CN105600060B

CN105600060B - A kind of wear-resisting packing case of radiation proof uvioresistant and preparation method thereof

Info

Publication number: CN105600060B
Application number: CN201511025889.XA
Authority: CN
Inventors: 刘丽蓉
Original assignee: Dongguan City Guanxin Enterprise Management Consulting Co Ltd
Current assignee: Changshu Shuangle Color Printing Package Co.,Ltd.
Priority date: 2015-12-29
Filing date: 2015-12-29
Publication date: 2017-07-21
Anticipated expiration: 2035-12-29
Also published as: CN105600060A

Abstract

The invention discloses a kind of wear-resisting packing case of radiation proof uvioresistant and preparation method thereof, the packing case is main to be made up of plastic box with the stainless steel reinforcing plate for being arranged on plastic box bottom, and radiation protective layer, UV resistance layer and wearing layer are disposed with the tank surface.Compared with existing packing case, the present invention has anti-electromagnetic radiation, the function of antiultraviolet, and its ageing resistance is strong, intensity is high, service life length, suitable article of the packaging with particular/special requirement.

Description

A kind of wear-resisting packing case of radiation proof uvioresistant and preparation method thereof

Technical field

The present invention relates to packing case technical field, especially a kind of wear-resisting packing case of radiation proof uvioresistant and its preparation side Method.

Background technology

Current packing case majority uses carton or wooden case.Carton and wooden case have that moisture effect is poor, to the thing of packaging The limited defect of product protecting effect；The stitching portion of carton or wooden case, which is usually adopted, to nail, and its profile is not attractive in appearance enough and exists The potential safety hazard that iron nail is hurted sb.'s feelings.In addition, carton or wooden case will all consume the substantial amounts of forest reserves, with adding for people's environmental consciousness By force, the packing case that prepared by plastics steps into the visual field of people, instead of the use of part carton or wooden case.However, existing There is insufficient strength in plastic package box, abrasive resistance is poor, easy aging, no radiation proof function, it is impossible to preserve some in ultraviolet or Rotten article easily occurs under electromagnetic radiation.

The content of the invention

For above-mentioned technical problem, the invention provides a kind of wear-resisting packing case of radiation proof uvioresistant and preparation method thereof, Obtained packing case ageing resistance is strong, intensity is high, the function with antiultraviolet and anti-electromagnetic radiation, is adapted to be packaged with spy The article very required.

In order to reach above-mentioned purpose, present invention employs following technical scheme：

A kind of wear-resisting packing case of radiation proof uvioresistant, including plastic box, are provided with stainless steel in the bottom half and add Strong plate, radiation protective layer, UV resistance layer and wearing layer are disposed with the tank surface.

As improved technical scheme of the invention, the radiation protective layer is the wire for being screen printed onto the tank surface Net, the aperture of the woven wire is not more than 200nm.

Further, the woven wire is formed using the slurry silk-screen printing of conductive nano copper, in conductive nano copper slurry The particle diameter of middle nanometer copper particle is 20~50nm.

As another improved technical scheme of the present invention, the UV resistance layer is main by chlorination dodecyl dimethyl benzyl 32~38 parts of ammonium, α-Al₂O₃18~23 parts of powder, 11~14 parts of 4H-SiC powders, 10~15 parts of SiO 2 hollow microsphere, glass 6~9 parts of glass fiber, 6~10 parts of agent for polyacrylic acid thickening, 3~5 parts of compositions of positive epoxide in the heptan benzophenone of 2- hydroxyls -4-.

Further, the UV resistance layer is main by 35 parts of dodecyl dimethyl benzyl ammonium chloride, α-Al₂O₃Powder 20.3 parts, 12.8 parts of 4H-SiC powders, 12 parts of SiO 2 hollow microsphere, 7.9 parts of glass fibre, agent for polyacrylic acid thickening 8 Part, 4 parts of compositions of positive epoxide in the heptan benzophenone of 2- hydroxyls -4-.

As another improved technical scheme of the present invention, the wearing layer is main by 40~50 parts of epoxy resin, talcum powder 13~18 parts, 9~14 parts of barium sulfate powder, 8~10 parts of calcirm-fluoride powder, 4~8 parts of tungsten-carbide powder, cerium oxide powder 4~ 6 parts, 2~5 parts of tantalum carbide powder, 4~5 parts of modified by polyacid imidazoles epoxy curing agent composition.

Further, the wearing layer it is main by 45 parts of epoxy resin, 15.2 parts of talcum powder, 11.8 parts of barium sulfate powder, 8.8 parts of calcirm-fluoride powder, 6.5 parts of tungsten-carbide powder, 5 parts of cerium oxide powder, 3.2 parts of tantalum carbide powder, modified by polyacid miaow 4.5 parts of compositions of azoles epoxy curing agent.

The preparation method of the above-mentioned wear-resisting packing case of radiation proof uvioresistant is as follows：（1）Molding, then puts stainless steel reinforcing plate Enter mold bottom；（2）The raw material of standby plastic box are added in a mold, and when casing is into mold process, the stainless steel is strengthened Plate is integrally formed with the bottom half；（3）In step（2）Obtained one layer of radiation protective layer of tank surface silk-screen printing, dries；（4）In step（3）Tank surface after processing coats one layer of UV resistance layer；（5）In step（4）The tank surface coating one of processing Layer wearing layer.

It is used as improved technical scheme of the invention, the step（4）For by dodecyl dimethyl benzyl ammonium chloride, α- Al₂O₃Powder, 4H-SiC powders, SiO 2 hollow microsphere, glass fibre, agent for polyacrylic acid thickening, 2- hydroxyls -4- positive heptan Epoxide benzophenone is well mixed, and is coated in step（3）Tank surface after processing, then dries 1~2h at 50~70 DEG C.

It is used as another improved technical scheme of the present invention, the step（5）For by epoxy resin, talcum powder, blanc fixe End, calcirm-fluoride powder, tungsten-carbide powder, cerium oxide powder, tantalum carbide powder, modified by polyacid imidazoles epoxy curing agent It is well mixed, it is coated in step（4）Tank surface after processing, then solidifies 3~5h at 70~90 DEG C.

Compared with existing packing case, the present invention is in plastic box bottom integrally formed with stainless steel reinforcing plate, its intensity Height, can bear heavier article.Outside the enclosure portion of the present invention is disposed with radiation protective layer, UV resistance layer and wearing layer, makes The packing case is obtained in the environment that ultraviolet is strong, electromagnetic radiation is strong, the article of its internal memory also can be effectively protected.

Brief description of the drawings

Fig. 1 is the cross section structure schematic diagram of the packing case of the present invention；

Fig. 2 is the preparation flow figure of the packing case of the present invention；

Wherein, 1- plastic boxes, 2- stainless steel reinforcing plate reinforcing plates, 3- radiation protective layers, 4- UV resistance layer, 5- wearing layers.

Embodiment

The embodiment of the present invention is described in detail in conjunction with accompanying drawing.

As shown in figure 1, the wear-resisting packing case of radiation proof uvioresistant of the present invention includes plastic box 1, set in the bottom of casing 1 There is stainless steel reinforcing plate 2.The stainless steel reinforcing plate 2 is integrally formed with the bottom of plastic box 1, and the surface of casing 1 is also set gradually There are radiation protective layer 3, UV resistance layer 4 and wearing layer 5.

As shown in Fig. 2 the preparation method of the packing case of the present invention is：（1）Stainless steel reinforcing plate 2, is then put into by molding Mold bottom；（2）The raw material of standby plastic box 1 are added in a mold, and when casing 1 is into mold process, the stainless steel is strengthened Plate 2 is integrally formed with the bottom of casing 1；（3）In step（2）Obtained one layer of radiation protective layer 3 of tank surface silk-screen printing, dries in the air It is dry；（4）In step（3）Tank surface after processing coats one layer of UV resistance layer 4；（5）In step（4）The tank surface of processing is applied Cover one layer of wearing layer 5.

In conjunction with preparation method and its shielding property, anti-ultraviolet property of the specific embodiment to the packing case of the present invention It is described in detail with anti-wear performance.

Embodiment 1

（1）Molding, is then put into mold bottom by stainless steel reinforcing plate 2.

（2）The raw material of standby plastic box 1, when casing 1 is into mold process, the stainless steel reinforcing plate are added in a mold 2 are integrally formed with the bottom of casing 1.

（3）In step（2）Obtained one layer of radiation protective layer 3 of tank surface silk-screen printing, dries；The radiation protective layer 3 is excellent Elect woven wire as, its aperture is 200nm.The woven wire can be using the particularly good silver paste silk-screen printing of shielding property Into in order to cost-effective and consider shielding property, the woven wire selects the copper for being about 35nm containing particle diameter to starch silk Wire mark brush is formed, and print thickness is 0.5 μm.

（4）In step（3）Tank surface after processing coats one layer of UV resistance layer 4；The preparation method of the UV resistance layer 4 For by 38 parts of dodecyl dimethyl benzyl ammonium chlorides, 18 parts of α-Al₂O₃Powder, 14 parts of 4H-SiC powders, 10 parts of silica skies Heart microballoon, 9 parts of glass fibres, 6 parts of agent for polyacrylic acid thickening, 5 parts of positive epoxide in heptan benzophenone of 2- hydroxyls -4- are well mixed, and are applied Overlay on step（3）Tank surface after processing, then dries 1h at 70 DEG C.Coating thickness is 0.2mm.

（5）In step（4）The tank surface of processing coats one layer of wearing layer 5；The preparation method of the wearing layer 5 is：Will 40 parts of epoxy resin, 18 parts of talcum powder, 9 parts of barium sulfate powder, 10 parts of calcirm-fluoride powder, 8 parts of tungsten-carbide powders, 6 parts of titanium dioxides Cerium powder, 5 parts of tantalum carbide powders, 4 parts of modified by polyacid imidazoles epoxy curing agents are well mixed, and are coated in step（4）Place Tank surface after reason, then solidifies 5h at 70 DEG C.Coating thickness is 0.5mm.

Embodiment 2

（3）In step（2）Obtained one layer of radiation protective layer 3 of tank surface silk-screen printing, dries；The radiation protective layer 3 is excellent Elect woven wire as, its aperture is 150nm.The woven wire can be using the particularly good silver paste silk-screen printing of shielding property Into in order to cost-effective and consider shielding property, the woven wire selects the copper for being about 35nm containing particle diameter to starch silk Wire mark brush is formed, and print thickness is 0.5 μm.

（4）In step（3）Tank surface after processing coats one layer of UV resistance layer 4；The preparation method of the UV resistance layer 4 For by 35 parts of dodecyl dimethyl benzyl ammonium chlorides, 20.3 parts of α-Al₂O₃Powder, 12.8 parts of 4H-SiC powders, 12 parts of titanium dioxides Positive epoxide in the heptan benzophenone mixing of silicon tiny balloon, 7.9 parts of glass fibres, 8 parts of agent for polyacrylic acid thickening, 4 parts of 2- hydroxyls -4- is equal It is even, it is coated in step（3）Tank surface after processing, then dries 1.5h at 60 DEG C.Coating thickness is 0.2mm.

（5）In step（4）The tank surface of processing coats one layer of wearing layer 5；The preparation method of the wearing layer 5 is：Will 45 parts of epoxy resin, 15.2 parts of talcum powder, 11.8 parts of barium sulfate powder, 8.8 parts of calcirm-fluoride powder, 6.5 parts of tungsten-carbide powders, 5 Part cerium oxide powder, 3.2 parts of tantalum carbide powders, 4.5 parts of modified by polyacid imidazoles epoxy curing agents are well mixed, coating In step（4）Tank surface after processing, then solidifies 4h at 80 DEG C.Coating thickness is 0.5mm.

Embodiment 3

（3）In step（2）Obtained one layer of radiation protective layer 3 of tank surface silk-screen printing, dries；The radiation protective layer 3 is excellent Elect woven wire as, its aperture is 100nm.The woven wire can be using the particularly good silver paste silk-screen printing of shielding property Into in order to cost-effective and consider shielding property, the woven wire selects the copper for being about 35nm containing particle diameter to starch silk Wire mark brush is formed, and print thickness is 0.5 μm.

（4）In step（3）Tank surface after processing coats one layer of UV resistance layer 4；The preparation method of the UV resistance layer 4 For by 32 parts of dodecyl dimethyl benzyl ammonium chlorides, 23 parts of α-Al₂O₃Powder, 11 parts of 4H-SiC powders, 15 parts of silica skies Heart microballoon, 6 parts of glass fibres, 10 parts of agent for polyacrylic acid thickening, 3 parts of positive epoxide in heptan benzophenone of 2- hydroxyls -4- are well mixed, and are applied Overlay on step（3）Tank surface after processing, then dries 2h at 50 DEG C.Coating thickness is 0.2mm.

（5）In step（4）The tank surface of processing coats one layer of wearing layer 5；The preparation method of the wearing layer 5 is：Will 50 parts of epoxy resin, 13 parts of talcum powder, 14 parts of barium sulfate powder, 8 parts of calcirm-fluoride powder, 4 parts of tungsten-carbide powders, 4 parts of titanium dioxides Cerium powder, 2 parts of tantalum carbide powders, 5 parts of modified by polyacid imidazoles epoxy curing agents are well mixed, and are coated in step（4）Place Tank surface after reason, then solidifies 3h at 90 DEG C.Coating thickness is 0.5mm.

Embodiment 4

Radiation proof is tested：Mobile phone is put into packing case made from embodiment 1-3, closed box, then dials the mobile phone, It can not put through.

UV resistance is tested：A small pieces casing of packing case made from embodiment 1-3 is extracted, is put into Ultraviolet Detector, is surveyed It is 86% to obtain the uv absorption rate that packing case made from embodiment 1 is 254nm to wavelength, and wavelength is inhaled for 340nm ultraviolet light Yield is 92%；It is 91% to measure the uv absorption rate that packing case made from embodiment 2 is 254nm to wavelength, is to wavelength 340nm uv absorption rate is 94%；Measuring the uv absorption rate that packing case made from embodiment 3 is 254nm to wavelength is 89%, the uv absorption rate for being 340nm to wavelength is 91%.

Wearability test：A small pieces casing of packing case made from embodiment 1-3 is extracted, is put into RCA abrasion resistant testers Tested.Check whether tank surface spills plastic box 1 after every 30 circle.Packing case made from embodiment 1 reveals after being enclosed 390 Go out plastic box 1；Packing case made from embodiment 2 exposes plastic box 1 after being enclosed 480；Packing case made from embodiment 3 exists Expose plastic box 1 after 390 circles.

The announcement and teaching of book according to the above description, those skilled in the art in the invention can also be to above-mentioned embodiment party Formula carries out appropriate change and modification.Therefore, the invention is not limited in embodiment disclosed and described above, to this Some modifications and changes of invention should also be as falling into the scope of the claims of the present invention.Although in addition, this specification In used some specific terms, but these terms are merely for convenience of description, do not constitute any limitation to the present invention.

Claims

1. a kind of wear-resisting packing case of radiation proof uvioresistant, including plastic box, it is characterised in that：It is provided with the bottom half Stainless steel reinforcing plate, radiation protective layer, UV resistance layer and wearing layer are disposed with the tank surface；The UV resistance layer is main Will by 32~38 parts of dodecyl dimethyl benzyl ammonium chloride, 18~23 parts of α-Al2O3 powder, 11~14 parts of 4H-SiC powders, 10~15 parts of SiO 2 hollow microsphere, 6~9 parts of glass fibre, 6~10 parts of agent for polyacrylic acid thickening, 2- hydroxyls -4- positive heptan 3~5 parts of compositions of epoxide benzophenone.

2. the wear-resisting packing case of radiation proof uvioresistant according to claim 1, it is characterised in that：UV resistance layer it is main by 35 parts of dodecyl dimethyl benzyl ammonium chloride, 20.3 parts of α-Al2O3 powder, 12.8 parts of 4H-SiC powders, silicon dioxide hollow 12 parts of microballoon, 7.9 parts of glass fibre, 8 parts of agent for polyacrylic acid thickening, 4 parts of compositions of positive epoxide in the heptan benzophenone of 2- hydroxyls -4-.

3. the wear-resisting packing case of radiation proof uvioresistant according to claim 1, it is characterised in that：The wearing layer is main by ring 40~50 parts of oxygen tree fat, 13~18 parts of talcum powder, 9~14 parts of barium sulfate powder, 8~10 parts of calcirm-fluoride powder, tungsten-carbide powder 4 ~8 parts, 4~6 parts of cerium oxide powder, 2~5 parts of tantalum carbide powder, 4~5 parts of modified by polyacid imidazoles epoxy curing agent Composition.

4. the wear-resisting packing case of radiation proof uvioresistant according to claim 3, it is characterised in that：The wearing layer is main by ring 45 parts of oxygen tree fat, 15.2 parts of talcum powder, 11.8 parts of barium sulfate powder, 8.8 parts of calcirm-fluoride powder, 6.5 parts of tungsten-carbide powder, dioxy Change 5 parts of cerium powder, 3.2 parts of tantalum carbide powder, 4.5 parts of compositions of modified by polyacid imidazoles epoxy curing agent.

5. the wear-resisting packing case of radiation proof uvioresistant according to claim 1, it is characterised in that：The radiation protective layer is silk screen The woven wire of the tank surface is printed on, the aperture of the woven wire is not more than 200nm, and the woven wire is used and received Rice conductive copper paste silk-screen printing is formed, and the particle diameter of nanometer copper particle is 20~50nm in conductive nano copper slurry.

6. a kind of preparation method of the wear-resisting packing case of radiation proof uvioresistant, comprises the following steps：(1) molding, then by stainless steel Reinforcing plate is put into mold bottom；(2) raw material of standby plastic box are added in a mold, when casing is into mold process, it is described not Rust steel reinforcing plate is integrally formed with the bottom half；(3) in one layer of radiation proof of tank surface silk-screen printing made from step (2) Layer, dries；(4) by 32~38 parts of dodecyl dimethyl benzyl ammonium chloride, 18~23 parts of α-Al2O3 powder, 4H-SiC powders 11~14 parts, 10~15 parts of SiO 2 hollow microsphere, 6~9 parts of glass fibre, 6~10 parts of agent for polyacrylic acid thickening, 2- hydroxyls 3~5 parts of positive epoxide in the heptan benzophenone of base -4- is well mixed, and the tank surface after step (3) processing is coated in, then 50~70 1~2h is dried at DEG C, UV resistance layer is formed；(5) one layer of wearing layer is coated in the tank surface of step (4) processing.

7. the preparation method of the wear-resisting packing case of radiation proof uvioresistant according to claim 6, it is characterised in that：The step (5) it is by 40~50 parts of epoxy resin, 13~18 parts of talcum powder, 9~14 parts of barium sulfate powder, 8~10 parts of calcirm-fluoride powder, carbon Change 4~8 parts of tungsten powder, 4~6 parts of cerium oxide powder, 2~5 parts of tantalum carbide powder, modified by polyacid imidazoles epoxy resin cure 4~5 parts of agent is well mixed, and is coated in the tank surface after step (4) processing, is then solidified 3~5h at 70~90 DEG C.