CN212453470U - Keel device embedded with double-sided heat reflection heat preservation and insulation material - Google Patents

Abstract

The utility model discloses an embedded two-sided heat reflection heat preservation thermal insulation material fossil fragments device, include a plurality of middle fossil fragments and the peripheral fossil fragments of being connected with structure basic unit and decoration panel respectively, between middle fossil fragments and the peripheral fossil fragments, embedded having two-sided heat reflection heat preservation thermal insulation material layer between middle fossil fragments and the middle fossil fragments, two-sided heat reflection heat preservation thermal insulation material layer is all gapped with structure basic unit and decoration panel respectively. The utility model discloses reduced the direct contact of whole fossil fragments device and structural basic unit, embedded heat preservation and insulation material in the fossil fragments device makes ordinary heat preservation and insulation material and decoration panel and structural basic unit break away from the contact, and heat preservation and insulation material's two surfaces adopt high heat reflectivity material to when guaranteeing required heat preservation thermal-insulated effect, reduce fossil fragments thickness and reduce interior decoration's gross thickness.

Description

Keel device embedded with double-sided heat reflection heat preservation and insulation material

Technical Field

The utility model relates to a building energy saving material installs technical field, in particular to embedded two-sided heat reflection heat preservation thermal insulation material fossil fragments device.

Background

At present, the heat preservation of buildings in China is heavier than that of external heat preservation, but the energy-saving efficiency of the external heat preservation is greatly lower than that of the internal heat preservation. This is because the heat-insulating layer provided at one side of the room makes the temperature rise or decrease of the indoor air more rapid, and the external heat-insulating rule is that a considerable amount of energy is used to heat or cool the main structure when the building is air-conditioned or heated indoors, and the main structure has a large weight, thus resulting in extremely high energy consumption and very little energy saving.

The heat preservation can embed ordinary light porous material in fossil fragments in the building, but common practice fossil fragments size is big, fossil fragments and heat preservation insulating layer and structural backing and decoration panel direct contact, and heat-conduction is serious, and thickness is than thicker, also wastes the interior space than the comparison.

SUMMERY OF THE UTILITY MODEL

The utility model provides an embedded two-sided heat reflection heat preservation thermal insulation material fossil fragments device to solve the not enough of prior art.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides an embedded two-sided heat reflection heat preservation thermal insulation material fossil fragments device, includes a plurality of middle fossil fragments and the peripheral fossil fragments of being connected with structure basic unit and decoration panel respectively, between middle fossil fragments and the peripheral fossil fragments, embedded two-sided heat reflection heat preservation thermal insulation material layer between middle fossil fragments and the middle fossil fragments, two-sided heat reflection heat preservation thermal insulation material layer is all gapped with structure basic unit and decoration panel respectively.

Furthermore, the middle keel and the peripheral keels respectively comprise keel main materials, thin plates and a plurality of rubber pads, the thin plates are fixed at the lower ends of the keel main materials, the rubber pads are arranged at the lower ends of the thin plates at intervals, the rubber pads are in contact fit with the structural base layer, and the top ends of the keel main materials are fixedly connected with the decoration panel.

Furthermore, keel main materials extend out of two sides of the thin plate of the middle keel, and the keel main materials extend out of one side of the thin plate of the peripheral keel.

Furthermore, the double-sided heat reflection heat preservation and insulation material layer is respectively fixed on the thin plate of the middle keel and the thin plate of the peripheral keel through an adhesive, and the thickness of the double-sided heat reflection heat preservation and insulation material layer is smaller than that of the main keel material.

Further, the keel main material is fixedly connected with the structural base layer through a plurality of expansion screws, and pre-drilled round holes for drilling are formed in the upper end of the keel main material at intervals.

Furthermore, the upper outer surface and the lower outer surface of the double-sided heat reflection heat insulation material layer are both made of materials with high heat reflectivity.

Further, the keel main material is made of a solid wood plate or an artificial plate, the width of the keel main material is 30-50 mm, and the thickness of the keel main material is 8-20 mm; the thickness of the thin plate is about 1mm, the length of the two sides of the thin plate of the middle keel extending out of the keel main material is 10mm-20mm, and the length of the one side of the thin plate of the peripheral keel extending out of the keel main material is 10mm-20 mm; the thickness of the rubber pad is about 5mm-10 mm.

Furthermore, the rubber pad corresponds to the position of the pre-drilled round hole, and when the keel main material is fixed with the structural base layer, the expansion screw penetrates through the rubber pad; the expansion screw comprises an expansion pipe and a screw, the expansion pipe is embedded into the hole drilled to a certain depth in the structure base layer at the position of the pre-drilled round hole, and the screw is screwed in, so that the keel is fixed on the structure base layer.

Further, the gap between the peripheral keel and the structural substrate is sealed by an adhesive.

Further, the keel main material and the thin plate are fixedly connected through screws or adhesives.

The utility model has the advantages that:

the utility model discloses reduced the direct contact of whole fossil fragments device and structural basic unit, embedded heat preservation and insulation material in the fossil fragments device makes ordinary heat preservation and insulation material and decoration panel and structural basic unit break away from the contact, and heat preservation and insulation material's two surfaces adopt high heat reflectivity material to when guaranteeing required heat preservation thermal-insulated effect, reduce fossil fragments thickness and reduce interior decoration's gross thickness.

Drawings

Fig. 1 is an installation cross-sectional view of a keel device embedded with a double-sided heat-reflection heat-insulation material provided by the utility model;

figure 2 is a plan view of the intermediate keel;

figure 3 is a cross-sectional view of the intermediate keel;

figure 4 is a plan view of the peripheral keel;

figure 5 is a cross-sectional view of the peripheral keel.

In the figure, 1-keel main material, 2-thin plate, 3-rubber pad, 4-pre-drilled round hole, 5-screw, 6-decorative panel, 7-gap, 8-double-sided heat reflection heat insulation material layer, 9-structural base layer, 10-expansion pipe and 11-adhesive.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, the utility model provides a technical scheme:

a keel device embedded with double-sided heat-reflecting heat-insulating materials comprises a plurality of middle keels and peripheral keels which are respectively connected with a structural base layer and a decorative panel, wherein double-sided heat-reflecting heat-insulating material layers 8 are embedded between the middle keels and the peripheral keels and between the middle keels and the middle keels, and gaps 7 are respectively reserved between the double-sided heat-reflecting heat-insulating material layers 8 and a structural base layer 9 and a decorative panel 6; the upper and lower outer surfaces of the double-sided heat-reflecting heat-insulating material layer 8 are made of materials with high heat reflectivity.

This embedded two-sided heat reflection heat preservation thermal insulation material fossil fragments device has reduced the direct contact of whole fossil fragments subassembly with the basic unit, embeds heat preservation thermal insulation material in this device, makes ordinary heat preservation thermal insulation material and decoration panel 6 and structure basic unit 9 break away from the contact, and two surfaces of heat preservation thermal insulation material adopt the high heat reflectivity material to when guaranteeing required heat preservation thermal-insulated effect, reduce fossil fragments thickness, and reduce interior decoration's gross thickness.

In this embodiment, as shown in fig. 2 to 5, each of the central keel and the peripheral keels includes a keel main material 1, a sheet 2, and a plurality of rubber pads 3, the sheet 2 is fixed at the lower end of the keel main material 1, the plurality of rubber pads 3 are disposed at the lower end of the sheet 2 at intervals, the rubber pads 3 are in contact fit with the structural base layer 9, and the top surface of the keel main material 1 is fixedly connected to the decorative panel 6. The both sides of the sheet metal of middle fossil fragments all stretch out fossil fragments main timber 1, the fossil fragments main timber 1 is stretched out to one side of the sheet metal of peripheral fossil fragments. The double-sided heat reflection heat preservation and insulation material layer 8 is respectively fixed on the thin plate 2 of the middle keel or the thin plate 2 of the peripheral keel through an adhesive 11, and the thickness of the double-sided heat reflection heat preservation and insulation material layer 8 is smaller than that of the keel main material 1. Keel main material 1, sheet metal 2, rubber pad 3 and structure basic unit 9 are through a plurality of inflation screw fixed connection, just keel main material 1 upper end interval is equipped with the round hole 4 of boring in advance that is used for drilling. The rubber pad 3 corresponds to the position of the pre-drilled round hole 4, and when the keel is fixed with the structural base layer 9, the expansion screw penetrates through the rubber pad 3; the expansion screw comprises an expansion pipe 10 and a screw 5, and the expansion pipe 10 is embedded into the structure base layer 9 by drilling a hole to a certain depth in the position of the pre-drilled round hole 4 and is screwed into the screw 5, so that the keel is fixed on the structure base layer 9. The gap between the perimeter runners and the side structural substrate 9 is sealed by an adhesive 11. The keel main material 1 and the thin plate 2 are fixedly connected through screws or adhesives.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The keel main material 1 is made of solid wood plates or other artificial plates, the width is about 30mm-50mm, and the thickness is about 8mm-20 mm. The stress performance according to the decoration panel of fossil fragments main timber interval decides.

The bottom surface of the keel main material 1 is fixed with a layer of thin plate 2 (the specific material of the thin plate can be selected differently, the fixing mode can be nail or can be adhesive), the thickness of the thin plate is about 1mm, the length of the two sides of the thin plate of the middle keel, which extend out of the keel main material 1, is 10mm-20mm, and the length of the thin plate of the peripheral keel, which extends out of the keel main material 1, is 10mm-20 mm.

The upper surface of the keel main material 1 is pre-drilled with round holes 4 according to a certain distance, the depth of the holes is preferably larger than or equal to the thickness of a nut of the later-stage mounting screw 5, and the diameter of the holes is preferably slightly larger than the diameter of the nut of the later-stage mounting screw 5.

A plurality of rubber pads 3 (the fixing mode can be nail or gluing) are fixed at the positions corresponding to the pre-drilled round holes 4 under the thin plate 2, the thickness of each rubber pad is about 5mm-10mm, and the shape of each rubber pad 3 can be circular or square.

Leveling should be made in advance for the structural base layer 9 to ensure surface leveling. When the keel is fixed, the hole 4 is drilled downwards to a certain depth in the structural base layer 9, the expansion pipe 10 is embedded, and the matched screw 5 is screwed in to fix the keel on the structural base layer 9.

After the keel is installed, an adhesive 11 is smeared on the exposed upper surface of the thin plate 2 and the side surface of the adjacent keel main material 1, and a double-sided heat-reflection heat-insulation material layer 8 is fixed. The thickness of the double-sided heat-reflecting heat-insulating material layer 8 is slightly smaller than that of the keel main material 1, so that the double-sided heat-reflecting heat-insulating material layer 8 is guaranteed to be separated from the decoration panel 6 and the structure base layer 9 after being installed. The upper and lower outer surfaces of the double-sided heat-reflecting heat-insulating material layer 8 are made of materials with higher heat reflectivity so as to enhance the heat-insulating effect. The adhesive must be fully coated to ensure that the edges of the heat-insulating material can achieve good sealing without air communication at two sides.

The decorative panel 6 is fixed on the top surface of the keel main material 1, and the specific fixing mode can be different due to different decorative panels and can also be different due to different specific positions (such as wall surfaces, ground surfaces or top surfaces) of the keels.

If the keel and the thermal insulation material are spliced and lengthened, or a joint is generated when the peripheral keel and the middle keel are jointed, the keel main material 1 and the thin plate 2 are required to be sealed at the gap (sealed by an adhesive or pasted with a special adhesive tape at the joint) so as to ensure that air convection cannot be generated at two sides of the thermal insulation material.

The gap between the perimeter runners and the side structural substrate 9 must also be sealed with adhesive to reduce air convection across the gap.

Because the whole keel device is connected with the structural base layer 9 only through the rubber gasket 3, the heat conduction function of the whole decorative layer (comprising the decorative panel, the keel and the heat-insulating material) is greatly reduced.

Because the double-sided heat-reflecting heat-insulating material layer 8 forms good sealing with the thin plate 2 through the adhesive 11, gaps between the peripheral keels and the structural base layer 9 and gaps generated when the keels and the heat-insulating materials are lengthened or spliced are well sealed, and therefore, the convection heat transfer of air is also blocked.

And because the upper surface and the lower surface of the double-sided heat-reflecting heat-insulating material layer 8 are made of high-heat-reflectivity materials, when heat is required to be insulated indoors, most of heat obtained from indoors can be reflected to the decoration panel by the upper surface, and when heat is required to be insulated indoors, most of heat obtained from one side of the structural base layer can be reflected back to the structural base layer by the lower surface, so that the radiation heat transfer is reduced to a lower level.

In conclusion, in the keel device internally embedded with the double-sided heat-reflecting heat-insulating material, under the condition of small thickness, the heat transfer can be reduced to a lower level in the three aspects of conduction, convection and radiation.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (10)

1. The utility model provides an embedded two-sided heat reflection heat preservation thermal insulation material fossil fragments device which characterized in that: the decoration panel comprises a plurality of middle keels and peripheral keels which are respectively connected with the structure base layer and the decoration panel, a double-faced heat-reflection heat-insulation material layer is embedded between the middle keels and the peripheral keels and between the middle keels and the middle keels, and gaps are respectively reserved between the double-faced heat-reflection heat-insulation material layer and the structure base layer and between the double-faced heat-reflection heat-insulation material layer and the decoration panel.

2. The embedded double-sided heat-reflecting thermal insulation material keel device according to claim 1, wherein: middle fossil fragments and peripheral fossil fragments all include fossil fragments main material, sheet metal and a plurality of rubber pad, the lower extreme at fossil fragments main material is fixed to the sheet metal, a plurality of rubber pad intervals set up the lower extreme at the sheet metal, the rubber pad cooperates with the contact of structure basic unit.

3. The embedded double-sided heat-reflecting heat-insulating material keel device according to claim 2, wherein: the keel main material is stretched out to the both sides of the sheet metal of middle fossil fragments, the keel main material is stretched out to one side of the sheet metal of peripheral fossil fragments.

4. The embedded double-sided heat-reflecting thermal insulation material keel device according to claim 3, wherein: the double-sided heat-reflection heat-insulation material layer is fixed on the thin plate of the middle keel or the thin plate of the peripheral keel through an adhesive respectively, and the thickness of the double-sided heat-reflection heat-insulation material layer is smaller than that of the main keel material.

5. The embedded double-sided heat-reflecting heat-insulating material keel device according to claim 2, wherein: the keel main material, the thin plate, the rubber pad and the structural base layer are fixedly connected through a plurality of expansion screws, and pre-drilled round holes for drilling are formed in the upper end of the keel main material at intervals.

6. The embedded double-sided heat-reflecting thermal insulation material keel device according to claim 1, wherein: the upper outer surface and the lower outer surface of the double-sided heat-reflecting heat-insulating material layer are both made of materials with higher heat reflectivity.

7. The embedded double-sided heat-reflecting heat-insulating material keel device according to claim 2, wherein: the keel main material is made of a solid wood plate or an artificial plate, the width of the keel main material is 30-50 mm, and the thickness of the keel main material is 8-20 mm; the thickness of the thin plate is 1mm, the length of the two sides of the thin plate of the middle keel extending out of the keel main material is 10mm-20mm, and the length of the one side of the thin plate of the peripheral keel extending out of the keel main material is 10mm-20 mm; the thickness of the rubber pad is 5mm-10 mm.

8. The embedded double-sided heat-reflecting thermal insulation material keel device according to claim 5, wherein: the rubber pad corresponds to the position of the pre-drilled round hole, and the expansion screw penetrates through the rubber pad when the keel main material is fixed with the structural base layer; the expansion screw includes an expansion tube and a screw.

9. The embedded double-sided heat-reflecting thermal insulation material keel device according to claim 1, wherein: the peripheral keel main material and the structural base layer on the side face are sealed through an adhesive.

10. The embedded double-sided heat-reflecting heat-insulating material keel device according to claim 2, wherein: the keel main material is fixedly connected with the thin plate through screws or adhesives.

Images