Source: https://patents.google.com/patent/CN103429504B/en
Timestamp: 2020-07-12 16:25:28
Document Index: 252294659

Matched Legal Cases: ['art 60', 'art 62', 'arts 63', 'art 63', 'arts 38', 'art 70', 'art 70', 'art 70', 'arts 38', 'Application No. 11', 'art.\n10', 'art.\n11']

CN103429504B - The container that can rupture - Google Patents
The container that can rupture Download PDF
CN103429504B
CN103429504B CN201280011323.XA CN201280011323A CN103429504B CN 103429504 B CN103429504 B CN 103429504B CN 201280011323 A CN201280011323 A CN 201280011323A CN 103429504 B CN103429504 B CN 103429504B
CN201280011323.XA
CN103429504A (en
布雷德利·唐纳德·蒂斯
大卫·史蒂文斯
桑德斯创新有限公司
2012-02-06 Application filed by 桑德斯创新有限公司 filed Critical 桑德斯创新有限公司
2012-02-06 Priority to PCT/IB2012/000205 priority patent/WO2012120344A2/en
2013-12-04 Publication of CN103429504A publication Critical patent/CN103429504A/en
2015-09-02 Publication of CN103429504B publication Critical patent/CN103429504B/en
210000001364 Upper Extremity Anatomy 0.000 description 9
238000003856 thermoforming Methods 0.000 description 2
There is disclosed herein a kind of container that can rupture along fracture path, this container has wall thickness constant generally near this fracture path.In order to the structure integrity providing a specific fracture path not reduce this container, the body of this container is configured to along this fracture path, stress be concentrated.
The container that can rupture
Present invention relates in general to a kind of container, and relate more specifically to a kind of container ruptured in order to open.
Container is made up of different materials, comprises glass, metal and plastics.Recently, plastic container are loved due to its light weight construction and low cost.Specifically, plastic container can be made up of known molding process and thermoforming process.In order to withstand shipping, handling and storage, these plastics should be firm.Current preferred plastics comprise PET and high impact polystyrene.Specifically, these plastics are selected so that rupturing with preventing during unexpected power of applying to expect.
Many known being comprised by airtight container define for receiving the chamber of material body and for seal this chamber one lid or cover piece.In some container, this cover piece is connected on this body by a kind of mechanical interconnection (connect as bayonet fitting or be threaded).In other containers, this cover piece can be connected on this body by binder and heat sealing method.These containers some in, this cover piece can easily be removed to allow to touch stored material from this body.But for little container, it may be difficult for removing this cover piece.
Other containers can be configured to cover piece is remained attached on body, and this body can rupture when the power of applying.In order to the bulk strength providing an opening that can rupture to maintain the container be made up of PET or high impact polystyrene, one of them wall of this container will have the wall section of a skiving of section, such as this wall that weakens or multiple perforation.
The plastic container comprising weakening section are normally made by a kind of basic molding process, because the thickness of wall can change in this molding process.Other plastic container with weakening section are that Heat forming forms, and wherein this weakening section causes by cutting or boring a hole.Due to the wall thickness of reduction be associated with the container of Heat forming, this weakening section produces to make it possible to maintenance minimal wall thickness in the planar section generally of these containers, thus provides a kind of structural stability measure and weakened into by a section simultaneously fully can rupture.
This weakening section allows this packaging to maintain structure integrity intrinsic in PET or high impact polystyrene along the major part of this vessel.But by weakening a section of this vessel, this container due to the power that is applied on this vessel or may be subject to undesirable infringement due to the internal pressure in this container, thus obtains by the container of depressurization.
In order to reduce the impact adopting and weaken section, this weakening section is positioned to other the comparatively away minor segment extensions along a turning or this container by known thermoformed containers.The little opening that this minimized weakening section produces can not make storage product in the chamber free-flowing under gravity.Contribute to although it is so reducing undesirable distribution from this chamber, but user must extrude or make this container deformation, instead of this container that tilts simply is with regard to distributing contents thing.
Many containers comprise a coated inside or layer to provide further protection to content.Although are actvies for having to be stored in these coatings for the certain material in this container or specific environment, the impaired integraty of this vessel that the wall section that these coatings are not intended to adapt to be weakened by this causes.
The invention provides a kind of container, this container comprises: a body, and this body has at least one chamber for storing the content that can distribute; A upper limb of this body, this upper limb defines an opening for filling this chamber; A flange, this flange extends along the upper limb of this body; A cover piece, this cover piece is affixed on this flange to be sealed among this chamber by these contents that can distribute; A curve of a centre portion of the wall of this body, the power that any side of this curve applies ruptures along this curve more than this body during a predeterminated level; A wedge profile of the centre portion of this body, this wedge profile, for providing a width reduced of this body, makes the stress when applying power on any side of this curve concentrate along this width reduced like this; In a part expanded of this this flange of curve place; This centre portion of this body is continuous print, and runs through this centre portion and have constant wall thickness generally; And the width segments of the expansion of this body on the two opposite sides of this centre portion.
This curve comprises the configuration of a cavetto.This curve defines the angle at least about 70 degree generally.In some cases, this curve defines scope generally from the angle of about 70 degree to about 90 degree.
This body comprises the isolated rib inwardly stretched out with this curve, to alleviate the drawing stress on this body when applying power on the two opposite sides of this curve.This flange stretches out from the upper limb of this body.Run through this flange, this flange has a wall thickness constant generally.
The upper limb of this body comprises the part extended internally for a pair, and the described part extended internally for a pair corresponds to the part of the expansion of this flange.
In one embodiment, this wedge profile comprises the configuration of an angulation to reduce the width of this middle part.
In another embodiment, this wedge profile comprises the configuration of a cavetto to reduce the width of middle part.This wedge profile comprises a pars papillaris, and the width that this pars papillaris has is less than a width reduced of the configuration of this cavetto of this wedge profile so that along this pars papillaris concentrated stress.
This body comprises styrene.Especially, this body comprises a kind of material being selected from lower group, and this group is made up of the following: the polystyrene of low impact-resistant polystyrene, medium impact polystyrene and biaxial orientation.
Run through this body, this body has a wall thickness constant generally.
The part of the expansion of this flange is configured to the neutral axis moving this container towards this flange, when applying power with box lunch on the either side of curve, provides the stress of the increase along this curve.
This container also comprises the rib that inwardly stretch out of the connecting portion between adjacent wall and flange in the outside of this wall, this rib inwardly stretched out and curve spaced apart, when applying power with box lunch on the relative both sides of this curve, alleviate the drawing stress on this body.
What this flange comprised the rib inwardly stretched out in this wall adjacent widens section.This rib adjacent of this flange widen section not wider than the part of the expansion of this flange.This rib inwardly stretched out is essentially perpendicular to flange and extends along this wall.
The part of the expansion of this flange is configured to the neutral axis moving this container towards flange, when applying power with box lunch on the either side of this curve, provides the stress of the increase along this curve.
Fig. 1 is the transparent view of a container;
Fig. 2 is the enlarged perspective of a centre portion of the container of Fig. 1;
Fig. 3 is the transparent view of the container of Fig. 1 when being held with a firm grip by user;
Fig. 4 is the side elevation view of the container of Fig. 1 and is that the diagram of curves of the neutral axis of this container along the relative position of its length is shown;
Fig. 5 is a side elevation view amplified of the centre portion of the container of Fig. 1;
Fig. 6 is a side elevation view amplified of the centre portion of the container of Fig. 1, shows the body of a portion fractures;
Fig. 7 is the amplification cross sectional view of the side elevation view of a centre portion of the container of Fig. 1;
Fig. 8 is the amplification cross sectional view of a centre portion of the container of Fig. 1 side elevation view when applying power on this container;
Fig. 9 is the amplification cross sectional view of the side elevation view of a centre portion of the container of Fig. 1, shows a lower surface ruptured because applying power on this container causes;
Figure 10 A is a side elevation view of the container of Fig. 1;
Figure 10 B is the cross sectional view of an end face elevation view of the container of Figure 10 A;
Figure 11 A is a side elevation view of the container of Fig. 1;
Figure 11 B is the cross sectional view of an end face elevation view of the container of Figure 11 A;
Figure 12 A is a side elevation view of the container of Fig. 1;
Figure 12 B is the cross sectional view of an end face elevation view of the container of Figure 12 A;
Figure 13 A is a side elevation view of the container of Fig. 1;
Figure 13 B is the cross sectional view of an end face elevation view of the container of Figure 13 A;
Figure 14 A is a side elevation view of the container of Fig. 1;
Figure 14 B is the cross sectional view of an end face elevation view of the container of Figure 14 A;
Figure 15 A is a side elevation view of the container of Fig. 1;
Figure 15 B is the cross sectional view of an end face elevation view of the container of Figure 15 A;
Figure 16 A is the plan view of the container of Fig. 1;
To be that a side of the container of Figure 16 A is vertical look section drawing to Figure 16 B;
Figure 17 is that the container of Fig. 1 looks section drawing along the end face at curve place is vertical, shows wedge profile and the neutral axis of an angulation;
Figure 18 is that the container of Fig. 1 looks section drawing along the end face at curve place is vertical, shows wedge profile and the neutral axis of an alternative cavetto;
Figure 19 is that the container of Fig. 1 founds along the end face at curve place the section drawing looked, and shows a wedge profile with the cavetto substituted of pars papillaris and this neutral axis;
Figure 20 is the comparison diagram of stress and the linear relationship apart from the distance y of neutral axis;
Figure 21 be when this vessel comprise multiple alleviate the rib of tension force stress and the linear relationship of the distance y apart from neutral axis comparison diagram;
Figure 22 is the amplification cross sectional view of the side elevation view of a centre portion of the container of Fig. 1, shows the body that rupture again closed by the protrusion of a wall portion and the frictional engagement of another wall portion.
Figure 1 illustrates the container 2 of sealing contents in a chamber for distributing.Container 2 comprises a body 4, and this body defines the cavity for receiving these article that can distribute.The upper limb 6 of body 4 defines an opening of this chamber.A flange 8 of container 2 extends from the upper limb 6 of body 4.The upper surface 10 of flange 8 has a smooth generally surface and is attached thereto for by a cover piece 12.Body 4 and cover piece 12 provide a kind of sealed environment for storing these article that can distribute.In order to easily touch these article, container 2 can rupture along a specific fracture path 16 on its width 14.In order to ensure in this container by the integraty of sealed environment, body 4 even all has a constant generally wall thickness 18 along fracture path 16.
As shown in Figure 1 to Figure 3, body 4 comprises a kind of narrow structure, although other structures are conceivable.Body 4 comprises two contrary ends 20 and 22, and a centre portion 24 is positioned between these opposite ends 20 and 22.As shown in Fig. 1 to Fig. 9, fracture path 16 is positioned among the centre portion 24 of body 4.As shown in Figure 3, body 4 comprises and extends to a handle portion 26 of fracture path 16 from the first end 20 and extend to a distal portions 28 of fracture path 16 from the second end 22.Handle portion 26 is configured to be held with a firm grip to allow to realize the one-handed performance to container 2 and use by user.One of distal portions 28 can be configured to engage to apply a crack force thus make body 4 rupture along fracture path 16 on the distal portions 28 of body 4 with user's (thumb of such as user) by composition surface 30.As shown in Figure 3, can composition surface 30 be depart from the lower surface 31 of handle portion 26 and be arc, a such as approximate finger, to provide a kind of joint meeting human engineering.
As shown in Figure 10 A to Figure 16 B, the wall thickness 18 constant generally around fracture path 16 reduces the tendency at the integraty filling, load and unload and be not intended in storage process infringement container 2.In order to provide the structure integrity of enhancing, container 2 be configured to when the distal portions 28 at body 4 composition surface 30 can apply power time make at surface of base 32 place maximum along the stress of the fracture path 16 of container 2.
Specifically, as shown in Figure 1, Figure 2 and shown in Fig. 4 to Fig. 9, body 4 comprises a curve 34, and this curve extends and defines this fracture path 16 on the width 14 of body 4.In addition, as shown in Figures 1 and 2, container 2 is also included in a flange portion 38 expanded of this fracture path 16 adjacent of a wedge profile 36 in the centre portion 24 of body 4 and flange 8.
The curve 34 of body 4 is provided by thermoforming process.Can by bending a preformed body and provide folding line and providing a similar curve.But bending may not be preferred, because bending may produce stress along this curve, this may reduce the bulk strength of body 4 and may cause undesirable fracture.By contrast, the curve 34 of Heat forming can not cause extra stress to body 4.
To distal portions 28 can composition surface 30 apply power time, the outside face 33 of curve 34 along body 4 on the surface of base 32 of curve 34 of body 4 provides extra stress.As shown in Figure 7 to 9, to can composition surface 30 apply power time curve 34 straighten.Specifically, Fig. 7 shows the cross section of the body 4 when not applying power.As shown in Figure 8, when to can composition surface 30 apply power time, under the surface of base 32 of curve 34 is in tension force, thus produce stress on body 4.As shown in Figure 9, make curve 34 straighten required tension force once exceed along the stress of surface of base 32, curve 34 will straighten and surface of base 32 along curve 34 forms a slight crack 40.Once fracture, curve 34 just defines cleavage and tears this fracture path 16 spread along it.The power caused required for fracture is greater than to make to tear and spreads required power along fracture path 16.Consequently, container 2 can withstand higher stress and remain a kind of by sealing state, but once container 2 ruptures, allows easily to open.
Curve 34 comprises and is positioned at by body 4 angle [alpha] that the wall portion 42 and 44 on each side of curve 34 limits.Angle [alpha] is configured for the fracture promoted along curve 34.Specifically, when making curve 34 straighten, larger angle [alpha] provides the stress of increase along curve 34.In order to provide the stress of desired increase, angle [alpha] is at least about 70 degree.In some cases, the scope of angle [alpha] is from about 70 degree to about 90 degree.
As indicated above, body 4 comprises other features for improving the amount of stress on the surface of base 32 of curve 34.Stress at surface of base 32 place of curve 34 can characterize with Bernoulli-Euler (Bernoulli-Euler) stress beam equation:
&sigma; = My I x
Steady component of stress on σ-beam parts.
The power that M-is provided by the power applied surperficial 30 is about the moment of a neutral axis 58.
Y-is from neutral axis 58 to the vertical distance of failpoint, and this failpoint is represented by the surface of base 32 of the curve 34 in a container do not ruptured 2.
Ix-is about the cross section second moment of neutral axis 58.
Body 4 comprises the distance y between the surface of base 32 for not only increasing neutral axis 58 and curve 34 but also reduces multiple features of cross section second moment (Ix), is exactly at desired fracture or fracture path 16 place.The wedge profile 36 near fracture path 16 of body 4 decreases the quantity of material arranged away from neutral axis 58.Further, the height of body 4 is lowered at fracture path 16 place to reduce cross section second moment (Ix) clearly.
As shown in Fig. 4 to Fig. 6, container 2 comprises a neutral axis 58, and the point along this neutral axis does not exist longitudinal stress.Or rather, when composition surface 30 applying power, compressing stress acts on extending to a part 60 of flange 8 from neutral axis 58 of container 2.Further, drawing stress acts on extending to a part 62 of surface of base 32 from neutral axis 58 of container 2.The position of neutral axis 58 is determined based on the shape of container 2 and mass distribution.As shown in Figure 4, when the shape of body 4 or physical dimension change, the position of neutral axis 58 is along the length variations of container 2.As described above, this Bernoulli-Euler the Representation Equation to can composition surface 30 apply power time, stress at any set point place of container 2 and this point are proportional apart from the distance y of neutral axis 58.
In order to guide body 4 to rupture along fracture path 16, the flange 8 of container 2 comprises the flange portion 38 of the multiple expansions along centre portion 24, this fracture path 16 adjacent.These flange portions 38 expanded increase the quality of flange 8 relative to body 4 of this fracture path 16 adjacent.As shown in Figure 4, increase along the quality of flange 8 and the neutral axis 58 of the centre portion 24 being arranged in container 2 is offset towards flange 8 and leaves the surface of base 32 of curve 34.Consequently, surface of base 32 leaves neutral axis 58 further, to increase pro rata thus at surface of base 32 place along the stress of fracture path 16 and reduces the amount of the power required for the pulling strengrth overcoming body 4.
When surface of base 32 ruptures and body 4 breaks, neutral axis 58 offsets until this breaking arrives flange 8 towards flange 8.Specifically, because the quality be associated with the flange portion 38 that these expand increases, the flange portion 38 that neutral axis 58 expands towards these offsets.This movement of neutral axis 58 has been guided to tear and has been carried out along fracture path 16.
As shown in Figure 1, Figure 2, Figure 10 B, Figure 11 B, shown in Figure 12 B and Figure 13 B, the upper limb 6 of body 4 is included in multiple parts 63 extended internally of these ends of fracture path 16.The part 63 that these extend internally corresponds to these parts 38 expanded of flange 8, thus provides the width reduced extended between these flange portions 38 expanded of body 4.
Alternately, contemplate other configurations of the flange portion 38 providing this to expand, comprise the thickness of the flange 8 changing this fracture path 16 place adjacent or this flange 8 that stretches out further.Further, contemplating flange 8 can extend internally from the upper limb 6 of body 4, or carries out inside or outward extending array configuration.
In order to carry out concentrated stress along fracture path 16 further, as shown in Figure 1, Figure 2 and shown in Figure 17 to Figure 19, body 4 comprises wedge profile 36.Wedge profile 36 provides the foundation the width 46 that 32 one, surface reduces, and this makes by can composition surface 30 concentrate in a less area applying power and the stress that produces.Consequently, compared with there is the container of wider body, reduce the amount producing the power required for stress being enough to make the curve 34 of body 4 to straighten.
Wedge profile 36 comprises a peak 48 along this surface of base 32 of fracture path 16.As shown in Figure 17, peak 48 configuration 49 that can comprise an angulation is to make width 46 minimize and to be concentrated on by stress thus on an even less area.Alternately, as shown in Figure 18, peak 48 can comprise the configuration 50 of a cavetto.The configuration 50 of this cavetto also provides the width 46 of reduction, and this width is less times greater than the width of the configuration 49 of this angulation.Even now needs larger power that body 4 is ruptured, but the opening obtained is larger and can adapt to and easier distribution faster to the content of chamber.
Except reducing the width 46 of the surface of base 32 of body 4, because the material Comparatively speaking providing wedge profile 36 to use with more square profile reduces, wedge profile 36 also have impact on the position of neutral axis 58.Consequently, neutral axis 58 is towards flange 8 and leave surface of base 32 and depart from, thus to can composition surface 30 apply power time increase stress along surface of base 32 further.
Peak 48 can comprise a pars papillaris 52 further in the configuration 50 of the cavetto of body 4.As shown in Fig. 2 and Figure 19 the best, pars papillaris surface of base 54 that is that pars papillaris 52 extends to provide an angulation from the configuration 50 of this cavetto or almost angulation.The pars papillaris width 56 that pars papillaris surface of base 54 provides can be less than the configuration 50 of this cavetto width 46 but wider than the configuration 49 of an angulation.Neutral axis 58 skew may be made to leave flange 8 although add pars papillaris 52, the distance y between surface of base 32 and neutral axis 58 increases a larger amount.Pars papillaris 52 causes stress to be concentrated along a less area thus, is similar to when configuration 49 of an angulation observed, but provides the opening size increased be associated with the configuration 50 of this cavetto.
As shown in Figures 1 and 2, container 2 is included in the multiple ribs 64 inwardly stretched out on the handle portion 26 of body 4.These ribs 64 one of comprising out to a pair isolated edge 66 and 68 of a sunk part 70 of body 4 and flange 8 widens section 72 accordingly.To can composition surface 30 apply power time, these ribs 64 alleviate the drawing stress along body 4.Specifically, the stress of the increase on body 4 impels these isolated edges 66 and 68 away from each other, makes this sunk part 70 of rib 64 flatten thus.
When lack these rib 64, as shown in Figure 20, the stress in the multiple independent position along body 4 is directly proportional generally to apart from the distance y of neutral axis 58.Steady component of stress on body 4 is across average at these independent position stress of body 4 width.But, comprise rib 64 and reduce playing along the effect of body 4 at the stress at adjacent flange 8 place.Because the stress at the multiple part places along body 4 reduces, the stress along other part places of body 4 then increases, to make the steady component of stress along body 4 constant.As shown in Figure 21, comprise rib 64 and cause stress to increase along a curve along with distance y, this curve is more very similar to an exponential curve compared with linear relationship shown in Figure 20.Consequently, on body 4, the stress at adjacent flange 8 place reduces, and enlarges markedly at the stress at surface of base 32 place.
As shown in Figure 10 B, what the sunk part 70 of these ribs 64 was configured to make these ribs 64 adjacent of flange 8 widens section 72 not wider than these parts 38 expanded of this fracture path 16 adjacent of flange 8.If it is wider that these widen section 72, then neutral axis 58 influenced and slight crack will follow a predetermined smooth paths by following a concavo-convex uneven path towards these ribs 64 instead of along fracture path 16.
These ribs 64 provide structural strength to resist subsiding of container 2 to container 2 further.
As shown in Figure 1 to Figure 4, body 4 and flange 8 are preferably formed solid memder.Body 4 and flange 8 can be formed by known technique, particularly Heat forming.Body 4 and flange 8 are preferably by a kind of enough solid and material that is that can be used for loading and unloading, fill and transporting is formed.Further, this material must be enough crisp to allow body 4 to rupture along curve 34.Preferably, this material has low tearing and spreads intensity and make after curve 34 starts fracture, and cleavage can continue and not need excessive power.Specifically, exemplary material comprises the polystyrene of polystyrene that is natural or low anti-impact, medium impact polystyrene and biaxial orientation.
The wall thickness 18 that body 4 has is selected to for providing a kind of high integrity container that can withstand harsh filling, distribution and handling.As indicated above, wall thickness 18 keeps constant generally around fracture path 16.In some instances, the scope of wall thickness 18 can be from about 0.3mm to about 6mm.In other instances, the scope of wall thickness 18 can be from about 0.6mm to about 1mm.Further, may desirably have along whole body 4 wall thickness constant generally in some cases, to provide the constant protection class along container 2.
In order to adapt to be stored in certain material in container 2 or in order to provide extra protection class, a functional internal coating or layer can be applied on the inside face 74 of body 4.This internal coating provides extra protection, such as, be used as a kind of aquaseal or oxygen barrier layer.When rupture occur and be cause on the outside face 33 of body 4 time, the inside face 74 of body 4 adds coating does not affect fracture process.Like this, the amount of this coatings applications is to provide functional characteristic instead of providing structural support.
Cover piece 12 is made up of a kind of pliable and tough material.Cover piece 12 can be affixed on body 4 by permanent adhesive seal, heatsealing or ultrasonic welding after this chamber is filled.The material of this cover piece is selected as once curve 34 ruptures, and can be used as the hinge between handle portion 26 and distal portions 28.Like this, cover piece 12 is selected to and does not occur to rupture or break when body 4 ruptures.Cover piece 12 can be the material identical or different with body 4.Such as, cover piece 12 can be make by a kind of single layer polymeric sheet (as polypropylene) or by a kind of laminated material of the combination comprising such as poly-mer, paper or aluminium foil layer.Can print to identify to cover piece 12 and be stored in product in container 2 or content.
Flange 8 can be configured to keep complete when this body ruptures and be used as the hinge between handle portion 26 and distal portions 28 together with cover piece 12.In some cases, body 4 is configured to the U.S. Patent Application No. 11/771 as submitted on June 29th, 2007, and what disclose in 372 is reclosable, hereby this patent application is combined in this with its entirety.
Such as, these wall portions 42 and 44 can be configured for provides a kind of frictional fit in-between after body 4 ruptures.Specifically, as shown in Figure 22, wall portion 44 can comprise the protrusion 76 extended along its outside face 30.Protrusion 76 can be configured to receive in the chamber and the inside face 74 of joined wall portions 42, resists the pivotable of distal portions 28 around this hinge thus.
Although by clearly specifically illustrating the present invention with reference to concrete method and product embodiments, but will be appreciated that different changes, amendment and reorganization can be carried out based on this disclosure and be intended to be positioned within the scope as limited by following claim of the present invention.
A body, this body has at least one chamber for storing the content that can distribute;
A upper limb of this body, this upper limb defines an opening for filling this chamber;
A flange, this flange extends along the upper limb of this body;
A cover piece, this cover piece is affixed on this flange to be sealed among this chamber by these contents that can distribute;
A curve of a centre portion of the wall of this body, the power that any side of this curve applies ruptures along this curve more than this body during a predeterminated level;
A wedge profile of the centre portion of this body, this wedge profile, for providing a width reduced of this body, makes the stress when applying power on any side of this curve concentrate along this width reduced like this;
In a part expanded of this this flange of curve place;
This centre portion of this body is continuous print, and runs through this centre portion and have constant wall thickness generally; And
The width segments of the expansion of this body on the two opposite sides of this centre portion.
2. container as claimed in claim 1, wherein, this curve comprises the configuration of a cavetto.
3. container as claimed in claim 1, wherein, this curve defines the angle of at least 70 degree generally.
4. container as claimed in claim 1, wherein, this curve defines scope generally from the angle of 70 degree to 90 degree.
5. the container as described in any one in claim 1-4, wherein, this body comprises the isolated rib inwardly stretched out with this curve, to alleviate the drawing stress on this body when applying power on the two opposite sides of this curve.
6. the container as described in any one in claim 1-4, wherein, this flange stretches out from the upper limb of this body.
7. the container as described in any one in claim 1-4, wherein, runs through this flange, and this flange has a wall thickness constant generally.
8. the container as described in any one in claim 1-4, wherein, the upper limb of this body comprises the part extended internally for a pair, and the described part extended internally for a pair corresponds to the part of the expansion of this flange.
9. the container as described in any one in claim 1-4, wherein, this wedge profile comprises the configuration of an angulation to reduce the width of this middle part.
10. the container as described in any one in claim 1-4, wherein, this wedge profile comprises the configuration of a cavetto to reduce the width of middle part.
11. containers as claimed in claim 10, wherein, this wedge profile comprises a pars papillaris, and the width that this pars papillaris has is less than a width reduced of the configuration of this cavetto of this wedge profile so that along this pars papillaris concentrated stress.
12. containers as described in any one in claim 1-4, wherein, this body comprises styrene.
13. containers as described in any one in claim 1-4, wherein, this body comprises a kind of material being selected from lower group, and this group is made up of the following: the polystyrene of low impact-resistant polystyrene, medium impact polystyrene and biaxial orientation.
14. containers as described in any one in claim 1-4, wherein, run through this body, this body has a wall thickness constant generally.
15. containers as described in any one in claim 1-4, wherein, the part of the expansion of this flange is configured to the neutral axis moving this container towards this flange, when applying power with box lunch on the either side of curve, provides the stress of the increase along this curve.
16. containers as claimed in claim 1, also comprise:
The rib that inwardly stretch out of connecting portion between adjacent wall and flange in the outside of this wall, this rib inwardly stretched out and curve spaced apart, when applying power with box lunch on the relative both sides of this curve, alleviate the drawing stress on this body.
17. containers as claimed in claim 16, wherein, what this flange comprised the rib inwardly stretched out in this wall adjacent widens section.
18. containers as claimed in claim 17, wherein, this rib adjacent of this flange widen section not wider than the part of the expansion of this flange.
19. containers as claimed in claim 16, wherein, this rib inwardly stretched out is essentially perpendicular to flange and extends along this wall.
20. containers as claimed in claim 16, wherein, the part of the expansion of this flange is configured to the neutral axis moving this container towards flange, when applying power with box lunch on the either side of this curve, provides the stress of the increase along this curve.
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