CN203628152U

CN203628152U - Sideless vacuum insultation board

Info

Publication number: CN203628152U
Application number: CN201320799309.2U
Authority: CN
Inventors: 陈明秦; 陈孝行; 罗宗炜; 高绍军
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-12-06
Filing date: 2013-12-06
Publication date: 2014-06-04
Anticipated expiration: 2023-12-06

Abstract

The utility model relates to a sideless vacuum insultation board including a cuboid heat insulation core plate and a separating layer tightly coating on the outer surface of the heat insulation core plate, the separating layer is formed by an integral high-performance barrier film, a pair of side edges of the separating layer are folded and pasted beside a position at the surface of one of the side plates of the heat insulation core plate after being buckled, sealed and bonded at the position, and the other two side surfaces of the separating layer are folded and pasted outside the position of the corresponding side of the heat insulation core plate after respective sealing and bonding. The sideless vacuum insultation board has no obvious heat-sealing hemlines, and is convenient and tight in plate splicing and installation, thereby improving the integral heat insulation effect during large-area engineering application.

Description

Boundless vacuum heat-insulating plate

Technical field

The utility model relates to a kind of boundless vacuum heat-insulating plate.

Background technique

Existing vacuum heat-insulating plate is all made up of the separation layer that is rectangular-shaped heat-insulation core plate and is closely wrapped in heat-insulation core plate outer surface, separation layer pastes respectively at the high-performance obstructing film heat sealing of the upper and lower plates face of heat-insulation core plate and forms by two, the heat sealing connection side of upper and lower two-layer high-performance obstructing film is placed on four sidepieces of heat-insulation core plate, in the time that practical application is combined into large plate, no matter be to take overlap joint or docking mode, its installation, splicing is comparatively inconvenience all, four heat sealings connection lateral location very easily form cold-heat bridge simultaneously, greatly weaken the insulation effect of thermal shield integral slab face.

Model utility content

In order to solve the existing the problems referred to above of prior art, the utility model provides a kind of boundless vacuum heat-insulating plate, described boundless vacuum heat-insulating plate does not significantly seal shirt rim, splicing, easier for installation, tight between the plate of thermal shield, the overall insulation effect while having promoted the application of large size engineering.

Technical solutions of the utility model are such formations, a kind of boundless vacuum heat-insulating plate, it comprises the separation layer that is rectangular-shaped heat-insulation core plate and is closely wrapped in heat-insulation core plate outer surface, described heat-insulation core plate is provided with six plate faces, wherein the first plate face and the second plate face are symmetrical and the maximum positive plate face of area, the 3rd plate face and the 4th plate face are a pair of symmetrical lateral plates being arranged between two positive plate faces, and the 5th plate face and the 6th plate face are to be arranged at another between two positive plate faces to symmetrical lateral plates, it is characterized in that: separation layer is made up of a complete high-performance obstructing film, an opposite side of separation layer is in the first plate face or the bonding rear folding plate face position that is pasted on side of the second plate face position make-up sealing of heat-insulation core plate, another two sides of separation layer first distinguish the 3rd plate face of each comfortable heat-insulation core plate and the sealing of the centering of the 4th plate face position place is bonding, then seal bonding another two sides and fold and be pasted on this plate face position to the first plate face or the second plate face position of heat-insulation core plate, be placed on afterwards corner portion folding the 5th plate face of heat-insulation core plate and the relevant position of the 6th plate face of being pasted on respectively outside two adjacent side plates face intersections of heat-insulation core plate, finally be placed on folding the 5th plate face of heat-insulation core plate and the relevant position of the 6th plate face of being pasted on respectively, remaining sides bight outside positive plate face and the lateral plates intersection of heat-insulation core plate.

Further optimized project is: the plate face position of the bonding rear folding stickup of a pair of side seals of described separation layer and the plate face position of another two bonding rear folding stickups of side seals of separation layer are same positive plate face.

Further optimized project is: the middle part of described heat-insulation core plate is provided with the hot melt fixed block arranging perpendicular to plate face position, the upper and lower end face of described hot melt fixed block and separation layer welding or be bonded as one.

Further optimized project is: the middle part, upper and lower end face of described hot melt fixed block is provided with the positioning groove of being convenient to punching location.

Further optimized project is: between described heat-insulation core plate and hot melt fixed block, go back fixed cover and be equipped with dust separator.

A kind of preparation method of boundless vacuum heat-insulating plate, wherein boundless vacuum heat-insulating plate comprises the separation layer that is rectangular-shaped heat-insulation core plate and is closely wrapped in heat-insulation core plate outer surface, described heat-insulation core plate is provided with six plate faces, wherein the first plate face and the second plate face are symmetrical and the maximum positive plate face of area, the 3rd plate face and the 4th plate face are a pair of symmetrical lateral plates being arranged between two positive plate faces, and the 5th plate face and the 6th plate face are to be arranged at another between two positive plate faces to symmetrical lateral plates; Comprise following step:

(1), the separation layer being made up of a complete high-performance obstructing film is closely wrapped in to heat-insulation core plate outer surface, an opposite side of separation layer is in the first plate face or the bonding rear folding plate face position that is pasted on side of the second plate face position make-up sealing of heat-insulation core plate;

(2), that another two sides of separation layer are first distinguished to the sealing of the 3rd plate face of each comfortable heat-insulation core plate and the centering of the 4th plate face position place is bonding, then seal bonding another two sides and fold and be pasted on this plate face position to the first plate face or the second plate face position of heat-insulation core plate;

(3), by corner portion folding the 5th plate face of heat-insulation core plate and the relevant position of the 6th plate face of being pasted on being respectively placed on outside two adjacent side plates face intersections of heat-insulation core plate;

(4), finally by folding the 5th plate face of heat-insulation core plate and the relevant position of the 6th plate face of being pasted on respectively, remaining sides bight being placed on outside positive plate face and the lateral plates intersection of heat-insulation core plate.

The plate face position of the bonding rear folding stickup of a pair of side seals of the separation layer described in above-mentioned steps (1) and step (2) and the plate face position of another two bonding rear folding stickups of side seals of separation layer are same positive plate face.

The utility model technique scheme has also been done following improvement:

For the ease of boundless vacuum heat-insulating plate described in the utility model is fixed in external buildings, the middle part of heat-insulation core plate is provided with the hot melt fixed block arranging perpendicular to plate face position, the upper and lower end face of described hot melt fixed block and separation layer welding or be bonded as one.When construction, in the punching of hot melt fixed block middle part, can boundless vacuum heat-insulating plate described in the utility model be fixed in external buildings by connection parts such as bolts.

For the ease of determining quickly and easily punch position, the middle part, upper and lower end face of described hot melt fixed block is provided with the positioning groove of being convenient to punching location.

In order to prevent that the powder particle of heat-insulation core plate is attached on the upper and lower end face of hot melt fixed block, thereby affect the sealing bonding reliability between hot melt fixed block and separation layer, between heat-insulation core plate and hot melt fixed block, go back fixed cover and be equipped with dust separator.

Compared to prior art, the utlity model has following advantage: boundless vacuum heat-insulating plate prepared by the utility model does not significantly seal shirt rim, splicing, easier for installation, tight between the plate of thermal shield, the overall insulation effect while having promoted the application of large size engineering.

Accompanying drawing explanation

Fig. 1 is embodiment's 1 structural representation of a kind of boundless vacuum heat-insulating plate of providing of the utility model.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the plan view of Fig. 2.

Fig. 4 is the first step folded state schematic diagram of another two sides of separation layer in embodiment 1.

Fig. 5 is the left view of Fig. 4.

Fig. 6 is the plan view of Fig. 5.

Fig. 7 is the second step folded state schematic diagram of another two sides of separation layer in embodiment 1.

Fig. 8 is the left view of Fig. 7.

Fig. 9 is the plan view of Fig. 8.

Figure 10 is the 3rd step folded state schematic diagram of another two sides of separation layer in embodiment 1.

Figure 11 is the left view of Figure 10.

Figure 12 is the plan view of Figure 11.

Figure 13 is embodiment's 2 structural representations of a kind of boundless vacuum heat-insulating plate of providing of the utility model.

Figure 14 is embodiment's 3 structural representations of a kind of boundless vacuum heat-insulating plate of providing of the utility model.

The A-A sectional view of Figure 15 Figure 14.

Number in the figure explanation: 1, heat-insulation core plate, 2, separation layer, 21, side, 211, corner portion, 22, side, 221, corner portion, 3, hot melt fixed block, 31, positioning groove, 4, dust separator.

Embodiment

Below in conjunction with Figure of description and embodiment, the utility model content is elaborated:

Be illustrated in figure 1 embodiment's 1 structural representation of a kind of boundless vacuum heat-insulating plate that the utility model provides, boundless vacuum heat-insulating plate shown in figure comprises in the heat-insulation core plate 1(figure that is rectangular-shaped shown in dotted line) and be closely wrapped in the separation layer 2 of heat-insulation core plate 1 outer surface, described heat-insulation core plate 1 is provided with six plate faces, wherein the first plate face and the second plate face are symmetrical and the maximum positive plate face of area, the 3rd plate face and the 4th plate face are a pair of symmetrical lateral plates being arranged between two positive plate faces, the 5th plate face and the 6th plate face are to be arranged at another between two positive plate faces to symmetrical lateral plates, separation layer 2 is made up of a complete high-performance obstructing film, and an opposite side 21 of separation layer 2 is in the first bonding rear folding plate face position that is pasted on side of plate face position make-up sealing of heat-insulation core plate 1.

Another two sides 22 of separation layer preferably fold stickup by following mode of structure: another two sides 22 of separation layer 2 are first distinguished the 3rd plate face of each comfortable heat-insulation core plate 1 and the centering of the 4th plate face position place's sealing bonding (shown in Fig. 4-Fig. 6), then seal bonding another two sides 22 and fold and be pasted on this plate face position (shown in Fig. 7-Fig. 9) to the first plate face position of heat-insulation core plate 1, be placed on afterwards corner portion 221 relevant position (shown in Figure 10-Figure 12) of folding the 5th plate face and the 6th plate face that are pasted on heat-insulation core plate 1 respectively outside two adjacent side plates face intersections of heat-insulation core plate 1, finally be placed on the relevant position (shown in Fig. 1-Fig. 3) of folding the 5th plate face and the 6th plate face that are pasted on heat-insulation core plate 1 respectively, remaining sides bight 211 outside positive plate face and the lateral plates intersection of heat-insulation core plate 1.

A kind of preparation method of boundless vacuum heat-insulating plate, wherein boundless vacuum heat-insulating plate comprises the heat-insulation core plate 1 that is rectangular-shaped and is closely wrapped in the separation layer 2 of heat-insulation core plate 1 outer surface, described heat-insulation core plate 1 is provided with six plate faces, wherein the first plate face and the second plate face are symmetrical and the maximum positive plate face of area, the 3rd plate face and the 4th plate face are a pair of symmetrical lateral plates being arranged between two positive plate faces, and the 5th plate face and the 6th plate face are to be arranged at another between two positive plate faces to symmetrical lateral plates; Comprise following step:

(1), the separation layer 2 being made up of a complete high-performance obstructing film is closely wrapped in to heat-insulation core plate 1 outer surface, an opposite side 21 of separation layer 2 is in the first bonding rear folding plate face position that is pasted on side of plate face position make-up sealing of heat-insulation core plate 1;

(2), another two sides 22 of separation layer 2 first respectively to the 3rd plate face of each comfortable heat-insulation core plate 1 and the centering of the 4th plate face position place's sealing bonding (shown in Fig. 4-Fig. 6), then seal bonding another two sides 22 and fold and be pasted on this plate face position (shown in Fig. 7-Fig. 9) to the first plate face position of heat-insulation core plate 1;

(3), by corner portion 221 relevant position (shown in Figure 10-Figure 12) of folding the 5th plate face and the 6th plate face that are pasted on heat-insulation core plate 1 being respectively placed on outside two adjacent side plates face intersections of heat-insulation core plate 1;

(4), finally by the relevant position (shown in Fig. 1-Fig. 3) of folding the 5th plate face and the 6th plate face that are pasted on heat-insulation core plate 1 respectively, remaining sides bight 211 being placed on outside positive plate face and the lateral plates intersection of heat-insulation core plate 1.

Embodiment's 2 structural representations of a kind of boundless vacuum heat-insulating plate providing for the utility model as shown in figure 13, boundless vacuum heat-insulating plate shown in figure is compared with embodiment 1, do following improvement: the middle part of heat-insulation core plate 1 is provided with the hot melt fixed block 3 arranging perpendicular to plate face position, the upper and lower end face of described hot melt fixed block 3 and separation layer 2 weldings or be bonded as one.Described hot melt fixed block 3 can entirety be made up of heat-fusible materials, also can only be coated with heat-fusible materials in upper and lower end face.In the time that blanching is carried out in the outside relevant position of separation layer, can make upper and lower end face and separation layer 2 weldings of hot melt fixed block 3 or be bonded as one.

The middle part, upper and lower end face of described hot melt fixed block 3 is provided with the positioning groove 31 of being convenient to punching location.

Embodiment's 3 structural representations of a kind of boundless vacuum heat-insulating plate providing for the utility model as shown in Figure 14 and Figure 15, boundless vacuum heat-insulating plate shown in figure, compared with embodiment 2, has done following improvement: between heat-insulation core plate 1 and hot melt fixed block 3, go back fixed cover and be equipped with dust separator 4.

Above-mentioned embodiment is just explained in detail the technical solution of the utility model; the utility model has more than and is only confined to above-described embodiment; every any improvement or replacement according to the utility model principle, all should be within protection domain of the present utility model.

Claims

1. a boundless vacuum heat-insulating plate, it comprises the heat-insulation core plate (1) that is rectangular-shaped and is closely wrapped in the separation layer (2) of heat-insulation core plate (1) outer surface, described heat-insulation core plate (1) is provided with six plate faces, wherein the first plate face and the second plate face are symmetrical and the maximum positive plate face of area, the 3rd plate face and the 4th plate face are a pair of symmetrical lateral plates being arranged between two positive plate faces, and the 5th plate face and the 6th plate face are to be arranged at another between two positive plate faces to symmetrical lateral plates, it is characterized in that: separation layer (2) is made up of a complete high-performance obstructing film, an opposite side (21) of separation layer (2) is in the first plate face or the bonding rear folding plate face position that is pasted on side of the second plate face position make-up sealing of heat-insulation core plate (1), another two sides (22) of separation layer (2) first distinguish the 3rd plate face of each comfortable heat-insulation core plate (1) and the sealing of the centering of the 4th plate face position place is bonding, then seal bonding another two sides (22) and fold and be pasted on this plate face position to the first plate face or the second plate face position of heat-insulation core plate (1), be placed on afterwards corner portion (221) folding the 5th plate face of heat-insulation core plate (1) and the relevant position of the 6th plate face of being pasted on respectively outside two adjacent side plates face intersections of heat-insulation core plate (1), finally be placed on folding the 5th plate face of heat-insulation core plate (1) and the relevant position of the 6th plate face of being pasted on respectively, remaining sides bight (211) outside positive plate face and the lateral plates intersection of heat-insulation core plate (1).

2. boundless vacuum heat-insulating plate according to claim 1, is characterized in that: it is same positive plate face that an opposite side (21) of described separation layer (2) seals the plate face position that the plate face position of bonding rear folding stickup and another two sides (22) of separation layer (2) seal bonding rear folding stickup.

3. boundless vacuum heat-insulating plate according to claim 1 and 2, it is characterized in that: the middle part of described heat-insulation core plate (1) is provided with the hot melt fixed block (3) arranging perpendicular to plate face position, the upper and lower end face of described hot melt fixed block (3) and separation layer (2) welding or be bonded as one.

4. boundless vacuum heat-insulating plate according to claim 3, is characterized in that: the middle part, upper and lower end face of described hot melt fixed block (3) is provided with the positioning groove (31) of being convenient to punching location.

5. according to the boundless vacuum heat-insulating plate described in claim 3 or 4, it is characterized in that: between described heat-insulation core plate (1) and hot melt fixed block (3), go back fixed cover and be equipped with dust separator (4).