CN211948966U - External thermal insulation system of external wall formed by vacuum insulated panel - Google Patents

Abstract

The application provides an external thermal insulation system for an external wall, which is formed by vacuum insulation panels, and comprises a plurality of vacuum insulation panels and a plurality of anchoring nails; the anchoring nail penetrates through the nail inserting through hole, the nail tip of the nail rod is inserted and fixed into the outer wall of the building, and the circular sheet is extruded to block the two adjacent vacuum insulation panels; the anchoring nails do not puncture the membrane material of the vacuum insulation panel and do not damage the vacuum of the vacuum insulation panel, and the two fixing modes of sticking and anchoring with the inserting nails improve the connection strength between the vacuum insulation panel and the outer wall body and prevent the vacuum insulation panel from falling off.

Description

External thermal insulation system of external wall formed by vacuum insulated panel

Technical Field

The utility model belongs to the technical field of building external wall insulation technique and specifically relates to an adopt external wall heat preservation system of vacuum insulation panels constitution.

Background

At present, the energy-saving requirement of China on the external thermal insulation system of the external wall is that the energy is saved by 75 percent or more, and the fireproof requirement of China on the external thermal insulation system of the external wall is that the A-level fireproof requirement is met. Building energy conservation is the need for realizing sustainable development, building fire prevention is the need for social safety, and the two must be considered at the same time, but the two are not enough.

The Vacuum Insulation Panel (VIP) mainly comprises three parts, namely a core material, a membrane material and a getter, wherein the inner core material enables the vacuum insulation panel to bear the pressure of external atmospheric pressure, the membrane material is used for maintaining the vacuum environment in the vacuum insulation panel, and the getter can absorb gas or water vapor permeating into the vacuum environment and gas or water vapor generated in the vacuum insulation panel in the using process. The STP ultrathin vacuum insulation board has a heat conductivity coefficient lower than 0.008W/(m.k), a fire-proof grade of A1, and core materials mainly made of ultrafine silicon dioxide powder, wherein the ultrafine silicon dioxide powder is an inorganic material, and the fire-proof grade is A.

In addition, the vacuum insulation panel has other defects, and the main defects are that the vacuum insulation panel is easy to damage and lose air inlet efficiency, the bag is expanded, the cold and hot bridge phenomenon of the splicing seam is serious, the vacuum insulation panel cannot be cut, the vacuum insulation panel cannot be perforated and anchored, the core material is easy to absorb water, and the like.

The structure of the existing vacuum insulation panel determines that once the film material is damaged due to cutting or perforation anchoring, the air inlet failure of the vacuum insulation panel can be caused, the vacuum insulation effect is lost, and the core material absorbs water to expand, so that the core material and the film material of the vacuum insulation panel are separated, the vacuum insulation panel is easy to fall off after the core material and the film material are separated, the decorative layer originally stuck on the film material of the vacuum insulation panel is easy to fall off, and the serious potential safety hazard is formed.

The structure of the existing vacuum insulation panel determines that the existing vacuum insulation panel cannot be perforated for anchoring, once the existing vacuum insulation panel is perforated for anchoring, the membrane material is damaged, the air inlet failure is caused, and the vacuum insulation effect is lost, so that the vacuum insulation panel as an insulation panel cannot be anchored on the outer wall surface of a building in a mode of directly penetrating the anchoring part like other insulation panels, but only the splicing anchoring technology or sticking between panels can be adopted for installation, the adhesive force between the vacuum insulation panel and the object on the inner side of the vacuum insulation panel is smaller, the adhesive force between the vacuum insulation panel and the object on the outer side of the vacuum insulation panel is smaller, the whole external insulation system of the whole external wall is loosened and collapsed, the layering is very easy, the vacuum insulation panel is very easy to fall off.

Therefore, how to improve the connection strength between the vacuum insulation panel and the outer wall body and prevent the vacuum insulation panel from falling off on the premise of ensuring that the vacuum insulation panel is conveniently and quickly installed is a technical problem which needs to be solved urgently by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an adopt the outer insulation system of outer wall that vacuum insulation panels constitutes.

For solving the above technical problem, the utility model provides a technical scheme does:

an external thermal insulation system for an external wall, which is formed by vacuum thermal insulation plates, comprises a plurality of vacuum thermal insulation plates and a plurality of anchoring nails;

the vacuum insulation panels are adhered and fixed on the outer wall surface of the building outer wall through adhesive mortar, the vacuum insulation panels adhered on the outer wall surface of the building outer wall are arranged layer by layer from bottom to top, and a plurality of vacuum insulation panels are spliced into an insulation layer in an outer wall insulation system;

the vacuum insulation panel comprises a core material and a vacuum insulation panel, wherein the vacuum insulation panel is characterized in that one length side of the core material is provided with 2 1/2 round through holes for inserting anchoring nails, the other length side of the core material in the vacuum insulation panel is provided with 2 1/2 round through holes for inserting anchoring nails, a film material in the vacuum insulation panel is tightly sealed and wraps the core material so as to form 2 1/2 round through holes for inserting anchoring nails at one length side of the vacuum insulation panel, and 2 1/2 round through holes for inserting anchoring nails are formed at the other length side of the vacuum insulation panel;

the vertical splicing seams between two adjacent vacuum heat insulation plates in the upper layer and the vertical splicing seams between two adjacent vacuum heat insulation plates in the lower layer are arranged in a staggered mode so as to enable the three adjacent vacuum heat insulation plates to be arranged in a delta shape;

in three vertically adjacent vacuum insulation panels arranged in a delta shape, a 1/2 circular through hole at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole at the upper length edge of the lower vacuum insulation panel are spliced into an inserting nail through hole, and the other 1/2 circular through hole at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole at the upper length edge of the other vacuum insulation panel are spliced into an inserting nail through hole;

the anchor nail includes the nail pole with set up in circular sheet on the outer end of nail pole, the external diameter of circular sheet is greater than insert the diameter of nailing through-hole, the nail pole is followed insert and pass in the nailing through-hole just the nail point of nail pole inserts to be fixed in the building outer wall, circular sheet extrusion card keeps off two adjacent vacuum insulation panels in order to be used for preventing that vacuum insulation panel from droing.

Preferably, the size of the vacuum insulation panel is 600mm long by 400mm wide.

Preferably, the seam width of the vertical splicing seam between the left and right adjacent vacuum insulation panels in each layer is 1-15 mm;

the width of the horizontal splicing seam between two adjacent vacuum insulation panels is 1-15 mm.

Preferably, a 1/2 circular through hole for inserting an anchoring nail is formed at one width side of the core material in the vacuum insulation panel, a 1/2 circular through hole for inserting an anchoring nail is formed at the other width side of the core material in the vacuum insulation panel, so that a 1/2 circular through hole for inserting an anchoring nail is formed at one width side of the vacuum insulation panel, and a 1/2 circular through hole for inserting an anchoring nail is formed at the other width side of the vacuum insulation panel;

in two adjacent vacuum insulation panels on the left and right in each layer, a 1/2 circular through hole on the right width side of the vacuum insulation panel on the left side of the vertical splicing seam and a 1/2 circular through hole on the left width side of the vacuum insulation panel on the right side of the vertical splicing seam are spliced to form a nail inserting through hole.

The application provides an external thermal insulation system for an external wall, which is formed by vacuum insulation panels, and comprises a plurality of vacuum insulation panels and a plurality of anchoring nails;

2 1/2 circular through holes for inserting anchoring nails are formed in one length side of the vacuum insulation panel, and 2 1/2 circular through holes for inserting anchoring nails are formed in the other length side of the vacuum insulation panel;

in three vertically adjacent vacuum insulation panels arranged in a delta shape, a 1/2 circular through hole at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole at the upper length edge of the lower vacuum insulation panel are spliced into an inserting nail through hole, and the other 1/2 circular through hole at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole at the upper length edge of the other vacuum insulation panel are spliced into an inserting nail through hole;

the anchoring nail comprises a nail rod and a circular sheet arranged on the outer end of the nail rod, the outer diameter of the circular sheet is larger than the diameter of the nail inserting through hole, the nail rod penetrates through the nail inserting through hole, the nail tip of the nail rod is inserted and fixed into the outer wall of the building, and the circular sheet extrudes and blocks the two adjacent vacuum heat insulation plates to prevent the vacuum heat insulation plates from falling off;

the vacuum insulation panels are adhered and fixed on the outer wall surface of the building outer wall through bonding mortar, the anchoring nails penetrate through specially-arranged inserting nail through holes spliced by two 1/2 circular through holes, the anchoring nails are convenient to insert and penetrate, the membrane materials of the vacuum insulation panels are not punctured, the vacuum of the vacuum insulation panels is not damaged, two adjacent vacuum insulation panels are extruded and clamped and fixed on the building outer wall through the anchoring nails, namely two fixing modes including adhering and inserting nail anchoring are adopted, on the premise that the vacuum insulation panels are conveniently and quickly installed, the two fixing modes including adhering and inserting nail anchoring are adopted, the connecting strength between the vacuum insulation panels and the outer wall body is improved, and the vacuum insulation panels are prevented from falling off;

and the anchoring nail penetrates through the specially-arranged nail inserting through hole spliced by the two 1/2 circular through holes, so that the problem of overlarge heat bridge caused by overlarge gap between two adjacent vacuum insulation panels due to the fact that the anchoring nail is inserted in the original inter-panel splicing anchoring technology is solved, the heat bridge at the gap is reduced, and the heat insulation performance of the outer wall outer heat insulation system is improved.

Drawings

Fig. 1 is a schematic structural diagram of the vacuum insulation panels spliced in the external thermal insulation system for an exterior wall formed by the vacuum insulation panels according to an embodiment of the present invention.

In the figure: 1 vacuum insulation panel in the last layer, 2 vacuum insulation panels in the next layer, 3 1/2 round through holes on the vacuum insulation panels, 4 vertical splicing seams, 5 horizontal splicing seams and 6 inserted nail through holes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "axial", "radial", "longitudinal", "lateral", "length", "width", "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like are used in the orientation or positional relationship indicated in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to 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 description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "vertical" and "horizontal direction" are directions or positional relationships after the vacuum insulation panels are installed on the outer wall surface of the building outer wall based on practical applications, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram illustrating a vacuum insulation panel splicing structure in an external thermal insulation system for an exterior wall, which is formed by vacuum insulation panels according to an embodiment of the present invention; in the figure: the vacuum insulation panel 1 in the upper layer, the vacuum insulation panel 2 in the lower layer, the 1/2 round through hole 3 on the vacuum insulation panel, the vertical splicing seam 4, the horizontal splicing seam 5 and the inserted nail through hole 6.

The application provides an external thermal insulation system for an external wall, which is formed by vacuum insulation panels, and comprises a plurality of vacuum insulation panels and a plurality of anchoring nails;

the vacuum insulation panels are adhered and fixed on the outer wall surface of the building outer wall through adhesive mortar, the vacuum insulation panels adhered on the outer wall surface of the building outer wall are arranged layer by layer from bottom to top, and a plurality of vacuum insulation panels are spliced into an insulation layer in an outer wall insulation system;

2 1/2 circular through holes for inserting anchoring nails are formed in one length side of a core material in the vacuum insulation panel, 2 1/2 circular through holes for inserting anchoring nails are formed in the other length side of the core material in the vacuum insulation panel, a film material in the vacuum insulation panel is tightly sealed and wraps the core material, 2 1/2 circular through holes 3 for inserting anchoring nails are formed in one length side of the vacuum insulation panel, and 2 1/2 circular through holes 3 for inserting anchoring nails are formed in the other length side of the vacuum insulation panel;

the vertical splicing seams 4 between two adjacent vacuum heat insulation plates in the upper layer and the vertical splicing seams 4 between two adjacent vacuum heat insulation plates in the lower layer are arranged in a staggered mode so as to enable the three adjacent vacuum heat insulation plates to be arranged in a delta shape;

in three vertically adjacent vacuum insulation panels arranged in a delta shape, a 1/2 circular through hole 3 at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole 3 at the upper length edge of the lower vacuum insulation panel are spliced into an inserting nail through hole 6, and the other 1/2 circular through hole 3 at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole 3 at the upper length edge of the other vacuum insulation panel are spliced into an inserting nail through hole 6;

the anchor nail including the nail pole with set up in circular piece on the outer end of nail pole, the external diameter of circular piece is greater than insert the diameter of nail through-hole 6, the nail pole is followed insert and pass in the nail through-hole 3 just the nail point of nail pole inserts to be fixed in the building outer wall, two adjacent vacuum insulation panels are being kept off in order to be used for preventing that vacuum insulation panel from droing to circular piece extrusion card.

In one embodiment of the present application, the vacuum insulation panel has a size of 600mm in length by 400mm in width.

In one embodiment of the application, the seam width of the vertical splicing seam 4 between the left and right adjacent vacuum insulation panels in each layer is 1-15 mm;

the width of the horizontal splicing seam 5 between two adjacent vacuum insulation panels at the upper part and the lower part of the two adjacent layers at the upper part and the lower part is 1-15 mm;

therefore, the size of the width of the vertical splicing seam 4 between the two adjacent vacuum insulation panels at the left and right can be adjusted, so that the 1/2 round through hole on the vacuum insulation panel at the upper layer and the 1/2 round through hole on the vacuum insulation panel at the lower layer can be aligned and aligned, are not inclined, and are spliced into a complete nail inserting through hole.

In one embodiment of the application, a 1/2 circular through hole for inserting an anchoring nail is formed at one width side of a core material in the vacuum insulation panel, a 1/2 circular through hole for inserting an anchoring nail is formed at the other width side of the core material in the vacuum insulation panel, so that a 1/2 circular through hole for inserting an anchoring nail is formed at one width side of the vacuum insulation panel, and a 1/2 circular through hole for inserting an anchoring nail is formed at the other width side of the vacuum insulation panel;

in two adjacent vacuum insulation panels on the left and right in each layer, a 1/2 circular through hole on the right width side of the vacuum insulation panel on the left side of the vertical splicing seam and a 1/2 circular through hole on the left width side of the vacuum insulation panel on the right side of the vertical splicing seam are spliced to form a nail inserting through hole.

The application provides an external thermal insulation system for an external wall, which is formed by vacuum insulation panels, and comprises a plurality of vacuum insulation panels and a plurality of anchoring nails;

2 1/2 circular through holes 3 for inserting anchoring nails are formed in one length side of the vacuum insulation panel, and 2 1/2 circular through holes 3 for inserting anchoring nails are formed in the other length side of the vacuum insulation panel;

in three vertically adjacent vacuum insulation panels arranged in a delta shape, a 1/2 circular through hole 3 at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole 3 at the upper length edge of the lower vacuum insulation panel are spliced into an inserting nail through hole 6, and the other 1/2 circular through hole 3 at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole 3 at the upper length edge of the other vacuum insulation panel are spliced into an inserting nail through hole 6;

the anchoring nail comprises a nail rod and a circular sheet arranged on the outer end of the nail rod, the outer diameter of the circular sheet is larger than the diameter of the nail inserting through hole 6, the nail rod penetrates through the nail inserting through hole 6, the nail tip of the nail rod is inserted and fixed into the outer wall of the building, and the circular sheet extrudes and blocks two adjacent vacuum heat insulation plates to prevent the vacuum heat insulation plates from falling off;

the vacuum insulation panel is adhered and fixed on the outer wall surface of the building outer wall through bonding mortar, the anchoring nails penetrate through specially-arranged inserting nail through holes 6 formed by splicing two 1/2 circular through holes 3, the anchoring nails are convenient to insert, the membrane material of the vacuum insulation panel is not punctured, the vacuum of the vacuum insulation panel is not damaged, two adjacent vacuum insulation panels are extruded and clamped and fixed on the building outer wall through the anchoring nails, namely two fixing modes of adhering and inserting the nails for anchoring are combined, on the premise that the vacuum insulation panels are conveniently and quickly installed, the two fixing modes of adhering and inserting the nails for anchoring improve the connection strength between the vacuum insulation panels and the outer wall body, and the vacuum insulation panels are prevented from falling off;

and the anchoring nail passes through the specially arranged nail inserting through hole 6 spliced by the two 1/2 circular through holes 3, so that the problem of overlarge heat bridge caused by overlarge gap between two adjacent vacuum insulation panels due to the insertion of the anchoring nail in the original inter-panel splicing anchoring technology is solved, the heat bridge at the splicing gap is reduced, and the heat insulation performance of the external thermal insulation system of the external wall is improved.

The method and the device not described in detail in the present invention are prior art and will not be described in detail.

The principles and embodiments of the present invention have been explained herein using specific embodiments, which are merely used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (4)

1. An external thermal insulation system for an external wall, which is formed by vacuum thermal insulation plates, is characterized by comprising a plurality of vacuum thermal insulation plates and a plurality of anchoring nails;

the vacuum insulation panels are adhered and fixed on the outer wall surface of the building outer wall through adhesive mortar, the vacuum insulation panels adhered on the outer wall surface of the building outer wall are arranged layer by layer from bottom to top, and a plurality of vacuum insulation panels are spliced into an insulation layer in an outer wall insulation system;

the vacuum insulation panel comprises a core material and a vacuum insulation panel, wherein the vacuum insulation panel is characterized in that one length side of the core material is provided with 2 1/2 round through holes for inserting anchoring nails, the other length side of the core material in the vacuum insulation panel is provided with 2 1/2 round through holes for inserting anchoring nails, a film material in the vacuum insulation panel is tightly sealed and wraps the core material so as to form 2 1/2 round through holes for inserting anchoring nails at one length side of the vacuum insulation panel, and 2 1/2 round through holes for inserting anchoring nails are formed at the other length side of the vacuum insulation panel;

the vertical splicing seams between two adjacent vacuum heat insulation plates in the upper layer and the vertical splicing seams between two adjacent vacuum heat insulation plates in the lower layer are arranged in a staggered mode so as to enable the three adjacent vacuum heat insulation plates to be arranged in a delta shape;

in three vertically adjacent vacuum insulation panels arranged in a delta shape, a 1/2 circular through hole at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole at the upper length edge of the lower vacuum insulation panel are spliced into an inserting nail through hole, and the other 1/2 circular through hole at the lower length edge of the upper vacuum insulation panel and a 1/2 circular through hole at the upper length edge of the other vacuum insulation panel are spliced into an inserting nail through hole;

the anchor nail includes the nail pole with set up in circular sheet on the outer end of nail pole, the external diameter of circular sheet is greater than insert the diameter of nailing through-hole, the nail pole is followed insert and pass in the nailing through-hole just the nail point of nail pole inserts to be fixed in the building outer wall, circular sheet extrusion card keeps off two adjacent vacuum insulation panels in order to be used for preventing that vacuum insulation panel from droing.

2. The exterior wall external thermal insulation system using the vacuum insulation panel according to claim 1, wherein the size of the vacuum insulation panel is 600mm long by 400mm wide.

3. The external thermal insulation system for the external wall formed by the vacuum insulation panels according to claim 1, wherein the width of the vertical splicing seam between the two adjacent vacuum insulation panels at the left and right in each layer is 1-15 mm;

the width of the horizontal splicing seam between two adjacent vacuum insulation panels is 1-15 mm.

4. The exterior wall external thermal insulation system formed by adopting the vacuum insulation panels as claimed in claim 1, wherein a 1/2 circular through hole for inserting the anchor nail is formed at one width side of the core material in the vacuum insulation panel, a 1/2 circular through hole for inserting the anchor nail is formed at the other width side of the core material in the vacuum insulation panel, so that a 1/2 circular through hole for inserting the anchor nail is formed at one width side of the vacuum insulation panel, and a 1/2 circular through hole for inserting the anchor nail is formed at the other width side of the vacuum insulation panel;

in two adjacent vacuum insulation panels on the left and right in each layer, a 1/2 circular through hole on the right width side of the vacuum insulation panel on the left side of the vertical splicing seam and a 1/2 circular through hole on the left width side of the vacuum insulation panel on the right side of the vertical splicing seam are spliced to form a nail inserting through hole.

Images