CN103373513B - Filling structure part - Google Patents

Abstract

The present invention relates to a kind of filling structure part, comprising: the base plate of placing articles；The support platform of support baseboard；A pair first posts of the left and right sides supporting platform are stood upright at nearside；Stand upright on a pair second posts of the left and right sides supporting platform in distally, when watching this filling structure part from front, a pair second posts are positioned at inside than a pair first posts；The distally being positioned at filling structure part the first beam extended in the lateral direction, the first beam is fixed to the top of a pair second posts；There are leading section and rearward end a pair second beams towards distal extension, the leading section of the second beam is connected to the top of corresponding first post, rearward end directly or is fixed to corresponding second post via the corresponding one end in the left end of the first beam and right-hand member, and the distance between the inner surface of a pair second beams is more than the distance between the outer surface of a pair second posts；And supporting member, this supporting member stands upright on support platform in distally, the distal surface of the article that support member support is placed on.

Description

Filling structure part

Technical field

The present invention relates to a kind of filling structure part.

Background technology

Japanese Unexamined Patent Application Unexamined Patent 6-156499 publication such as discloses a kind of shelf, and this shelf is used for depositing goods and allowing to stack thereon another shelf.Described shelf includes under(-)chassis and is connected to four posts of this under(-)chassis, and goods is placed on under(-)chassis.For storage purposes, multiple shelves maintaining goods on its under(-)chassis are stacked up and down.These shelves are nested shelves and have identical structure.When depositing goods without these shelves, these shelves can mounted on top in a nesting relation.

Summary of the invention

It is an object of the present invention to provide a kind of filling structure part, this filling structure part can overlay on another filling structure and can be used for transport article when not in use in a nesting relation.

The filling structure part of the first scheme according to the present invention includes: base plate, and article are placed on which floor plate；Supporting platform, this support platform is from base plate described in the supported underneath of described base plate, thus is risen to above floor by described base plate；A pair first posts, these a pair first posts stand upright on described support platform at nearside left half and nearside right half respectively when being supported by described support platform；A pair second posts, these a pair second posts stand upright on described support platform at distally left half and distal right part when being supported by described support platform respectively, and when watching this filling structure part from front, these a pair second posts are positioned at inside than these a pair first posts；The distally being positioned at described filling structure part the first beam extended in the lateral direction, described first beam is fixed to the top of the pair of second post；A pair second beams, these a pair second beams are respectively provided with leading section and rearward end and towards described distal extension, the top of one the first post of correspondence that the described leading section of each second beam is connected in described first post, corresponding second post that the described rearward end of each second beam directly or is fixed in described second post via the corresponding one end in the left end of described first beam and right-hand member, the distance between the inner surface of the pair of second beam is more than the distance between the outer surface of the pair of second post；And supporting member, this supporting member stands upright on described support platform in described distally, and described support member support is placed on the distal surface of the article on described base plate.

In the filling structure part of the alternative plan according to the present invention, the distance between the inner surface of the pair of second beam is more than the distance between the outer surface of the pair of second post, but is less than the distance between the inner surface of the pair of first post.Described filling structure part includes the top board being arranged on the pair of second beam, distance between this top board inner surface being smaller in size than the pair of first post in the lateral direction, but being greater than the distance between the inner surface of the pair of second beam, described top board can be placed on described base plate.

In the filling structure part of the third program according to the present invention, described supporting member is erected into so that having gap between described supporting member and each described second post, this gap can accommodate the ribbon-shaped members being wound around around described supporting member, and the article being placed on described base plate utilize this ribbon-shaped members to fix.

In the filling structure part of the fourth program according to the present invention, this filling structure part full-size in the lateral direction is in the range of about 700mm to about 800mm.

In the filling structure part of the 5th scheme according to the present invention, distance between the described supporting member outer surface being smaller in size than the pair of second post in the lateral direction, and this supporting member is arranged in the lateral direction and does not the most extend over the pair of second post towards distally.

In the filling structure part of the 6th scheme according to the present invention, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

Filling structure part according to first scheme when not in use can mounted on top in a nesting relation, and cannot be only used for depositing article and can be used to transport article.

Filling structure part according to alternative plan when not in use can when top board is placed on base plate mounted on top in a nesting relation.

Filling structure part according to third program when not in use can when the ribbon-shaped members for fixing article is wound around around supporting member mounted on top in a nesting relation.

Three filling structure parts according to fourth program can be embarked on journey in the transport container have regular size and are arranged side by side.

In the filling structure part according to the 5th scheme, compared with the situation that filling structure part does not have said structure, the supporting member being more reliably prevented from supporting article is impacted owing to being clashed into by outer goods.

In the filling structure part according to the 6th scheme, compared with the situation that filling structure part does not have said structure, the base plate being more reliably prevented from supporting article is impacted owing to being clashed into by outer goods.

Accompanying drawing explanation

The illustrative embodiments of the present invention will be explained based on accompanying drawing.

Fig. 1 is the axonometric chart of the transport shelf as the filling structure part according to exemplary embodiment of the invention；

Fig. 2 is the axonometric chart of the transport shelf removing article；

Fig. 3 is the axonometric chart of the transport shelf shown in Fig. 2, and wherein base plate and top board are removed；

Fig. 4 A and Fig. 4 B shows the structure of belt, and wherein Fig. 4 A is the side view of belt, and Fig. 4 B is the plane graph of belt；

Fig. 5 is the axonometric chart transporting shelf when in terms of the back lower place；

Fig. 6 is the front view of transport shelf；

Fig. 7 is the right view of transport shelf；

Fig. 8 is the plane graph of transport shelf；

Fig. 9 is the plane graph of the transport shelf being provided with top board；

Figure 10 is wound around the sectional view of the afterframe of belt；

Figure 11 shows the plane graph of the process inserted by transport shelf in another transport shelf；And

Figure 12 is the axonometric chart of six transport shelves of mounted on top in a nesting relation.

Detailed description of the invention

Referring to the drawings, the illustrative embodiments of the present invention is described below.

Fig. 1 is the axonometric chart of the transport shelf T as the filling structure part according to exemplary embodiment of the invention.

Transport shelf T shown in Fig. 1 had both been used as the transport shelf used during transport article MC in container etc., the storage shelf used when also serving as in article MC leaves warehouse etc. in.Typically, being placed on transport shelf T is industrial products.Such as, article MC is the office machine of such as photocopier, printer or facsimile machine etc.Article MC is placed on this transport shelf T by the right side of the transport shelf T shown in Fig. 1 and is removed from this transport shelf T.Here, by the placement of transport shelf T and remove article MC the side of process be referred to as nearside F, the side contrary with nearside F is referred to as distally B.Also by deviating from/direction of proximally directed F and sensing/deviate from distally B is referred to as fore-and-aft direction FB.By time in terms of the nearside F of transport shelf T, the side, right side being positioned at transport shelf T is referred to as right side R, is positioned at the side on the left of it and is referred to as left side L.The direction that also will deviate from/point to left side L and sensing/deviate from right side R is referred to as left and right directions LR.The side towards floor of transport shelf T is referred to as downside D, and the vertical plane of transport shelf T side upwards is referred to as upside U.The direction that also will deviate from/point to upside U and sensing/deviate from downside D is referred to as above-below direction UD.

Transport shelf T is reusable shelf.After the transport shelf T that will be equipped with article MC transports its destination, transport shelf T need not be taken apart and article MC is removed from transport shelf T.Then the transport shelf T having removed article MC is returned to departure place (manufacturing firm of such as article MC or warehouse), and is used for carrying another article.

The structure of transport shelf T allows that another has when accommodating article MC mutually isostructural transport shelf T and stacks thereon.Multiple transport shelf T are according to the capacity mounted on top of parking space (such as container or warehouse).Transport shelf T includes four posts 3 and 4 being positioned around article MC.When by multiple transport shelf T mounted on top, the post 3 and 4 of one of them transport shelf T supports the load overlaying other transport shelf (T) thereon.Article MC utilizes belt 9 to be fixed to transport shelf T, but is unsecured to post 3 and 4.

Fig. 2 is the axonometric chart of the transport shelf T removing article MC.

Transport shelf T includes base plate 1, supports platform 2, front pillar 3, rear pillar 4, the back rest 5, curb girder 6, afterframe 7, top board 8 and belt 9.Fig. 2 shows and removes belt 9(and see Fig. 3) transport shelf T.

Here, front pillar 3 is the example of first post of the present invention, and rear pillar 4 is the example of the second post of the present invention.The back rest 5 is the example of first beam of the present invention, and curb girder 6 is the example of the second beam of the present invention.Afterframe 7 is the example of the supporting member of the present invention, and belt 9(sees Fig. 1) it is the example of the ribbon-shaped members of the present invention.

Base plate 1 is for seeing Fig. 1 article MC(is placed above) element.The substantially rectangular flat board that base plate 1 is made up of such as timber.Shaft-like bracelet 12 is attached to base plate 1 to fasten the end (seeing Fig. 1) of one of them belt 9.

Support platform 2 is from base plate 1 supported underneath base plate 1, thus base plate 1 is thus lifted to above floor.Support platform 2 and there is the space that the prong for unshowned hand lift or fork truck inserts or removes.Prong proximally F, distally B, left side L or right side R can insert support platform 2 or remove from supporting platform 2.

Afterframe 7 is to support the article MC(that is placed on base plate 1 to see Fig. 1) the element of distally B surface.Afterframe 7 stands upright on support platform 2 at distally B.

Top board 8 is such component, and it, when transporting shelf T and being used, sees Fig. 1 at article MC() when being accommodated in this transport shelf T, cover from above article MC and do not fall out or from other dangerous matter sources any with protection article MC.The substantially rectangular flat board that top board 8 is made up of such as resin.Top board 8 is arranged on curb girder 6.When transporting shelf T and not using, top board 8 is removed and is placed on from curb girder 6 base plate 1.

Fig. 3 is the axonometric chart of the transport shelf T shown in Fig. 2, and wherein base plate 1 and top board 8 are removed from this transport shelf T.

Base plate 1 is fixed to support platform 2.Although no matter transporting whether shelf T is used, base plate 1 all utilizes screw thread to be bound to support the top of platform 2 all the time, but Fig. 3 and subsequent drawings all show, for the visuality of structure, the state removed by base plate 1.Buffer component 71 is attached to afterframe 7, thus is plugged between afterframe 7 and article MC.Buffer component 71 is such as polyurethane foam pad.Buffer component 71 prevents article MC owing to contacting with afterframe 7 and damaged.Buffer component 71 also reduces the transmission of impact.But, so that afterframe 7 is high-visible, the most only show in phantom the position of buffer component 71.

According to this illustrative embodiments, as amortisseur vibration isolation rubber part 25 be arranged on support platform 2, support the load of article MC to assist to support platform 2.Vibration isolation rubber part 25 is attached to transport shelf T or remove from transport shelf T according to the weight of the article MC being contained in transport shelf T.The position of vibration isolation rubber part 25 can change according to the weight of article MC and form.The example of the material of amortisseur also includes the material of such as polyurethane foam etc in addition to rubber.Vibration isolation rubber part 25 is described more fully below.

Fig. 3 shows three belts 9 being attached to transport shelf T.A belt 9 in these three belt 9 is attached to the bracelet 12 of base plate 1.As shown in fig. 1, when transporting shelf T and being in use, be attached to the belt 9 of base plate 1 and stride across the front surface of article MC from the bottom of article MC and upper surface extends to afterframe 7(Fig. 3) outside (rear side), thus be wound around article MC.The end of other two belt 9 is attached to afterframe 7.As shown in fig. 1, when transporting shelf T and being in use, belt 9 strides across the right surface of article MC, front surface and left surface from the rear side of article MC and extends, thus is wound around article MC.

Fig. 4 A and Fig. 4 B shows the structure of each belt 9.Fig. 4 A is the side view of belt 9, and Fig. 4 B is the plane graph of belt 9.

These three belt 9 has the same shape and dimensions.The major part of each belt 9 is made up of fabric, is attached with annular bracelet 91 in the end of each belt 9.A surface of each belt 9 is disposed with the ring 92 of loop fasteners and the hook 93 of loop fasteners, ring 92 and hook 93 are spaced apart.Total length X1 of each belt 9 periphery (circle) than the article MC being likely to be positioned on transport shelf T is long.Total length X1 of belt 9 be enough to tackle the size of the most large-scale printer, and is the most about 2680mm.The width Y1 of belt 9 is of about 200mm.As shown in fig. 1, the belt 9 that item MC is wound around is folded back to (seeing Fig. 4) at their bracelet 91, and when ring 92 and hook 93 are bound to each other, article MC is fastened and is fixed to afterframe 7 by belt 9 and supports platform 2.The thickness Z1 of the thick (ring 92 and hook 93 are arranged at this part) of each belt 9 is of about 5mm.

The axonometric chart of transport shelf T when Fig. 5 is in terms of the back lower place.Fig. 6 is the front view of transport shelf T.Fig. 7 transports the right side view of shelf T.Fig. 8 is the plane graph of transport shelf T.So that clear in structure is visible, Fig. 5 to Fig. 8 shows the transport shelf T that top board 8 and belt 9 are removed.Fig. 5 and Fig. 6 shows the transport shelf T that base plate 1 is also removed.Fig. 7 show in phantom article MC and base plate 1.

With reference to Fig. 3 and Fig. 5 to Fig. 8, will be described with transporting the structure of shelf T.The shaft that support platform 2, front pillar 3, rear pillar 4, the back rest 5, curb girder 6 and the afterframe 7 of transport shelf T are made up of the metal of such as ferrum etc is formed.More specifically, these elements are by combining iron pipe with welding or alternate manner and formed.

Support platform and the structure of afterframe

Presently describe support platform 2 and the structure of afterframe 7.Support platform 2 include three first support members 21(21a, 21b and 21c), three vertical portions 22(22a, 22b and 22c) and three second support members 23(23a, 23b and 23c).First, the first support member 21a of left side L-shaped section, vertical portion 22a and the second support member 23a constituting support platform 2 will be described.First support member 21a is placed on the floor (not shown) arranging transport shelf T and extends with floor the most distally B proximad F.Vertical portion 22a is fixed to the nearside F end of the first support member 21a and stands upright on this end of the first support member 21a.The nearside F end of the second support member 23a is fixed to the upper end of vertical portion 22a, and the second support member 23a starts from the upper end of vertical portion 22a to extend with floor the most proximally F distad B.Base plate 1 is fixed to the top of the second support member 23a.First support member 21a, vertical portion 22a and the second support member 23a are arranged to be collectively forming the U-shaped of accumbency.Second support member 23a is the cantilever supported by the upper end of vertical portion 22a.First support member 21c, vertical portion 22c and the second support member 23c constitute support platform 2 with left side section, there is the right side Zone R section of same configuration.First support member 21b, vertical portion 22b and the second support member 23b constitute the centre portion between left side L and right side R supporting platform 2, and this centre portion has the structure identical with left side section.

A pair front pillar 3 stands upright on support platform 2 at the left side L and right side R of nearside F by being supported by support platform 2.A pair rear pillar 4 stands upright on support platform 2 at the left side L and right side R of distally B by being supported by support platform 2.More specifically, in the middle of this pair front pillar 3, the D end, downside of left side L front pillar 3 is fixed to vertical portion 22c and is fixed to the nearside F end of left side L the first support member 21a.The D end, downside of right side R front pillar 3 is fixed to vertical portion 22c and is fixed to the nearside F end of right side R the first support member 21c.

To the B end, distally of three first support members 21a, 21b and 21c that longeron 24 the most upright for upside U is attached to including left first support member 21a and right first support member 21c.The B end, distally of first support member 21a, 21b and 21c is linked together by longeron 24.Longeron 24 is arranged closer to distally B than base plate 1.The peak of upright longeron 24 is positioned at above base plate 1.The lower end of a pair rear pillar 4 is fixed to the top of longeron 24.Hereinafter, it is referred to as the first support member 21, vertical portion 22 and the second support member 23 by forming the element supporting the left section of platform 2, right section and centre portion.

Afterframe 7 is fixed to the B end, distally of second support member 23a, 23b and 23c, and generally vertically stands upright on this end.The back rest 7 includes multiple pipe, and these pipes interfix and are arranged to form the flat surfaces that intersect substantially vertical with fore-and-aft direction FB.

As it is shown in fig. 7, the second support member 23 supporting platform 2 supports article MC, wherein base plate 1 is between the second support member 23 and article MC, and afterframe 7 supports article MC, and wherein buffer component 71(sees Fig. 3) between afterframe 7 and article MC.Belt 9 is utilized to be maintained on the second support member 23 and afterframe 7 by article MC.Second support member 23 and afterframe 7 are used as the cantilever supported by the upper end of vertical portion 22.Afterframe 7 is supported by supporting platform 2.By this structure, when transporting the external force that shelf T is subject to such as impact etc, support the first support member 21 of platform 2, vertical portion 22 and the second support member 23 elastic deformation, and keep second support member 23 of article MC and afterframe 7 to move independent of the first support member 21 being positioned on floor.More specifically, the second support member 23 and afterframe 7 move, thus rotate on above-below direction UD and left and right directions LR in limited angular range around vertical portion 22.In the transport shelf T according to this illustrative embodiments, external impact is absorbed by the elastic deformation of the first support member 21, vertical portion 22 and the second support member 23.So, compared with the situation that transport shelf T does not have cantilever design, the impact that transport shelf T transmits to article MC is less.Thus, transport shelf T can be additionally used in the Container Transport of such as article MC.

The elastic deformation of the first support member 21, vertical portion 22 and the second support member 23 that impact is also made of metal absorbs.Owing to metal has bigger elastic modelling quantity than elastomeric material, therefore with transport shelf T, only there is the situation of the amortisseur that such as rubber is made compared with, the second support member 23 and the afterframe 7(of transport shelf T thus article MC) distance of mobile (or displacement) is less.Especially, compared with the situation instead of using the amortisseur being made up of such as rubber, more difficult generation on left and right directions LR excessively moves (displacement).

Vibration isolation rubber part 25(sees Fig. 7) it is plugged between the first support member 21 and the second support member 23.The load of vibration isolation rubber part 25 supplementary support article MC or the load on above-below direction UD.Compared with the situation that transport shelf T does not include vibration isolation rubber part 25, (present invention's) transport shelf T more likely prevents the first support member 21, vertical portion 22 and the second support member 23 excessive deformation and vibration.

It is disposed with a pair vibration damper 41 at the left side L and right side R of afterframe 7.Each vibration damper 41 is formed by bending L-shaped by metallic plate, and is arranged to the left outer surface towards afterframe 7 or outer surface, wherein has gap between himself and described outer surface.Vibration damper 41 is individually secured to rear pillar 4.Vibration damper 41 suppresses the left and right LR of the B end, distally of the second support member 23 to vibrate.This prevent afterframe 7 to contact with outer goods due to undue oscillation with the second support member 23, or prevent support platform 2 from deforming.

In the transport shelf T according to this illustrative embodiments, vertical portion 22 is arranged in the nearside F supporting platform 2, and the nearside F end of the first support member 21 and the second support member 23 is fixed to vertical portion 22.In other words, the cantilever including the second support member 23 is supported by the vertical portion 22 of the nearside F being arranged in transport shelf T.When being placed on by article MC on transport shelf T or remove from transport shelf T, the vertical position (orientation) of the second support member 23 changes according to the weight of article MC and changes.Here, owing to including that the cantilever of the second support member 23 is supported, so the height that the second support member 23 is apart from floor is less than at distally B at the intensity of variation of nearside F at the nearside F of transport shelf T.Thus, base plate 1 the height (by nearside F, article MC being placed on transport shelf T upper or remove from transporting shelf T) of nearside F intensity of variation than this cantilever in the case of distally B, left side L or right side R are supported the least.This is easy to be placed on article MC on transport shelf T and removes from transport shelf T.According to the weight of the article MC being contained in transport shelf T, the second support member 23 moves down bigger distance at distally B than at nearside F.So, the load of article MC more likely act on be disposed with afterframe 7 and with place and remove article MC process contrary for nearside F distally B on.Thus, situation about being supported at distally B, left side L or right side R compared to cantilever, article MC is more stably placed.

Pillar and the structure of beam

The structure of the outside framework of transport shelf T will be described.

In transport shelf T, front pillar 3 is arranged in rear pillar 4 and the four of article MC positions that corner is corresponding (seeing Fig. 1), and the back rest 5 and curb girder 6 are arranged in above article MC.Front pillar 3, rear pillar 4, curb girder 6, the back rest the 5, first support member 21 and longeron 24 constitute outside framework structural member E, and this outside framework structural member E defines the profile of transport shelf T.

The pair of front pillar 3 is arranged at the left-right parts of the nearside F supporting platform 2, and extends as the crow flies on above-below direction UD.This pair front pillar 3 is by by supporting the first support member 21 of platform 2 and vertical portion 22 supports and upright.

The pair of rear pillar 4 is arranged at the left-right parts of the distally B supporting platform 2, and extends as the crow flies on above-below direction UD.This pair rear pillar 4 is by being supported and upright via the longeron 24 supporting platform 2 by the first support member 21.More specifically, rear pillar 4 stands upright on longeron 24, and longeron 24 stands upright on the B end, distally of the first support member 21.

The back rest 5 is arranged in distally B and extends on left and right directions LR.The pair of rear pillar 4 is connected with each other by the back rest 5.The back rest 5 is fixed to the top of this pair rear pillar 4.Two ends of the back rest 5 extend over this pair rear pillar 4 on left and right directions LR.

The leading section of curb girder 6 is fixed to the top of front pillar 3, and curb girder 6 extends towards distally B.The rearward end of curb girder 6 is individually secured to the left and right end of the back rest 5.So, curb girder 6 is fixed to rear pillar 4 by means of the left and right end of the back rest 5.

Size relationship

Presently describe the size of each several part of transport shelf T.Fig. 6 and Fig. 8 shows the dimension line of the size representing each several part.Fig. 9 is the plane graph of the transport shelf T being provided with top board 8.In the figure, J1 represents the distance between the outer surface of a pair front pillar 3 on left and right directions LR, J2 represents the distance between the outer surface of a pair curb girder 6 on left and right directions LR, J3 represents the distance between the inner surface of a pair front pillar 3 on left and right directions LR, J4 represents the distance between the inner surface of a pair curb girder 6 on left and right directions LR, J5 represents the distance between the outer surface of a pair rear pillar 4 on left and right directions LR, J6 represents the distance between the inner surface of a pair rear pillar 4 on left and right directions LR, J7 represents the afterframe 7 external dimensions on left and right directions LR, J8(sees Fig. 8) represent the base plate 1 width on left and right directions LR, and J9(sees Fig. 9) represent the top board 8 width on left and right directions LR.

A pair rear pillar 4 of the transport shelf T according to this illustrative embodiments is positioned in when front side more inner than a pair front pillar 3, as shown in Figure 6.In other words, distance J5 between the outer surface of a pair rear pillar 4 is less than distance J3 between the inner surface of a pair front pillar 3.And, distance J4 between the inner surface of a pair curb girder 6 is more than distance J5 between the outer surface of a pair rear pillar 4, but is less than distance J3 between the inner surface of a pair front pillar.

Distance J3 between the longeron 24 inner surface being smaller in size than a pair front pillar 3 on left and right directions LR.The base plate 1 width J8 on left and right directions LR is substantially equal to the longeron 24 size on left and right directions LR.So, the width J8 of base plate 1 is less than distance J3 between the inner surface of a pair front pillar 3.The afterframe 7 external dimensions J7 on left and right directions LR is less than distance J5 between the outer surface of a pair rear pillar 4.It addition, afterframe 7 is arranged on left and right directions LR and does not extend over this to rear pillar 4 towards distally B.

Specifically, in the transport shelf T according to this illustrative embodiments, meet relational expression J1 ＞ J2 ＞ J3 ＞ J4 ＞ J5 ＞ J6 ＞ J7.

Transport shelf T when Fig. 8 shows seen from above.In fig. 8, the left and right lateral margin of the base plate 1 of transport shelf T is shown by dashed lines at curb girder 6 rear.Base plate 1 has the width J8 on left and right directions LR, as transport shelf T viewed from above, this width J8 less than transport shelf T outside framework structural member E(do not include base plate 1) external dimensions.Base plate 1 is arranged on left and right directions LR not extending over outside framework structural member E.Front pillar 3 included in outside framework structural member E is arranged at the left-right parts of nearside F of base plate 1.The width J8 of base plate 1 is less than distance J1 between the outer surface of a pair front pillar 3.Longeron 24 included in outside framework structural member E is arranged to than base plate 1 closer to distally B.The width J8 of base plate 1 is substantially equal to the longeron 24 size on left and right directions LR.In other words, the width J8 of base plate 1 is less than distance J3 between the inner surface of a pair front pillar 3.

The top board 8 width J9(on left and right directions LR sees Fig. 9) less than distance J2 between the outer surface of a pair curb girder 6, but it is greater than distance J4 between the inner surface of a pair curb girder 6.The width J9 of top board 8 is less than distance J3 between the inner surface of a pair front pillar 3.

Distance J1 between the outer surface of a pair front pillar 3 according to this illustrative embodiments is maximum in transport shelf T on left and right directions LR.Preferably, distance J1 between the outer surface of a pair front pillar 3 is containing 700mm from about 700mm() contain 800mm to about 800mm() in the range of.

When distance J1 between the outer surface of a pair front pillar 3 is of about 700mm or bigger and each front pillar 3 size in the lateral direction for about 30mm, transport shelf T can accommodate the width printer at about below 640mm.In sea-freight, most widely used container is 40 forty equivalent unit 40s (TEU (Twenty-foot Equivalent Unit)s).The inside dimension of 40 forty equivalent unit 40s is of about 12 meters long, and 2.34 meters wide, and 2.34 meters high.If transport shelf T full-size on left and right directions LR is of about 800mm or less, then distance J2 between the outer surface between a pair curb girder 6 is of about 760mm.So, three transport shelf T can embark on journey and be contained in width abreast and be of about in 40 forty equivalent unit 40s of 2.34 meters.Here, full-size is 800mm, and its three times is 2.4m, and this has exceeded the width of container.But, by making one of them transport shelf T offset so that three pairs of front pillars 3 do not line up each other on fore-and-aft direction FB, can be arranged side by side with embarking on journey by three transport shelf T, the distance between the outer surface of every pair of front pillar 3 is transport shelf T ultimate range on left and right directions LR.But, one in three the transport shelf T being arranged side by side in container owing to embarking on journey offsets on fore-and-aft direction FB, and transport shelf T should be loaded in container or bring restriction from the order of container unloading by the most above-mentioned layout.Here, if distance J1(between the outer surface of a pair front pillar 3 is i.e., the full-size of transport shelf T) be 770mm or less, then can avoid this restriction.

The height transport shelf T less than 2.34m can be accommodated in container.If highly less than 1.1m, then can be by two transport shelf T mounted on top.

Will be shown below the example of size of each several part of transport shelf T according to this illustrative embodiments, but the size of each several part of transport shelf T is not limited to these examples.

Distance J1:800mm between the outer surface of a pair front pillar 3

Distance J2:760mm between the outer surface of a pair curb girder 6

Distance J3:740mm between the inner surface of a pair front pillar 3

Distance J4:700mm between the inner surface of a pair curb girder 6

Distance J5:690mm between the outer surface of a pair rear pillar 4

Distance J6:570mm between the inner surface of a pair rear pillar 4

External dimensions J7:560mm of afterframe 7

The base plate 1 width J8:720mm on left and right directions LR

The top board 8 width J9:720mm on left and right directions LR

Each front pillar 3 size on left and right directions LR is 30mm, and each rear pillar 4 size on left and right directions LR is 60mm.It addition, the example of the size being illustrated below on above-below direction UD and fore-and-aft direction FB.

Height overall H1:1320mm

The height H2:133mm of the upper surface of 1 from floor to base plate

Height H3:900mm from the upper surface of base plate 1 to the peak of afterframe 7

Gap H4(between each first support member 21 and corresponding second support member 23 of support platform 2, when not having bearing article MC, sees Fig. 7): 55mm

Overall length K1:950mm

In the transport shelf T according to this illustrative embodiments, front pillar 3 and rear pillar 4 extend on above-below direction UD.So, when by when having top that mutually isostructural different transport shelf T overlays this transport shelf T, this transport shelf T supports described different transport shelf T from below.Thus, the multiple transport shelf T being all placed with article MC can be according to the capacity of parking space by mounted on top.

Not only it was fixed to base plate 1 but also had been fixed to the article MC of afterframe 7 supported by the second support member 23 forming cantilever design.So, article MC moves independent of constituting the front pillar 3 of outside framework structural member E, rear pillar 4, the back rest 5, curb girder 6 and the first support member 21.So, compared with the situation that transport shelf T does not have cantilever design, the external impact that transport shelf T passes to article MC is less.

As transport shelf T seen from above, be placed with the base plate 1 of article MC size J8 on left and right directions LR and do not include base plate 1 less than the outside framework structural member E(of transport shelf T) external dimensions.Base plate 1 is arranged on left and right directions LR not extending over outside framework structural member E.When the transport shelf T with said structure knocks outer goods, it is therefore prevented that base plate 1 is directly clashed into by outer goods.For fixing distance J5 between the afterframe 7 of article MC external dimensions J7 on the left and right directions LR outer surface less than a pair rear pillar 4, afterframe 7 is arranged in the lateral direction or does not the most extend over a pair rear pillar 4 towards distally B.Thus, it is therefore prevented that afterframe 7 is directly clashed into by outer goods.

Vacant transport shelf

Remove the vacant transport shelf T of article MC in destination and return to departure place to reuse, or leave somewhere in.In this case, the top board 8 of transport shelf T is removed and is placed on base plate 1 from curb girder 6 to be accommodated in transport shelf T.

Top board 8 width J9(Fig. 9 on left and right directions LR) more than distance J4 between the inner surface of a pair curb girder 6, but it is less than distance J3 between the inner surface of a pair front pillar 3.Thus, when transporting shelf T and being in use, top board 8 is arranged on a pair curb girder 6.When transporting shelf T and not using, by top board 8 being placed on base plate 1 in transport shelf T is inserted in top board 8 proximally F space between a pair front pillar 3.

Belt 9 is wound around to deposit around afterframe 7.

Figure 10 is wound around the sectional view of the afterframe 7 of belt 9.

Belt 9 is wound around repeatedly around afterframe 7.Afterframe 7 is erected into has clearance G 1 between himself and each rear pillar 4.Clearance G 1 is dimensioned such that, i.e. can accommodate the belt 9 being wound around around afterframe 7.When external dimensions J7(of such as afterframe 7 sees Fig. 6) total length X1(that is of about 560mm and belt 9 sees Fig. 4) when being of about 2680mm, belt 9 is wound around almost three circle around afterframe 7.When the thickness Z1(of the thick of belt 9 sees Fig. 4) when being of about 5mm, the maximum gauge of three overlapping layers of belt 9 is of about 15mm.So, the clearance G 1 of about 20mm or bigger can accommodate the belt 9 being wound around around afterframe 7.The clearance G 1 being about 25mm or bigger can accommodate belt 9 with enough spatial margin.The clearance G 1 being about 30mm or less allows external dimensions J7 of afterframe 7 to be large enough to support article MC.

For the multiple vacant transport shelf T of consolidated delivery, in a nesting relation by multiple transport shelf T mounted on top.Specifically, the first transport shelf T insertion is had in mutually isostructural second transport shelf T.When being inserted in the second transport shelf T by the first transport shelf T, the platform 2 that supports of the first transport shelf T is placed on the base plate 1 of the second transport shelf T (more specifically, being placed on the top board 8 on the base plate 1 being placed in the second transport shelf T).It is to say, the first transport shelf T is lifted higher than being arranged on the base plate supported on platform 2 of the second transport shelf T and the position above top board 8 always, and proximally F distad B inserts the second conveying shelf T.When making belt 9 be wound around around corresponding afterframe 7 by multiple transport shelf T mounted on top.

Figure 11 is the plane graph of the process being inserted in another transport shelf by a transport shelf.Figure 11 shows two transport shelf T1 and T2.Transport shelf T1 with T2 has the identical structure described in the described illustrative embodiments, and has same orientation.Figure 11 shows that the transport shelf T2 of the downside that will be located in Figure 11 promotes and be inserted into the process of the transport shelf T1 of the upside being positioned at Figure 11.

In each transport shelf T1 and T2, between the outer surface of a pair rear pillar 4, the distance on left and right directions LR is less than the distance on left and right directions LR between the inner surface of pair of side frames 6.So, a pair rear pillar 4 of the transport shelf T2 of the downside of Figure 11, through the space a pair curb girder 6 of the transport shelf T1 of the upside of Figure 11, moves towards the distally B of the transport shelf T1 of the upside of Figure 11.Each transport shelf T(T1 and T2 according to this illustrative embodiments) in, afterframe 7 all stands upright on and (sees Fig. 3) on the support platform 2 of distally located B.So, the afterframe 7 of the transport shelf T1 being positioned at the upside of Figure 11 will not stop that the transport shelf T2 of the downside being positioned at Figure 11 inserts transport shelf T1.Thus, transport shelf T(T1 and T2) can mounted on top in a nesting relation.

Figure 12 shows the axonometric chart of six transport shelves of mounted on top in a nesting relation.

Multiple transport shelf T can mounted on top the most in a nesting relation.When transporting shelf T after usage and reclaim, transport shelf T leaves in the parking space that the space occupied when being used to transport article MC than transport shelf T is little.Transport shelf T is used as transport shelf and storage shelf.And, transport shelf T occupies less parking space when being recovered after usage.It reduce transport and deposit cost.As shown in Figure 12, multiple transport shelf T mounted on top when top board 8 is respectively placed on base plate 1.

Although Figure 12 is shown in which to stack the example of six transport shelves, but can be in a nesting relation by the transport shelf mounted on top of any feasible number.

In this illustrative embodiments, two ends on left and right directions LR are all extended over the example that the back rest 5 of a pair rear pillar 4 is described as first beam of the present invention, and a pair curb girder 6 that the left and right end portions by means respectively of the back rest 5 is fixed to a pair rear pillar 4 is described as the example of a pair second beams of the present invention.But, the present invention is not limited to these examples, and these a pair second beams can be directly fixed to this pair rear pillar 4.

In this illustrative embodiments, the afterframe 7 formed by combining multiple pipes is described as the example of the supporting member of the present invention.But, the present invention is not limited to this example, it is also possible to be made up of such as plate.

In this illustrative embodiments, will be made up and have the example that the belt 9 of loop fasteners is described as the ribbon-shaped members of the present invention of fabric.But, the present invention is not limited to this example.The example of ribbon-shaped members includes rubber strip and has the band of hook rather than loop fasteners.The width of ribbon-shaped members is the biggest not necessarily like the width of belt, it is also possible to little as the width of rope yarn.

Purpose in order to illustrate and describe describes the foregoing description of the illustrative embodiments of the present invention.Its purpose is not exhaustive or limit the invention to exact form disclosed.Obviously, many modifications and variations will be apparent from for a person skilled in the art.Selecting and describing described embodiment is in order to the principle of the present invention and actual application thereof are better described, so that skilled artisans appreciate that the present invention and expect various embodiment and be suitable for the various amendments of contemplated concrete application.The scope of the present invention ought to be limited by claims and equivalent thereof.

Claims (16)

1. a filling structure part, this filling structure part includes:

Base plate, article are placed on which floor plate；

Supporting platform, this support platform is from base plate described in the supported underneath of described base plate, thus is risen to above floor by described base plate；

A pair first posts, these a pair first posts stand upright on described support platform at nearside left half and nearside right half respectively when being supported by described support platform；

A pair second posts, these a pair second posts stand upright on described support platform at distally left half and distal right part when being supported by described support platform respectively, and when watching this filling structure part from front, these a pair second posts are positioned at inside than these a pair first posts；

The distally being positioned at described filling structure part the first beam extended in the lateral direction, described first beam is fixed to the top of the pair of second post；

A pair second beams, these a pair second beams are respectively provided with leading section and rearward end and towards described distal extension, the top of one the first post of correspondence that the described leading section of each second beam is connected in described first post, corresponding second post that the described rearward end of each second beam directly or is fixed in described second post via the corresponding one end in the left end of described first beam and right-hand member, the distance between the inner surface of the pair of second beam is more than the distance between the outer surface of the pair of second post；And

Supporting member, this supporting member stands upright on described support platform in described distally, and described support member support is placed on the distal surface of the article on described base plate,

Wherein, the distance between the inner surface of the pair of second beam is more than the distance between the outer surface of the pair of second post, but is less than the distance between the inner surface of the pair of first post；And

Wherein, described filling structure part includes the top board being arranged on the pair of second beam, distance between this top board inner surface being smaller in size than the pair of first post in the lateral direction, but being greater than the distance between the inner surface of the pair of second beam, described top board can be placed on described base plate.

Filling structure part the most according to claim 1, wherein, described supporting member is erected into so that having gap between described supporting member and each described second post, this gap can accommodate the ribbon-shaped members being wound around around described supporting member, and the article being placed on described base plate utilize this ribbon-shaped members to fix.

Filling structure part the most according to claim 1, wherein, this filling structure part full-size in the lateral direction is in the range of from 700mm to 800mm.

Filling structure part the most according to claim 2, wherein, described filling structure part full-size in the lateral direction is in the range of from 700mm to 800mm.

Filling structure part the most according to claim 1, wherein, distance between the described supporting member outer surface being smaller in size than the pair of second post in the lateral direction, and this supporting member is arranged in the lateral direction and does not the most extend over the pair of second post towards distally.

Filling structure part the most according to claim 2, wherein, distance between the described supporting member outer surface being smaller in size than the pair of second post in the lateral direction, and this supporting member is arranged in the lateral direction and does not the most extend over the pair of second post towards distally.

Filling structure part the most according to claim 3, wherein, distance between the described supporting member outer surface being smaller in size than the pair of second post in the lateral direction, and this supporting member is arranged in the lateral direction and does not the most extend over the pair of second post towards distally.

Filling structure part the most according to claim 4, wherein, distance between the described supporting member outer surface being smaller in size than the pair of second post in the lateral direction, and this supporting member is arranged in the lateral direction and does not the most extend over the pair of second post towards distally.

Filling structure part the most according to claim 1, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

Filling structure part the most according to claim 2, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

11. filling structure parts according to claim 3, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

12. filling structure parts according to claim 4, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

13. filling structure parts according to claim 5, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

14. filling structure parts according to claim 6, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

15. filling structure parts according to claim 7, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.

16. filling structure parts according to claim 8, wherein, when described filling structure part seen from above, the external dimensions of the described base plate not outside framework structural member including described base plate being smaller in size than described filling structure part in the lateral direction, and described base plate is arranged to not extend over described outside framework structural member.