor rod 104 is connected with the building outer wall through the anchor rod head module 7, a corresponding anchor rod hole (not shown) is formed in the building outer wall, then the anchor rod head module 7 is placed in the anchor rod hole, the anchor rod head module 7 can increase the firmness between the anchor rod 104 and the building outer wall, so that the vacuum insulation panel is stably installed on the building outer wall;

the anchor rod head module 7 comprises a first abutting part 71, a first supporting cylinder 72, a movable rod 73, a second abutting part 74, a second supporting cylinder 75 and a rotating head seat 77, wherein the first abutting part 71 is installed in a front end cylinder 721 of the first supporting cylinder 72, the first abutting part 71 comprises an abutting block 711 and a first abutting spring 712, and the first abutting spring 712 can abut against the abutting block 711 in the front end cylinder 721, so that the front end cylinder 721 of the first supporting cylinder 72 can be shielded, building impurities (broken slag of an outer wall of a building when an anchor rod hole is formed) in the anchor rod hole can be prevented from entering the front end cylinder 721, and moisture can be prevented from entering the front end cylinder 721; the front end of the movable rod 73 is in threaded connection with the inner wall of the front end barrel 721, the rear end of the movable rod is located at the rear end barrel 722 of the first support barrel 72, meanwhile, wear-resistant flexible barrels 724 are sleeved outside the arc support plates 723 of the first support barrel 72, the front end barrel 721 and the rear end barrel 722 can be close to each other by rotating the movable rod 73, the arc support plates 723 are further bent outwards, the wear-resistant flexible barrels 724 are also propped open, and the friction force between the first support barrel 72 and the anchor rod hole is increased, so that the anchor rod head module 7 is prevented from being separated from the anchor rod hole;

further, the rear end of the first supporting cylinder 72 is connected with a second supporting cylinder 75, the second supporting cylinder 75 is connected with the first supporting cylinder 72 through a second abutting portion 74, the second abutting portion 74 comprises an abutting cylinder 741, a second abutting spring 742 and an abutting rod 743, so that a user can further abut the first supporting cylinder 72 in the anchor rod hole, wherein, by installing the supporting rod 743 in the supporting hole 750 on the outer wall of the second supporting cylinder 75, so that the inner end of the propping rod 743 penetrates the strip-shaped slot 744 inwards and props against the second propping spring 742, while the second supporting cylinder 75 and the second abutting portion 74 are thus fixed, an inward pushing force is provided to the first supporting cylinder 72, meanwhile, the abutting cylinder 741 can be moved relative to the second supporting cylinder 75, so that the abutting rod 743 can be fixed at any position of the strip-shaped groove 744, and the installation flexibility between the second abutting portion 74 and the second supporting cylinder 75 is increased; finally, the anchor rods 104 are connected to the rotating head base 77, and then the rotating head base 77 is installed to the rear portion of the second support cylinder 75, so that the second support cylinder 75 is further firmly fixed to the anchor rod hole, and the entire anchor rod head module 7 is firmly installed in the anchor rod hole and connected to the anchor rods 104, so that the vacuum insulation panel is stably installed on the outer wall of the building.

In one embodiment, a baffle 752 is disposed in the second supporting cylinder 75, the baffle 752 divides the interior of the second supporting cylinder 75 into the front cylinder 751 and the rear cavity 753, a through hole is disposed on the baffle 752, the rear end of the second abutting spring 742 abuts against the baffle 752, a rear end hole 755 is disposed at the rear side of the rear cavity 753, a plurality of rear cavity holes 754 are disposed on the outer wall, a plurality of clamping rod sets 76 are disposed in the rear cavity 753, each clamping rod set 76 includes a clamping rod body 761, a clamping seat body 762 and a clamping rod spring 763, the clamping seat body 762 is disposed at the inner end of the clamping rod body 761, the clamping rod spring 763 is disposed on the clamping rod body 761, the outer end of the clamping rod body 761 penetrates through the rear cavity hole 754, and the rotating head seat 77 is screwed in the rear end hole 755 and abuts against the clamping seat bodies 762.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a specific structure of the second supporting cylinder 75, in which a baffle 752 is designed in the second supporting cylinder 75, wherein a through hole is designed in the middle of the baffle 752, and a user can use an external tool to extend into the through hole anchor rod head module 7 to rotate the movable rod 73; the baffle 752 divides the second supporting cylinder 75 into a front cylinder 751 and a rear cavity 753, the abutting cylinder 741 and the second abutting spring 742 of the second abutting portion 74 are mostly located in the front cylinder 751, the rear side of the rear cavity 753 is a rear end hole 755, a plurality of rear end holes 754 are arranged on the outer wall, the rotating head seat 77 is screwed in the rear end hole 755, and the front end of the rotating head seat 77 is small and sharp-pointed, so that when the rotating head seat 77 is rotated by the anchor rod 104, the front end of the rotating head seat 77 moves towards the rear cavity 753, and then the plurality of clamping rod sets 76 are pushed outwards, specifically, the front end of the rotating head seat 77 moves relative to the clamping seat 762, and then the clamping seat 762 moves outwards, and then the clamping rod body 761 is driven to penetrate through the rear end hole 754 and abut against the inner wall of the anchor rod hole, and at this time, the clamping rod spring 763 is compressed to provide a pre-tightening force for the clamping rod set 76, so that the second supporting cylinder 75 is also firmly connected with the anchor rod hole, the anchor rod head module 7 is prevented from being separated from the anchor rod hole, and the whole anchor rod head module 7 is firmly installed in the anchor rod hole and connected with the anchor rod 104, so that the vacuum insulation panel is stably installed on the outer wall of the building.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the vacuum insulation panel or member in question must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be considered as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims

1. The utility model provides a green's building outer wall is with decorating compound vacuum insulation panels which characterized in that includes: composite sheet (1), through-hole (101) have been seted up in the inboard run-through of composite sheet (1), one side of composite sheet (1) is provided with gomphosis piece (102), gomphosis groove (103) have been seted up to the front of shell (1) and opposite side, the inboard run-through activity of through-hole (101) is provided with stock (104), the top of composite sheet (1) is provided with fixed block (201), the bottom of composite sheet (1) is provided with mounting panel (301), the inboard activity of gomphosis groove (103) is provided with shielding plate (5), the inside of shielding plate (5) is provided with two sets of fixed plates (501), the top of fixed plate (501) is provided with fixed spring (502), the inboard of composite sheet (1) is provided with waterproof layer (401).

2. The environment-friendly decorative composite vacuum insulation panel for the building exterior wall according to claim 1, wherein two groups of soft rubber plates (202) are arranged at the top of the fixing block (201), a sliding rail (2) is arranged on the inner side of the fixing block (201), semicircular sliding grooves (203) are arranged on two sides of the sliding rail (2), flexible side base plates (204) are arranged on two sides of the fixing block (201), and a plurality of groups of groove nuts (6) are arranged on the top of the sliding rail (2) in a penetrating manner.

3. The environment-friendly decorative composite vacuum insulation panel for the building exterior wall according to claim 2, wherein a plurality of groups of mounting holes (302) are formed in the top of the mounting plate (301) in a penetrating manner, a sliding block (3) corresponding to the sliding rail (2) is arranged at the bottom of the mounting plate (301), semicircular sliding strips (303) corresponding to the semicircular sliding grooves (203) are arranged on two sides of the sliding block (3), and flexible side pads (304) are arranged on two sides of the sliding block (3).

4. The green environment-friendly decorative composite vacuum insulation panel for the external wall of the building as claimed in claim 1, wherein a fire-proof layer (402) is arranged on the inner side of the waterproof layer (401), a radiation-proof layer (403) is arranged on the inner side of the fire-proof layer (402), and a vacuum layer (4) is arranged on the inner side of the radiation-proof layer (403).

5. The environment-friendly decorative composite vacuum insulation panel for the exterior wall of the building as claimed in claim 1, wherein a bolt (503) is movably arranged at the top of the fixed spring (502), and a movable frame (504) is arranged on the front surface of the bolt (503).

6. The green environment-friendly decorative composite vacuum insulation panel for the exterior wall of the building as claimed in claim 2, wherein a screw (602) is arranged at the bottom of the groove nut (6), a flange gasket (601) is movably arranged at the outer side of the screw (602), and the flange gasket (601) is positioned below the groove nut (6).

7. The green environment-friendly decorative composite vacuum insulation panel for the building outer wall according to claim 1, wherein the anchor rod (104) is connected with the building outer wall through an anchor rod head module (7), the anchor rod head module (7) comprises a first abutting portion (71), a first supporting cylinder (72), a movable rod (73), a second abutting portion (74), a second supporting cylinder (75) and a rotating head seat (77), the first abutting portion (71) comprises an abutting block (711) and a first abutting spring (712), the first supporting cylinder (72) comprises a front end cylinder (721), a rear end cylinder (722) and a plurality of arc-shaped supporting plates (723) arranged between the front end cylinder (721) and the rear end cylinder (722), the first abutting spring (712) is arranged in the front end cylinder (721), the abutting block (711) is connected with the first abutting spring (712) and is positioned in the front end cylinder (721), the first abutting part (71) is arranged in a front end barrel (721) of the first supporting barrel (72), a plurality of arc-shaped supporting plates (723) are provided with wear-resistant flexible barrels (724), the movable rod (73) is arranged in the first supporting barrel (72), the front end of the movable rod (73) is in threaded connection with the inner wall of the front end barrel (721), the rear end of the movable rod is located in the rear end barrel (722), the second supporting barrel (75) is connected with the first supporting barrel (72) through the second abutting part (74), the second abutting part (74) comprises an abutting barrel (741), a second abutting spring (742) and an abutting rod (743), the front end of the abutting barrel (741) is arranged in the rear end barrel (722), the rear end of the abutting barrel (741) is arranged in a front barrel body (751) of the second supporting barrel (75), and the second abutting spring (741) is arranged in the abutting barrel (742), the front end of the second abutting spring (742) is connected into the rear end cylinder (722), the rear end of the second abutting spring is connected into the front cylinder body (751), the abutting rod (743) is arranged in an abutting hole (750) in the outer wall of the second supporting cylinder (75), the inner end of the abutting rod (743) penetrates through a strip-shaped groove (744) in the abutting cylinder (741) and abuts against the second abutting spring (742), and the rotating head seat (77) is arranged at the rear of the second supporting cylinder (75).

8. The green environmental-friendly decorative composite vacuum insulation panel for the exterior wall of the building as claimed in claim 7, wherein a baffle (752) is disposed in the second supporting cylinder (75), the baffle (752) divides the interior of the second supporting cylinder (75) into the front cylinder (751) and the rear cavity (753), a via hole is disposed on the baffle (752), the rear end of the second propping spring (742) props against the baffle (752), a rear hole (755) is disposed at the rear side of the rear cavity (753), a plurality of rear cavity holes (754) are disposed on the outer wall, a plurality of clamping rod sets (76) are disposed in the rear cavity (753), the clamping rod sets (76) comprise clamping rod bodies (761), clamping seat bodies (762) and clamping rod springs (763), the clamping seat bodies (762) are disposed at the inner ends of the clamping rod bodies (761), and the clamping rod springs (763) are disposed on the clamping rod bodies (761), the outer end of the clamping rod body (761) penetrates through the rear cavity hole (754), and the rotating head seat (77) is in threaded connection with the rear end hole (755) and abuts against the clamping seat bodies (762).