Utility model content
In view of above-mentioned condition, it is necessary to provide a kind of portable electron device with shock-absorbing function.
A kind of portable electronic device protection case, for housing portable electron device, described portable electronic device protection case includes housing, described portable electronic device protection case also includes the multiple shock-damping structures being arranged on described housing, each described shock-damping structure includes protruding from the elastomer outside described housing and being kept away a hole by what described elastomer and described housing surrounded, described elastomer is for being kept away generation elastic deformation in a hole when clashing into towards described, to reduce the impact force to described portable electron device, described portable electronic device protection case also includes being sheathed on described housing and the frame on the plurality of shock-damping structure.
Further, described housing includes diapire and perisporium, described perisporium is set around the outer rim of described diapire, described perisporium includes the upper end being positioned at diapire side and is positioned at the lower end of diapire opposite side, the upper end of described diapire and described perisporium surrounds an accepting groove jointly to house described portable electron device, and the lower end of described diapire and described perisporium surrounds a groove jointly.
Further, the periphery of described upper end extends towards central authorities' bending to form holding section, and described portable electron device is limited in described accepting groove by described holding section.
Further, described perisporium also includes multiple corner, the plurality of shock-damping structure and the plurality of corner one_to_one corresponding.
Further, described elastomer includes that two elastic arms and connect plane, and the end of each elastic arm extends and connected to the corner of correspondence, and described connection plane connects the free end of said two elastic arm.
Further, described in keep away a hole and be formed between described elastomer and corresponding corner, keep away position for the described elastomer that elastic deformation occurs.
Further, described frame protrudes to be formed lobe outwardly corresponding to the corner of described perisporium, and described lobe adapts with the geomery of corresponding shock-damping structure.
Further, described frame also includes multiple connector, and multiple connectors and multiple lobe one_to_one corresponding, every a connection piece includes a retaining wall and is symmetricly set in the linking arm of described retaining wall both sides, two linking arms are each passed through corresponding elastic arm and are connected to the two ends in respective bump portion, and described retaining wall is attached on described corner.
Further, the two opposite side walls of described frame offers multiple anti-skidding striped respectively.
Further, described perisporium being additionally provided with multiple first through hole and multiple convex closure, described frame offers multiple second through hole, and the plurality of second through hole is corresponding with the plurality of first through hole and the plurality of convex closure respectively.
Above-mentioned portable electronic device protection case is by forming multiple shock-damping structure on housing; each shock-damping structure include elastomer and be formed between elastomer and housing keep away a hole; when elastomer is clashed into; elastomer can occur elastic deformation in keeping away a hole; thus reduce the impact of this impact force portable electron device on being placed in housing, reach the effect of damping.
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.
It should be noted that when an assembly is considered as " connection " another assembly, and it can be directly to another assembly or may be simultaneously present the assembly being centrally located.When an assembly is considered as " being arranged on " another assembly, and it can be to be set directly on another assembly or may be simultaneously present the assembly being centrally located.
Unless otherwise defined, all of technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model are generally understood that.It is intended merely to describe the purpose of specific embodiment at term used in the description of the present utility model herein, it is not intended that in limiting this utility model.Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.
Referring to Fig. 1, the portable electronic device protection case that this utility model provides is used for housing a portable electron device (not shown).Portable electronic device protection case 100 includes housing 10, the multiple shock-damping structures 20 being formed on housing 10, and is sheathed on housing 10 and the frame 30 on multiple shock-damping structures 20.Housing 10 is sheathed on this portable electron device for protecting this portable electron device.
Please refer to Fig. 2 to Fig. 4, housing 10 includes diapire 11 and perisporium 12.In the present embodiment, diapire 11 is generally rectangular shaped, and perisporium 12 is set around the outer rim of diapire 11.Perisporium 12, with diapire 11 as separating surface, is divided into upper end 121 and lower end 122.Upper end 121 extends from diapire 11 respectively in the opposite direction with lower end 122.Diapire 11 surrounds an accepting groove 13 jointly with the upper end 121 of perisporium 12, and accepting groove 13 houses portable electron device in the inner.Preferably, the height of upper end 121 is more than the thickness of portable electron device, and the periphery of upper end 121 extends towards central authorities' bending and forms holding section 1211, in order to be limited in by portable electron device in accepting groove 13.Separately, when this portable electron device is contained in accepting groove 13, owing to holding section 1211 is above this portable electron device, thus desirably prevent this portable electron device contact-impact face, and then effectively protect this portable electron device.Diapire 11 surrounds a groove 14 jointly with the lower end 122 of perisporium 12, and groove 14 is used for housing and install rubber sheet (not shown), to improve the cushioning ability bottom housing 10.
Multiple first through hole 123 and multiple convex closure 124 it is further opened with on perisporium 12, multiple first through holes 123 are pointed to the jack (not shown) of this portable electron device respectively, so that the power line in the external world or data wire are plugged in the jack that this portable electron device is electrical via multiple first through holes 123, and then realize charging or the transmission of data.Multiple convex closures 124 are pointed to the button (not shown) on this portable electron device respectively, and the plurality of convex closure 124 is respectively used to house multiple button, so that user can realize manipulating the purpose of this button by pressing convex closure 124.In other embodiment, multiple convex closures 124 the most replaceable one-tenth through hole, but it is not limited to this.
Perisporium 12 also includes multiple corner 125, multiple shock-damping structures 20 and multiple corner 125 one_to_one corresponding.In the present embodiment, the quantity of corner 125 is four, and four corners 125 make to be enclosed, by perisporium 12 and diapire 11, the accepting groove 13 being set as and form rectangle, and the size of this accepting groove 13 and rectangular-shaped portable electron device adapts.In other embodiment, the quantity of corner 125 is not limited to four, it is possible to be three, five etc., and can set according to the shape of this portable electron device.
Each shock-damping structure 20 include the elastomer 21 protruding from outside housing 10 and be formed between elastomer 21 and housing 10 keep away a hole 22.Elastomer 21 can occur elastic deformation when by external force collision, thus reduces the impact of this impact force portable electron device on being placed in housing 10.In the present embodiment, each elastomer 21 is rough wedge, and it is coated on outside one of them corner 125 of perisporium 12.Being appreciated that the shape of elastomer 21 is not limited to the wedge shape of present embodiment, it is alternatively semi-cylindrical or other shapes.The most in the present embodiment, each elastomer 21 includes that two elastic arms 211 and connect plane 213.Each elastic arm 211 is substantially L-shaped, and its end extends and connected to the corner 125 of correspondence, and offers through hole 2111 in the position near corner 125.Connect plane 213 and connect the free end of two elastic arms 211.Elastomer 21 when being clashed into, connect plane 213 can preferably stress suction, thus reach more preferable damping effect.In the present embodiment, the angle between two elastic arms 211 is substantially in 90 degree.But it is not limited to this.
Keep away a hole 22 to be formed between elastomer 21 and corresponding corner 125, i.e. keep away a hole 22 and surrounded with corner 125 by two elastic arms 211, for the elastomer 21 that elastic deformation occurs is kept away position, thus reduce the impact force to portable electron device further.In the present embodiment, a hole 22 is kept away for through hole.Being appreciated that and keep away the through hole that the shape in a hole 22 is not limited in present embodiment, it is alternatively formed at the blind hole on elastomer 21.As, elastomer 21 is a solid, it offers one and keeps away a hole in blind hole shape, and be correspondingly formed two described elastic arms;Or the middle part of two elastic arms is interconnected in together, thus form two opposing settings keep away a hole in blind hole shape.
In the present embodiment, housing 10 and multiple shock-damping structures 20 are by dijection injection mo(u)lding.Housing 10 and multiple shock-damping structures 20 can use elastomeric material, as Polyurethane Thermoplastic Elastomer (Thermoplastic Polyurethane, TPU) is made.But it is not limited to this.
The generally hollow rectangular box of frame 30, and the size of the cuboid size that surrounds of this frame 30 and housing 10 adapts, in order to frame 30 is seamlessly coated on the perisporium 12 of housing 10.Frame 30 is corresponding to protruding to be formed lobe 31 outwardly at the corner 125 of perisporium 12, and the geomery of lobe 31 and shock-damping structure 20 adapts, so that lobe 31 is tightly coated with shock-damping structure 20.Frame 30 also includes multiple connector 32, and multiple connectors 32 and multiple lobe 31 one_to_one corresponding, every a connection piece 32 includes a retaining wall 322 and is symmetricly set in the linking arm 321 of retaining wall 322 both sides, and two linking arms 321 are each passed through corresponding through hole 2111 and are connected to the two ends in respective bump portion 31.Retaining wall 322 is contained in be kept away in a hole 22 and is attached at the corner 125 of perisporium 12, and in the present embodiment, the medial wall of retaining wall 322 adapts with the lateral wall of corner 125, so that retaining wall 322 is seamlessly closely attached on corner 125.
The two opposite side walls of frame 30 offers multiple anti-skidding striped 33 and multiple second through hole 34 respectively.Multiple anti-skidding stripeds 33 are for increasing the coefficient of friction of described two opposite side walls.Multiple second through holes 34 are through frame 30 corresponding with multiple first through holes 123 on perisporium 12 and multiple convex closure 124, for keeping away the multiple convex closure in position 124, extraneous electric wire and data wire.
It is appreciated that multiple anti-skidding striped 33 is not limited to be located at two opposing sidewalls of frame 30, it is possible to be arranged on other sidewall of frame 30, the position of anti-skidding striped 33 should be set according to actual needs.
Portable electronic device protection case 100 of the present utility model is by forming multiple shock-damping structure 20 on the housing 10; each shock-damping structure 20 include elastomer 21 and be formed between elastomer 21 and housing 10 keep away a hole 22; when elastomer 21 is clashed into; elastomer 21 can occur elastic deformation in keeping away a hole 22; thus reduce the impact of this impact force portable electron device on being placed in housing 10, reach the effect of damping.Meanwhile, portable electronic device protection case 100, also by arranging anti-skidding striped 33 on frame 30, to improve the anti-skid factor of portable electronic device protection case 100, thus greatly reduces the probability that this portable electron device drops.
It addition, those skilled in the art also can do other change, certainly, these changes done according to this utility model spirit in this utility model spirit, all should be included in the scope that this utility model is claimed.