CN106195530B - A kind of M type method for packing of vacuum heat-insulating plate - Google Patents

Abstract

The invention discloses a kind of M type method for packing of vacuum heat-insulating plate, it is related to vacuum heat-insulating plate field, and its method for packing comprises the following steps：Vacuum heat-insulating plate is first placed on to the medium position of barrier film, two sides of the both sides of barrier film along vacuum heat-insulating plate fold to the upper surface centre position of vacuum heat-insulating plate simultaneously, form a rectangular configuration a,；B, and then will to infolding be simultaneously Triangle ID structure at the both ends open of rectangular configuration, and by the progress adhesion of adjacent two side of Triangle ID structure；C, the rectangular configuration both ends after adhesion carry out folding parcel in the middle part of rectangular configuration simultaneously, complete.It is reasonable in design, makes simply, easy to use, vacuum heat-insulating plate surrounding can be not only present to stitch removal between splicing, and when in use, can be in close contact each vacuum heat-insulating plate, in the absence of space, seamless assembled is realized, so as to play best heat insulation effect.

Description

A kind of M type method for packing of vacuum heat-insulating plate

Technical field：

The present invention relates to a kind of M type method for packing of vacuum heat-insulating plate, belong to vacuum heat-insulating plate technical field.

Background technology：

Vacuum heat-insulating plate is one kind in vacuum thermal insulating material, is combined by filling core and vacuum protection top layer, It is effectively prevented from heat transfer caused by cross-ventilation, therefore thermal conductivity factor can be greatly lowered, less than 0.003w/m.k, and Any ODS materials are not contained, there is environmentally friendly and energy-efficient characteristic, are current thermal insulation materials state-of-the-art in the world, It is widely used in building field, is fixed on by way of stickup on wall, good heat insulation effect can be reached.

But because vacuum heat-insulating plate is to be pasted by two layers of barrier film compacting parcel, then by splicing on wall , because the vacuum heat-insulating plate surrounding after this parcel can have edge sealing, so the surrounding of each sheet material can have splicing Between stitch, when deployed, stitch overlapping between each vacuum heat-insulating plate, each vacuum heat-insulating plate surrounding will be caused gap to be present, can not Vacuum heat-insulating plate is installed, it is impossible to reach best heat insulation effect.

The content of the invention：

In view of the above-mentioned problems, the technical problem to be solved in the present invention is to provide a kind of M type method for packing of vacuum heat-insulating plate.

A kind of M type method for packing of vacuum heat-insulating plate of the present invention, its method for packing comprise the following steps：A, first will be true Empty heat-insulating shield is placed on the medium position of barrier film, and two sides of the both sides of barrier film along vacuum heat-insulating plate are simultaneously to true The upper surface centre position of empty heat-insulating shield folds, and forms a rectangular configuration；B, and then will be same at the both ends open of rectangular configuration When to infolding be Triangle ID structure, and adjacent two side of Triangle ID structure is subjected to adhesion；C, the rectangular configuration two after adhesion End carries out folding parcel in the middle part of rectangular configuration simultaneously, completes.

Preferably, described barrier film is made up of top layer, gas barrier layer and hot sealing layer, gas barrier layer is located at top layer and heat Between sealing, wherein top layer is PET film layer, and hot sealing layer is PE film layers, and gas barrier layer is made up of at least one layer of aluminum plated PET film layer.

Preferably, the preparation technology of described aluminum plated PET film layer：PET base film is placed on to indoor progress of aluminizing A, It is vacuum aluminum-coated, form aluminium coated on the surface of PET base film；B, aluminize after end, pour nitrogen to interior of aluminizing stage by stage, it is first Secondary nitrogen to the nitrogen pressure that is filled with is 800-1200pa, and after maintaining 8-12 hours, it is 1300- to be filled with nitrogen to nitrogen pressure again 1500pa, and maintain at least 12 hours, that is, obtain aluminum plated PET film, aluminium coated and aluminum plated PET film in every layer of aluminum plated PET film layer The ratio between thickness of layer is 1：350-1：450.

Preferably, described gas barrier layer is to be bonded to form by multilayer aluminum plated PET film layer.

Preferably, the thickness of described barrier film is 100-120 μm.

Beneficial effects of the present invention：It is reasonable in design, makes simply, easy to use, not only can be by vacuum insulation Plate surrounding there is a situation where to stitch removal between splicing, and when in use, can be in close contact each vacuum heat-insulating plate, in the absence of sky Gap, seamless assembled is realized, so as to play best heat insulation effect.

Brief description of the drawings：

For ease of explanation, the present invention is described in detail by following specific implementations and accompanying drawing.

Fig. 1 is that vacuum heat-insulating plate is placed on the structural representation in the middle part of barrier film in the present invention；

Fig. 2 is the structural representation that vacuum heat-insulating plate wraps up after barrier film in the present invention；

Fig. 3 is the side view that vacuum heat-insulating plate wraps up after barrier film in the present invention；

Fig. 4 is the side adhesion figure that vacuum heat-insulating plate wraps up after barrier film in the present invention；

Fig. 5 is that vacuum heat-insulating plate wraps up the structural representation folded after barrier film trailing flank adhesion to middle part in the present invention Figure；

Fig. 6 is that vacuum heat-insulating plate of the present invention wraps up the structural representation after the adhesion of barrier film trailing flank folds.

1- vacuum heat-insulating plates；2- barrier films.

Embodiment：

As shown in figs 1 to 6, present embodiment uses following technical scheme：Its method for packing includes following step Suddenly：Vacuum heat-insulating plate 1 is first placed on to the medium position of barrier film 2, the both sides of barrier film 2 are along vacuum heat-insulating plate 1 a, Two sides simultaneously to vacuum heat-insulating plate 1 upper surface centre position fold, formed a rectangular configuration (such as Fig. 1 and Fig. 2 institutes Show)；B, and then will to infolding be simultaneously Triangle ID structure at the both ends open of rectangular configuration, and by adjacent the two of Triangle ID structure Side carries out adhesion (as shown in Figure 3 and Figure 4)；C, the rectangular configuration both ends after adhesion are folded in the middle part of rectangular configuration simultaneously Parcel, completes (as shown in Figure 5 and Figure 6).

Wherein, described barrier film 2 is made up of top layer, gas barrier layer and hot sealing layer, and gas barrier layer is located at top layer and heat-sealing Between layer, wherein top layer is PET film layer, and hot sealing layer is PE film layers, and PE film layers are low density PE film layer, and the thickness of PE film layers is 40-100 μm, gas barrier layer is made up of at least one layer of aluminum plated PET film layer；The preparation technology of described aluminum plated PET film layer：A, will PET base film is placed on that indoor carry out of aluminizing is vacuum aluminum-coated, and aluminium coated is formed on the surface of PET base film；B, aluminize after end, Nitrogen is poured to interior of aluminizing stage by stage, it is 800-1200pa to be filled with nitrogen to nitrogen pressure first, after maintaining 8-12 hours, then Secondary nitrogen to the nitrogen pressure that is filled with is 1300-1500pa, and is maintained at least 12 hours, that is, obtains aluminum plated PET film, every layer is aluminized The ratio between thickness of aluminium coated and aluminum plated PET film layer in PET film layer is 1：350-1：450；Described gas barrier layer is plated by multilayer Aluminium PET film layer is bonded and formed；The thickness of described barrier film 2 is 100-120 μm.

Present embodiment is reasonable in design, makes simply, easy to use, not only can be by vacuum heat-insulating plate surrounding There is a situation where to stitch removal between splicing, and when in use, can be in close contact each vacuum heat-insulating plate, it is real in the absence of space Existing seamless assembled, so as to play best heat insulation effect.

The general principle and principal character and advantages of the present invention of the present invention has been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the simply explanation described in above-described embodiment and specification is originally The principle of invention, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (5)

1. A kind of 1. M type method for packing of vacuum heat-insulating plate, it is characterised in that：Its method for packing comprises the following steps：(a), first Vacuum heat-insulating plate (1) is placed on to the medium position of barrier film (2), the both sides of barrier film (2) are along vacuum heat-insulating plate (1) Two sides simultaneously to vacuum heat-insulating plate (1) upper surface centre position fold, formed a rectangular configuration；(b) and then by square To infolding be simultaneously Triangle ID structure at the both ends open of shape structure, and by the progress adhesion of adjacent two side of Triangle ID structure； (c), the rectangular configuration both ends after adhesion carry out folding parcel in the middle part of rectangular configuration simultaneously, complete.
2. A kind of 2. M type method for packing of vacuum heat-insulating plate according to claim 1, it is characterised in that：Described barrier is thin Film (2) is made up of top layer, gas barrier layer and hot sealing layer, and gas barrier layer is between top layer and hot sealing layer, and wherein top layer is PET film Layer, hot sealing layer is PE film layers, and gas barrier layer is made up of at least one layer of aluminum plated PET film layer.
3. A kind of 3. M type method for packing of vacuum heat-insulating plate according to claim 2, it is characterised in that：Described aluminum plated PET The preparation technology of film layer：(A), PET base film is placed on to indoor carry out of aluminizing vacuum aluminum-coated, in the surface shape of PET base film Into aluminium coated；(B), aluminize after end, pour nitrogen to interior of aluminizing stage by stage, it is 800- to be filled with nitrogen to nitrogen pressure first 1200pa, maintain 8-12 hours after, it be 1300-1500pa to be filled with nitrogen to nitrogen pressure again, and maintenance at least 12 hours, i.e., Obtain aluminum plated PET film, the ratio between the aluminium coated in every layer of aluminum plated PET film layer and thickness of aluminum plated PET film layer are 1: 350-1: 450.
4. A kind of 4. M type method for packing of vacuum heat-insulating plate according to claim 2, it is characterised in that：Described gas barrier layer It is to be bonded to form by multilayer aluminum plated PET film layer.
5. A kind of 5. M type method for packing of vacuum heat-insulating plate according to claim 1, it is characterised in that：Described barrier is thin The thickness of film (2) is 100-120 μm.