CN1805843A - Composite biasable reflective sheet and sleeve - Google Patents

Abstract

A composite sheet biasable into a tubular shape to form a sleeve for isolating or protecting elongated items is disclosed. The sheet has a reflective surface formed by a metal foil layer overlying a flexible polymer layer having a metalized surface. A biasable polymer netting layer is positioned overlying the flexible layer opposite the metalized surface. The netting layer is formed of elongated members that define interstices. A damping layer of non-woven material is positioned adjacent to the netting layer. An adhesive layer is positioned between the flexible layer and the netting layer to bond the netting layer and the damping layer to the flexible layer. Biasing is effected by the elongated members of the netting layer which are stiffer in the circumferential direction around the sleeve to provide radial stiffness.

Description

Composite biasable reflective sheet and sleeve

Technical field

The present invention relates to a kind of sheet material and sleeve pipe, be used for wrapping up and protecting or isolate the elongate articles as wire harness, fuel channel, brake pipe, optical fiber and analog of the physical environment that places harshness.

Background technology

Elongated article, as the fluid line and the fibre bundle of wire harness, similar brake line and burning line etc., often be used to automobile making, Aero-Space, marine ship and communications applications etc. subject to extremely hot, rock, in the adverse circumstances of physical shock, vibrations, wearing and tearing and so on infringement.

Pass wire harness and fuel channel, bearing long-term and strong vibration, bearing radiant heat and advection heat, especially exhaust header simultaneously from engine as automobile, steamer or aircraft sealing enging cabin.Similarly, near the rocket motor injector or the fuel channel on the orbiter and wire harness when emission, be exposed in the vibrations acoustic environment of a harshness, bear the harsh like this thermal environment of direct irradiation of sunlight in the vacuum simultaneously.

Even only under the condition that physics uses, exquisite relatively being used for is provided, and elongate articles---the outer sleeve as optical fiber is good, supports and protect them to avoid physical damage and other is as overbending, extruding and distortion with this.Because the physical hazard as bump, vibrations, wearing and tearing, bending and distortion etc. that causes because of coarse operation or conditions of service when this fiber mainly is subjected to installing is necessary so take safeguard measure.This environment can have the transmission to optical signal the stress field of adverse effect to be added among the fiber.The support of fiber or safeguard measure can prevent or alleviate excessive, the destructive weight that is applied to it in the radius of curvature of fiber by restriction; A fender that prevents the fiber extruding, stops vibrations or vibratility to be disturbed is set between sharp keen edge; The load paths of a stretching preferable, that can alleviate optical fiber or compression burden is provided; And prevent wearing and tearing when contacting with fibre bundle.

For elongate articles provide the sheet material of protection and layout that sleeve should be produced economy, is easy to and existed or design in conjunction with, can to can predict environmental hazard provide sufficient protection and pliable and tough flexibly; can be along the path of compound product; but only in softness, to prevent article overbending or distortion.Simultaneously, sleeve pipe should be sturdy and durable, can withstand long-term be exposed in the rugged environment and can obviously do not wear out.

Summary of the invention

The invention relates to a kind of compound, can reflected radiation can composite sheet.This composite sheet comprises a reflecting layer that reflecting surface and its back side are arranged.A lamina reticularis covers the back side in reflecting layer.This lamina reticularis comprises numerous first elongate articles of placing at interval each other and numerous and above-mentioned first elongate articles at an angle and second elongate articles of placing at interval each other, this first and second elongate articles defines numerous gaps in lamina reticularis, this lamina reticularis is partial curling at least in one direction, make composite sheet can be rolled into different shape, a shakeproof layer covers on the above-mentioned lamina reticularis.

Tack coat places between the opposite face and shakeproof layer in lamina reticularis and reflecting layer.Tack coat extends through the gap, and this opposite face in shakeproof layer and lamina reticularis and reflecting layer is glued together.

Preferably, the reflecting layer comprises a pliable and tough resilient ground floor, and this ground floor has the first surface and the second surface of positioned opposite.A metallic diaphragm covers the first surface of above-mentioned ground floor.A metal foil layer covers on the metallic diaphragm.Metal foil layer comprises that reflecting surface, second surface contain the back side in reflecting layer.

The present invention relates to a kind of combined sleeve that is used to put elongate articles simultaneously.This sleeve comprised one around and define the sidewall of the central space that is used to deposit elongate articles.This sidewall has a reflecting surface and the back side.Lamina reticularis covers the back side of sidewall.This lamina reticularis comprises numerous first elongate articles of placing at interval each other and numerous and above-mentioned first elongate articles at an angle and second elongate articles of placing at interval each other, and this first and second elongate articles defines numerous gaps in lamina reticularis.Above-mentioned lamina reticularis at least in one direction partial curling to keep sleeve in a tubular form.A shakeproof layer covers on the above-mentioned lamina reticularis.

Preferably, sidewall also comprises a pliable and tough resilient ground floor, and this ground floor has the first surface and the second surface of positioned opposite.A metallic diaphragm covers the first surface of ground floor, and a metal foil layer covers on the metallic diaphragm.Metal foil layer comprises reflecting surface, and second surface comprises the back side of sidewall.

This sleeve has comprised that also one is placed on opposite face of lamina reticularis, sidewall and the tack coat between the shakeproof layer.This tack coat extends through the gap, and this opposite face of shakeproof layer, lamina reticularis and sidewall is glued together.

Description of drawings

Fig. 1 is the perspective view of drawing according to a kind of tube-in-tube structure of the present invention;

Fig. 2 is the decomposition diagram of drawing according to the structure of a kind of composite sheet of the present invention;

Fig. 3 is along the sectional view of 3-3 among Fig. 1;

Fig. 4 is another embodiment of the compact structure according to the present invention and the decomposition diagram drawn;

Fig. 5 is the alternative of the tube-in-tube structure according to the present invention and the sectional view drawn;

Fig. 6 is another alternative of the compact structure according to the present invention and the decomposition diagram drawn;

Fig. 7 is another alternative of the tube-in-tube structure according to the present invention and the sectional view drawn;

Fig. 8 is an embodiment again of the compact structure according to the present invention and the decomposition diagram drawn;

Fig. 9 is an embodiment again of the tube-in-tube structure according to the present invention and the sectional view drawn.

The specific embodiment

But Figure 1 shows that according to compound partial curling reflective sleeve 10 of the present invention.Sleeve 10 has a sidewall 12 to be become tubulose by partial curling, and preferably cross section be a circle, and sidewall 12 has determined that a central space 14 is used for holding elongate articles 16.Sleeve 10 has a reflecting surface 18, preferably with it back to central space 14, shakeproof layer 20 has constituted the main internal layer adjacent with central space 14.When the outside, reflecting layer 18 can protect article 16 to make it to avoid the radiant heat of incident face to face.On the other hand, if sleeve 10 is made into the form of reflecting surface 18 towards inside, then this sleeve can be used for isolating article 16 from surrounding environment.Such structure is very useful, for example, if article 16 are thermals source, such as exhaust header, will be opened with other element separation.Shakeproof layer 20 is used for protecting article 16 to avoid shock energy, for example, and acoustic energy or structure borne noise.

Sidewall 12 has substantially along sleeve 12 axially extended first edge 22 and second edges 24, preferably along the whole length extension of sleeve.An opening 26 has been determined at edge 22 and 24, and this opening provides the inlet that enters central space 14.Opening 26 allows sleeve 10 to encase the out of reach article 16 in end, can make things convenient for described article connection or disjunction to form branch node or effectively to safeguard simultaneously.The partial curling of sidewall 12 makes one position 28 can cover on the edge 24 effective closure opening 26.This makes sleeve 10, and the oneself is closed completely, because sidewall has resilience, so when the external force that can separate edge 22 and 24, exposure central space 14 does not exist, just trend towards replying the profile of partial curling.Preferably, self-enclosed sleeve is not established the device that opening 26 is sealed in independent being used to, but such device still can be used for sleeve 10 so that extra safeguard protection to be provided.To illustrate the locking device with the form of adhesive tape 30, select reflective tape (reflective tape) for use in Fig. 1 and Fig. 3,22 locate along the edge as far as possible, and sidewall 10 bondings are got up with sealing opening 26.The first-selected adhesive tape 30 of locking device is very cheap because of this, and can not take up room very much or have influence on the elasticity of sleeve 10.Other locking device is also feasible certainly, for example hook and eye, button, slide fastener, suture etc.

Sleeve 10 can be made easily by complex reflex sheet 32, shown in the exploded view of Fig. 2.This sheet 32 has pliable and tough, a resilient layer 34, and a metal level 36 is arranged on the surface 38 of this layer.A metal foil layer 40 preferably covers on the metal level 36.Paper tinsel layer 40 comprises the reflecting surface 18 of sleeve 10.A lamina reticularis 42 is lain on the reverse side 44 of layer 34.The lamina reticularis that will elaborate together with other following each layers can partial curling and flexible, thereby makes this composite sheet can be rolled into the tubulose of showing as among Fig. 1 and Fig. 3.Shakeproof layer 20 is placed on the layer 42.Tack coat 46 preferably places between lamina reticularis 42 and the layer 34.Lamina reticularis 42 has big gap 48, makes tack coat to permeate along the gap of lamina reticularis, thereby simultaneously lamina reticularis 42, shakeproof layer 20 and layer 34 bonding is got up.Tack coat 46 also can be placed between shakeproof layer 20 and the lamina reticularis 42 (sees accompanying drawing 6).

Paper tinsel layer 40 preferably comprises metallic aluminium, and its thickness is between 0.0002 to 0.002 inch.Also can select for use other that reflexive metal is arranged, the gold of highly reflective energy is for example arranged, when gold is made into paper tinsel, higher ductility and reflecting properties be arranged.

Pliable and tough, resilient layer 34 preferably a kind of polymer, such as hard, resilient, can with metal level 36 secure bond PETG together.The thickness of layer 34 can be between 0.00025 inch to 0.0015 inch, and suggestion is at 0.0005 inch.Preferably comprise metallic aluminium attached to the metal level on the layer 34 36, form a metallic diaphragm by gas phase deposition technology or spraying technology, its thickness greatly about 10 dusts to 200 dusts.Paper tinsel layer 40 can get up with metal level 36 bondings.Under the situation of the paper tinsel layer cracking of the heat-reflecting surface that forms composite sheet 32 and sleeve 10, be good after metal level 36 is placed on paper tinsel layer 40.Because exist thermal cycle, vibration induced stress and other pressure sources that acts on the paper tinsel layer to cause metal fatigue, so the crack appears at the paper tinsel layer easily.Metal level 36 is placed on the back of paper tinsel layer, and the crack that produces in the paper tinsel layer will become and be not easy to see, the radiant energy of the Chu Xianing metal layer reflection that will be exposed to below the crack goes back once in a while.If there is no metal level, above-mentioned radiant energy will enter central space 14 and wherein article 16 will be had a negative impact.

Shakeproof layer 20 preferably uses nonwoven material, polyester felt for example, and its thickness is preferably between 0.03 to 0.1 inch.Non-woven material is desirable vibration-absorptive material because they can disperse vibration energy, but other material can be selected for use equally as elasticity viscose glue polymer.

As shown in Figure 2, lamina reticularis 42 is made up of first elongate articles 50 numerous, that equidistantly distribute each other.First elongate articles 50 and numerous second elongate articles 52 54 are connected in the crosspoint.Second elongate articles 52 is same to equidistantly distribute between mutually, and and 50 of first elongate articles at right angles.Although recommending first elongate articles 50 and second elongate articles 52 is to be an angle of 90 degrees mutually, yet other angle direction also can be selected for use, shown in accompanying drawing 4 and accompanying drawing 5.Although recommending the elongate articles in every group all is parallel between mutually, other distribution mode equally also can.For example, first elongate articles 50 can accompany angle each other, radially distributes along a common center, and elongate articles 52 can be around a rounded distribution in common center simultaneously.

Once more according to shown in Figure 2, one group of elongate articles preferably, for example first elongate articles 50 than the elongate articles of other groups just second elongate articles 52 stronger bending stiffness is arranged.Stronger rigidity can reach, and for example, bigger inertia area square is arranged or use harder material than second elongate articles by making first elongate articles.Thereby lamina reticularis can be regarded as by one group of first elongate articles 50 hard relatively, that equidistantly distribute each other and forms with the relative second not too hard elongate articles 52, and first elongate articles and second elongate articles have been determined gap 48 jointly.Hardness relation between such elongate articles makes lamina reticularis 42 can curl and keep the reliable elasticity of another direction simultaneously along a direction at least, as what elaborate below.

Lamina reticularis preferably is made up of the thermoplastic polymer such as polyester, polypropylene, polyethylene or nylon, and be one continuously the extrusion process that passes through in the net form.It is more favourable that lamina reticularis 42 is made into like this: axially or the direction of processing and manufacturing along direction, shown in the arrow 56 of accompanying drawing 2 perpendicular to harder elongate articles 50.The shape that such configuration makes lamina reticularis can be rolled into a kind of pipe easily in process forms sleeve 10, wherein harder elongate articles 50 extends along the circumference of sleeve, relatively not that very hard elongate articles 52 is then along the extending axially of sleeve, shown in accompanying drawing 1 and accompanying drawing 3.Thereby lamina reticularis 42 can be on perpendicular to the direction of harder elongate articles 50 partial curling.The partial curling direction of elongate articles 50 is decided to be circumference bending around sleeve 10, has increased the radial stiffiness of sleeve 10, protect it to make its unlikely fracture when applied load is arranged.Such arrangement also makes sleeve be easy to carry out self-isolation, and is flexible because of lamina reticularis 42, and the hardness that is mainly provided by elongate articles 50 arranged, and makes sleeve 10 be easy to reply the tubulose that elongate articles 50 is curled into.

Relative not too hard elongate articles 52 axially extending axially along sleeve.Because not too hard, they can make the major axis of sleeve along elongate articles 16 bendings.

Preferably a kind of acrylic pressure sensitive sticker of tack coat is because it can provide relatively stronger bonding and can not resemble that the hardness to sleeve 10 has a negative impact other adhesives.The thickness of tack coat can be between 0.0005 to 0.0035 inch, and most practical application can be chosen between 0.001 to 0.002 inch.Preferably only come simultaneously with lamina reticularis 42, shakeproof layer 20 and flexible layer 34 bondings with a tack coat.Be possible like this, because the part of tack coat 46 is along the infiltration of the gap of lamina reticularis and touch shakeproof layer 20.Although recommend only between lamina reticularis 42 and flexible layer 34, to place a tack coat 46, place a tack coat 60 again and between shakeproof layer 20 and lamina reticularis 42, also be fine, as accompanying drawing 6 and as shown in Figure 7 attached.Tack coat 60 can use separately or use in conjunction with tack coat 46.

Accompanying drawing 8 and accompanying drawing 9 illustrate according to the present invention the alternative embodiment that wherein metal level 36 has been formed the reflecting surface of composite sheet 62 and sleeve 64 simultaneously.In this scheme, paper tinsel layer 40 is placed on the surface 44 on metal level 36 opposites.This scheme is good in the low temperature example, and previously described scheme is more suitable for being used for hot environment.

But the reflection composite sheet of compound partial curling and sleeve provide general, a durable and economic product to be used for protecting or isolating the injury that elongated article are avoided rigorous environment, radiant heat and vibration among the present invention.

Claims (67)

1. One kind can reflected radiation can composite sheet, this composite sheet comprises:

   A reflecting layer, it has a reflecting surface and a back side;

   A lamina reticularis, cover the back side in above-mentioned reflecting layer, this lamina reticularis comprises at an angle and each other second elongate articles of placement at interval of a plurality of first elongate articles of placing at interval each other and a plurality of and above-mentioned first elongate articles, this first and second elongate articles has determined lamina reticularis that numerous gaps is arranged, and above-mentioned lamina reticularis is partial curling at least in one direction; And

   A shakeproof layer covers on the above-mentioned lamina reticularis.
2. 2. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described reflecting layer comprises:

   A pliable and tough resilient ground floor, it has first and second surfaces of relative configuration;

   A metallic diaphragm that covers on the above-mentioned ground floor first surface; And

   A metal foil layer that covers on the above-mentioned metallic diaphragm, this metal foil layer constitutes described reflecting surface, and above-mentioned second surface comprises the back side in reflecting layer.
3. 3. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that, this composite sheet has also comprised the tack coat that is placed between above-mentioned lamina reticularis and reflecting layer and the shakeproof layer, this tack coat is along the infiltration of above-mentioned gap, and the back side in shakeproof layer and lamina reticularis and reflecting layer is glued together.
4. 4. as claimed in claim 3 can reflected radiation can composite sheet, it is characterized in that tack coat wherein is between described lamina reticularis and reflecting layer.
5. 5. as claimed in claim 2 can reflected radiation can composite sheet, it is characterized in that described ground floor comprises a kind of polymer.
6. 6. as claimed in claim 2 can reflected radiation can composite sheet, it is characterized in that described ground floor is made up of PETG.
7. 7. as claimed in claim 2 can reflected radiation can composite sheet, it is characterized in that described metal foil layer comprises metallic aluminium.
8. 8. as claimed in claim 7 can reflected radiation can composite sheet, it is characterized in that the thickness of described metal foil layer is between 0.0003 to 0.002 inch.
9. 9. as claimed in claim 7 can reflected radiation can composite sheet, it is characterized in that described metallic diaphragm comprises metallic aluminium.
10. 10. as claimed in claim 9 can reflected radiation can composite sheet, it is characterized in that the thickness of described metallic diaphragm is greatly between 10 to 200 dusts.
11. 11. as claimed in claim 2 can reflected radiation can composite sheet, it is characterized in that described metal foil layer is glued on the metallic diaphragm.
12. 12. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described first and second elongate articles layout that meets at right angles mutually.
13. 13. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described first elongate articles has higher bending rigidity than second elongate articles.
14. 14. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described lamina reticularis is made up of thermoplastic polymer.
15. 15. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described lamina reticularis is made up of polypropylene.
16. 16. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described lamina reticularis is made up of select material from polyester, polypropylene, polyethylene and nylon.
17. 17. as claimed in claim 3 can reflected radiation can composite sheet, it is characterized in that described tack coat comprises a kind of pressure-sensitive adhesive.
18. 18. as claimed in claim 17 can reflected radiation can composite sheet, it is characterized in that the thickness of described tack coat is greatly between 0.0005 to 0.0035 inch.
19. 19. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described shakeproof layer comprises non-woven material.
20. 20. as claimed in claim 1 can reflected radiation can composite sheet, it is characterized in that described shakeproof layer comprises polyester felt.
21. 21. as claimed in claim 20 can reflected radiation can composite sheet, it is characterized in that the thickness of described polyester felt is greatly between 0.03 to 0.1.
22. 22. as claimed in claim 13 can reflected radiation can composite sheet, it is characterized in that described composite sheet is become resilient tubulose by partial curling, and determined a central space.
23. 23. as claimed in claim 22 can reflected radiation can composite sheet, it is characterized in that described reflecting surface comprises the surface towards the outside of described tube.
24. 24. as claimed in claim 22 can reflected radiation can composite sheet, it is characterized in that, described first elongate articles perpendicular to described tube axially.
25. 25. one can reflected radiation can composite sheet, this composite sheet comprises:

    A reflecting layer has a reflecting surface and a back side;

    A lamina reticularis, cover the back side in above-mentioned reflecting layer, this lamina reticularis comprise a plurality of mutually between spaced apart first elongate articles and a plurality of and described first elongate articles is angled, mutual between spaced apart second elongate articles, described first and second elongate articles has determined a plurality of gaps of lamina reticularis;

    A shakeproof layer covers on the above-mentioned lamina reticularis; And

    A tack coat is arranged between the reverse side and shakeproof layer in lamina reticularis and reflecting layer, and this tack coat permeates in the space, and the back side in shakeproof layer and lamina reticularis and reflecting layer is gluing.
26. 26., it is characterized in that described tack coat is arranged between the back side in lamina reticularis and reflecting layer as composite sheet as described in the claim 25.
27. 27. composite sheet as claimed in claim 25 is characterized in that, described reflecting layer comprises:

    A pliable and tough resilient ground floor, it has first and second surfaces of relative configuration;

    A metallic diaphragm that covers on the above-mentioned ground floor first surface; And

    A metal foil layer that covers on the above-mentioned metallic diaphragm, this metal foil layer constitutes described reflecting surface, and above-mentioned second surface comprises the back side in reflecting layer.
28. 28. composite sheet as claimed in claim 27 is characterized in that, described ground floor is made up of PETG.
29. 29. composite sheet as claimed in claim 27 is characterized in that, described metal foil layer comprises metallic aluminium.
30. 30. composite sheet as claimed in claim 29 is characterized in that, described metallic diaphragm comprises metallic aluminium.
31. 31. a combined sleeve that is used for ccontaining elongate articles, this sleeve comprises:

    A sidewall, around defining a central space of holding elongate articles, this sidewall has a reflecting surface and opposite face;

    A lamina reticularis that covers on the above-mentioned sidewall back side, this lamina reticularis comprises at an angle and each other second elongate articles of placement at interval of a plurality of first elongate articles of placing at interval each other and a plurality of and above-mentioned first elongate articles, this first and second elongate articles determined in the lamina reticularis a plurality of gaps, this lamina reticularis is at least along a direction bending;

    A shakeproof layer covers on the described lamina reticularis.
32. 32. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described sidewall comprises:

    A pliable and tough resilient ground floor, it has the first surface and the second surface of positioned opposite;

    A metallic diaphragm covers on the first surface of described ground floor; And

    A metal foil layer covers on the above-mentioned metallic diaphragm, and this metal foil layer comprises above-mentioned reflecting surface, and described second surface comprises the back side of sidewall.
33. 33. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31, it is characterized in that, it also comprises a tack coat between the lamina reticularis and the shakeproof layer sidewall back side, this tack coat is along the infiltration of above-mentioned gap, and the back side of described shakeproof layer and lamina reticularis and sidewall is glued together.
34. 34. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 33 is characterized in that described tack coat is between the back side of described lamina reticularis and sidewall.
35. 35. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described reflecting surface is outside central space faces.
36. 36. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described sidewall comprises the first and second axial arranged edges along described sleeve, the opening of central space has been determined to enter in this edge.
37. 37. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 36 is characterized in that described sidewall elasticity partial curling makes first edges cover on second edge.
38. 38. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 36 is characterized in that, it also comprises along at least one edge, is fixed on being used on the described sidewall to seal the device of opening.
39. 39. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 32 is characterized in that described ground floor is made up of polymer.
40. 40. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 32 is characterized in that described ground floor is made up of PETG.
41. 41. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 32 is characterized in that described metal foil layer comprises metallic aluminium.
42. 42. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 41 is characterized in that the thickness of described metal foil layer is greatly between 0.0003 to 0.002 inch.
43. 43. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 41 is characterized in that described metallic diaphragm comprises metallic aluminium.
44. 44. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 43 is characterized in that the thickness of described metallic diaphragm is greatly between 0.0005 to 0.001 inch.
45. 45. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that, at right angles arranges mutually between described first and second elongate articles.
46. 46. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described first elongate articles has bigger bending resistance stiffness than second elongate articles.
47. 47. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 46 is characterized in that, described first elongate articles is axially vertical mutually with described sleeve.
48. 48. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described lamina reticularis has comprised thermoplastic polymer.
49. 49. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 48 is characterized in that described lamina reticularis is made up of polypropylene.
50. 50. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that, described lamina reticularis by a kind of from polyester, polypropylene, polyethylene and nylon select material form.
51. 51. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 33 is characterized in that described tack coat comprises a kind of contact adhesive.
52. 52. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 51 is characterized in that the thickness of described tack coat is greatly between 0.0005 to 0.0035 inch.
53. 53. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described shakeproof layer has comprised non-woven material.
54. 54. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 31 is characterized in that described shakeproof layer comprises the polyester felt goods.
55. 55. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 53 is characterized in that, the thickness of described non-woven material layer greatly about 0.03 to O.1 between the inch.
56. 56. be used for the combined sleeve of ccontaining elongate articles, this sleeve comprises:

    A sidewall, it centers on and has defined a central space that is used for depositing elongate articles, and this sidewall has a reflecting surface and the back side;

    One and the juxtaposed lamina reticularis in the above-mentioned sidewall back side; This lamina reticularis comprises at an angle and each other second elongate articles of placement at interval of a plurality of first elongate articles of placing at interval each other and a plurality of and above-mentioned first elongate articles, and this first and second elongate articles defines numerous gaps in lamina reticularis;

    A shakeproof layer covers on the described lamina reticularis, and

    A tack coat is used for filling described gap and shakeproof layer and lamina reticularis and the above-mentioned sidewall back side is bondd.
57. 57. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 56 is characterized in that described tack coat is between the back side of described lamina reticularis and sidewall.
58. 58. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 56 is characterized in that described sidewall comprises:

    A pliable and tough resilient ground floor, it has the first surface and the second surface of positioned opposite;

    A metallic diaphragm covers on the first surface of described ground floor; And

    A metal foil layer covers on the above-mentioned metallic diaphragm, and this metal foil layer comprises above-mentioned reflecting surface, and described second surface comprises the back side of sidewall.
59. 59. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 58 is characterized in that described ground floor is made up of PETG.
60. 60. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 58 is characterized in that described metal foil layer comprises metallic aluminium.
61. 61. the combined sleeve that is used for ccontaining elongate articles as claimed in claim 60 is characterized in that described metallic diaphragm comprises metallic aluminium.
62. 62. one kind can reflected radiation can composite sheet, this composite sheet comprises:

    A pliable and tough resilient ground floor, it has the first surface and the second surface of positioned opposite;

    A metallic diaphragm covers on the first surface of above-mentioned ground floor;

    A metal foil layer covers on the above-mentioned metallic diaphragm; And

    A lamina reticularis, cover on the second surface of above-mentioned ground floor, this lamina reticularis comprises at an angle and each other second elongate articles of placement at interval of a plurality of first elongate articles of placing at interval each other and a plurality of and the above-mentioned first elongate articles product, this first and second elongate articles defines numerous gaps in lamina reticularis, above-mentioned lamina reticularis is partial curling at least in one direction.
63. 63. as claimed in claim 62 can reflected radiation can composite sheet, it is characterized in that it has also comprised a pliable and tough shakeproof layer, covers on the above-mentioned lamina reticularis.
64. 64. as claim 63 described can reflected radiation can composite sheet, it is characterized in that it has also comprised the tack coat between the second surface that is placed on lamina reticularis and described ground floor; This tack coat extends through above-mentioned gap, and the second surface of shakeproof layer, lamina reticularis and ground floor is bondd.
65. 65. one kind can reflected radiation can composite sheet, this composite sheet comprises:

    A pliable and tough resilient ground floor, it has first and second surfaces of positioned opposite;

    A metallic diaphragm covers the first surface of above-mentioned ground floor;

    A metal foil layer covers the second surface of above-mentioned ground floor; And

    A lamina reticularis, cover on the above-mentioned metal foil layer, this lamina reticularis comprises at an angle and each other second elongate articles of placement at interval of a plurality of first elongate articles of placing at interval each other and a plurality of and above-mentioned first elongate articles, this first and second elongate articles defines numerous gaps in lamina reticularis, above-mentioned lamina reticularis is partial curling at least in one direction.
66. 66. as claim 65 described can reflected radiation can composite sheet, it is characterized in that it has also comprised a shakeproof layer, covers on the described lamina reticularis.
67. 67. as claim 66 described can reflected radiation can composite sheet, it is characterized in that, it has comprised that also one is arranged in above-mentioned lamina reticularis and the tack coat between the metal foil layer, and this tack coat extends through described gap, and shakeproof layer, lamina reticularis and metal foil layer are bondd.

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