CN214398151U - Container capable of being spliced - Google Patents

Abstract

The utility model discloses a container which can be spliced, comprising a box body and splicing components, wherein the box body is enclosed by corner posts (101), a top beam (102), a bottom beam (103) and side plates; the splicing part is of a rectangular frame structure, and the top of the splicing part is fixed with the top beam (102); the bottom of the splicing part is fixed with the bottom beam (103); the side part of the splicing part is fixed with the corner post (101); the utility model provides a container that can splice, but the great combination box of also a plurality of container box of exclusive use formation through the concatenation, alright satisfy the requirement of different usage to the container size. The utility model provides a container that can splice owing to increased the strengthening frame, has the bearing performance of preferred, and the fastness is better.

Description

Container capable of being spliced

Technical Field

The utility model relates to a container that can splice.

Background

With the development of socio-economic, containers are more and more brought into the view of the public. The container has significant advantages in cost, construction efficiency, solution platform, and the like. In recent years, the application field of containers is more and more extensive, and the containers can be used in the fields of storage, temporary buildings, movable houses, equipment loading and energy storage. With different application fields of the containers, different requirements are put on the size of the container body. The existing container with standard size can not meet the requirement of the container size under various purposes. If a container is designed, the container can be spliced according to use requirements, and a plurality of container bodies can be used independently to form a large combined body through splicing, so that the requirements of different purposes on the size of the container can be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a container which can be spliced, comprising a box body and splicing components which are enclosed by corner posts (101), a top beam (102), a bottom beam (103) and side plates; the splicing part is of a rectangular frame structure, and the top of the splicing part is fixed with the top beam (102); the bottom of the splicing part is fixed with the bottom beam (103); the side of the splicing part is fixed with the corner post (101).

Optionally, the splicing component includes a splicing clamping groove and a reinforcing frame; the reinforcing frame is an inverted U-shaped frame structure formed by welding rectangular square tubes; the back of the splicing clamping groove is fixed on the reinforcing frame.

Optionally, the reinforcing frame comprises two vertical pipes (202) and a top transverse pipe; a first set distance is arranged between the outer surface of the vertical pipe (202) and the outer surface of the corner post (101); the outer surface of the top cross tube and the outer surface of the top beam (102) have a second set distance therebetween.

Optionally, the top cross tube is fixed to the bottom of the top beam (102); two vertical pipes (202) of the reinforcing frame are respectively fixed with the two corner columns (101).

Optionally, the reinforcing frame is of a square tube structure; a square tube reinforcing plate (203) is arranged in the inner cavity of the reinforcing frame.

Optionally, the cross section of the splicing clamping groove is U-shaped.

Optionally, the container includes a first end portion and a second end portion, and the splicing card slot disposed at the first end portion is a first end portion splicing card slot; the splicing clamping groove arranged at the second end part is a second end part splicing clamping groove; the first end splicing clamping groove comprises a first top transverse groove (20101), a first bottom transverse groove (20102), a first vertical groove (20103) and a second vertical groove (20104); the second end splicing clamping groove comprises a second top transverse groove (20105), a second bottom transverse groove (20106), a third vertical groove (20107) and a fourth vertical groove (20108); at least one of the first top transverse groove (20101), the first bottom transverse groove (20102), the first vertical groove (20103), the second vertical groove (20104), the second top transverse groove (20105), the second bottom transverse groove (20106), the third vertical groove (20107) and the fourth vertical groove (20108) is provided with a flanging edge.

Optionally, the folding edges include a first folding edge folded inwards and/or a second folding edge folded outwards.

Optionally, the first top transverse groove (20101), the first vertical groove (20103), the second vertical groove (20104), the second top transverse groove (20105), the third vertical groove (20107) and the fourth vertical groove (20108) are all provided with first flanging edges and are not provided with second flanging edges; the first bottom transverse groove (20102) is provided with a second flanging edge but not a first flanging edge; the second bottom transverse groove (20106) is provided with a first flanging edge and a second flanging edge; or the like, or, alternatively,

the first top transverse groove (20101), the first vertical groove (20103), the second vertical groove (20104), the second top transverse groove (20105), the third vertical groove (20107) and the fourth vertical groove (20108) are provided with first turned edges and are not provided with second turned edges; the first bottom transverse groove (20102) and the second bottom transverse groove (20106) are both provided with a first turning edge and a second turning edge.

Optionally, the container includes a first side portion and a second side portion, and the splicing card slot disposed on the first side portion is a first side portion splicing card slot; the splicing clamping groove arranged on the second side portion is a second side portion splicing clamping groove; the first side splicing clamping groove comprises a first top longitudinal groove (20109), a first bottom longitudinal groove (20110), a fifth vertical groove (20111) and a sixth vertical groove (20112); the second side splicing clamping groove comprises a second top longitudinal groove (20113), a second bottom longitudinal groove (20114), a seventh vertical groove (20115) and an eighth vertical groove (20116); the first bottom longitudinal groove (20110) and the second bottom longitudinal groove (20114) are provided with a first turning edge which turns inwards and a second turning edge which turns outwards.

Optionally, the first flanging edge and the second flanging edge are both right-angle flanging edges.

Optionally, a U-shaped reinforcing plate (104) and a horizontal reinforcing plate (105) are arranged in the inner cavity of the top beam (102); the horizontal reinforcing plate (105) is arranged at the top of the U-shaped reinforcing plate (104) and forms a square reinforcing structure with the U-shaped reinforcing plate (104); the square reinforcing structure is attached to the inner surface of the top beam (102).

Optionally, the back of the first bottom transverse groove (20102), the back of the second bottom transverse groove (20106), the back of the first bottom longitudinal groove (20110), and the back of the second bottom longitudinal groove (20114) are all fixed on the outer surface of the bottom beam (103); the top cross tube outer surface (20201) is flush with the bottom beam outer surface (10301).

Optionally, the utility model provides a container that can splice still includes corner fittings (106), the surface of floorbar (103) with the third is set for the distance between the surface of corner fittings (106), first settlement distance reaches the size that the second was set for the distance all is less than the third is set for the distance.

Optionally, the bottom beam comprises a bottom longitudinal beam (1031) and a plurality of C-shaped bottom cross beams (30), and two ends of each C-shaped bottom cross beam (30) are respectively connected with the bottom longitudinal beam (1031); and a through hole (31) is formed in the position, close to the end, of each C-shaped bottom cross beam (30), and the through hole (31) extends along the length direction of the container.

The utility model provides a container that can splice, but the great combination box of also a plurality of container box of exclusive use formation through the concatenation, alright satisfy the requirement of different usage to the container size. The utility model provides a container that can splice owing to increased the strengthening frame, has the bearing performance of preferred, and the fastness is better.

Drawings

Fig. 1 is a sectional top view of a splicable container according to an embodiment of the present invention;

fig. 2 is a sectional side view of a splittable container according to an embodiment of the invention;

fig. 3 is a sectional side view of the bottom of a container according to an embodiment of the present invention;

fig. 4 is another bottom sectional side view of a spliceable container according to an embodiment of the invention;

FIG. 5 is an enlarged partial view of the first bottom longitudinal channel at the first bottom longitudinal channel location shown in FIG. 4;

fig. 6 is another sectional side view of a container capable of being spliced according to an embodiment of the present invention;

fig. 7 is a structural diagram of a second top transverse groove, a top beam and a top transverse pipe of a container capable of being spliced according to an embodiment of the invention;

fig. 8 is a sectional view of a second end of a container according to an embodiment of the present invention;

fig. 9 is a schematic view of a C-shaped bottom frame structure of a container capable of being spliced according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

With reference to fig. 1 and fig. 2, the present embodiment provides a spliceable container, which includes a container body surrounded by corner posts 101, a top beam 102, a bottom beam 103, and side plates, and splicing components; the splicing part is of a rectangular frame structure, and the top of the splicing part is fixed with the top beam 102; the bottom of the splicing part is fixed with the bottom beam 103; the sides of the splicing part are fixed to the corner posts 101. It will be appreciated by those skilled in the art that two or more containers provided with splicing elements can be combined and secured by the splicing elements of the frame structure to splice two or more container bodies into a body of larger dimensions.

The splicing component comprises a splicing clamping groove and a reinforcing frame; the reinforcing frame is an inverted U-shaped frame structure formed by welding rectangular square tubes; the back of the splicing clamping groove is fixed on the reinforcing frame.

The reinforcing frame comprises two vertical pipes 202 and a top transverse pipe; a first set distance is reserved between the outer surface of the vertical pipe 202 and the outer surface of the corner post 101, and the space with the first set distance can accommodate a splicing clamping groove arranged on the vertical pipe 202; a second set distance is provided between the outer surface of the top cross tube and the outer surface of the top beam 102, and the space of the second set distance can accommodate the splicing clamping groove arranged on the top cross tube. As can be understood by those skilled in the art, since the outer surface of the reinforcing frame is spaced from the corner posts 101 and the top beam 102, so that mutually perpendicular L-shaped welding surfaces are formed between the outer surface of the reinforcing frame and the corner posts 101 and the outer surface of the reinforcing frame and the top beam 102, and the splicing clamping grooves are welded and fixed through the L-shaped welding surfaces, the firmness of the clamping groove connection can be further increased.

The top cross tube is fixed to the bottom of the top beam 102; two vertical tubes 202 of the reinforcing frame are respectively fixed with the two corner posts 101. As can be understood by those skilled in the art, the reinforcing frame can increase the overall strength of the container body on the one hand, and can more firmly connect the splicing clamping grooves with the container body on the other hand, so that the splicing parts of the container described in this embodiment have better load-bearing performance.

In this embodiment, the reinforcing frame is a square tube structure. In other embodiments, other reinforcing structures may be provided.

Referring to fig. 7 and 8, a square tube reinforcing plate 203 is arranged in the inner cavity of the reinforcing frame. As will be appreciated by those skilled in the art, the square tube reinforcing plate 203 can make the reinforcing frame structure more firm, and can have stronger bearing capacity in the container splicing process.

The cross section of the splicing clamping groove is U-shaped. The quick installation of division board when being convenient for follow-up equipment.

The container comprises a first end part and a second end part, and the splicing clamping groove arranged at the first end part is a first end part splicing clamping groove; the splicing clamping groove arranged at the second end part is a second end part splicing clamping groove; the first end splicing clamping groove comprises a first top transverse groove 20101, a first bottom transverse groove 20102, a first vertical groove 20103 and a second vertical groove 20104; the second end splicing clamping groove comprises a second top transverse groove 20105, a second bottom transverse groove 20106, a third vertical groove 20107 and a fourth vertical groove 20108; at least one of the first top transverse groove 20101, the first bottom transverse groove 20102, the first vertical groove 20103, the second vertical groove 20104, the second top transverse groove 20105, the second bottom transverse groove 20106, the third vertical groove 20107 and the fourth vertical groove 20108 is provided with a flanging edge.

The turning edge comprises a first turning edge which is turned inwards. It should be noted that inward is the part that faces into the contour of the container. The first turned edge and the splicing clamping groove can form a groove body with an inward opening, and the groove body with the inward opening can be used for arranging a splicing plate for splicing, so that the end part of a vehicle container is connected through the splicing plate. The inventors herein have identified or supplemented the use of an inwardly opening channel.

The flanging edge also comprises a second flanging edge which is outwards flanged. It should be noted that the outward direction is toward the outside of the contour of the container. As can be understood by those skilled in the art, a groove body with an outward opening can be formed between the second turned edges and the splicing groove, and when the containers provided by the two embodiments are butted through the side portions or the end portions, the two adjacent second turned edges respectively arranged on the two containers can form a groove structure for arranging the splicing plates, so that the two containers are connected through the splicing plates. This increases the robustness and stability of the splice. The inventors herein have identified or supplemented the use of outwardly opening channels.

The utility model discloses a preferred embodiment does: the first transverse top groove 20101, the first vertical groove 20103, the second vertical groove 20104, the second transverse top groove 20105, the third vertical groove 20107 and the fourth vertical groove 20108 are all provided with first flanging edges and are not provided with second flanging edges; the first bottom transverse groove 20102 is provided with a second flanging edge but is not provided with a first flanging edge; the second bottom transverse groove 20106 is provided with a first turning edge and a second turning edge.

Referring to fig. 2, a preferred embodiment of the present invention is: the first transverse top groove 20101, the first vertical groove 20103, the second vertical groove 20104, the second transverse top groove 20105, the third vertical groove 20107 and the fourth vertical groove 20108 are all provided with first flanging edges and are not provided with second flanging edges; the first bottom transverse groove 20102 and the second bottom transverse groove 20106 are both provided with a first turning edge and a second turning edge.

For example, the opening direction of the groove formed by the first flanging of the first top transverse groove 20101 and the top transverse pipe is opposite to the opening direction of the groove formed by the first flanging of the first bottom transverse groove 20102 and the bottom beam, and the opening directions are used for connecting the components in the box single body.

The opening direction of the groove formed by the first flanging edge of the second top transverse groove 20105 and the top transverse pipe is opposite to the opening direction of the groove formed by the first flanging edge of the second bottom transverse groove 20106 and the bottom beam, and the first flanging edge is used for connecting the inner parts of the box single body.

The opening directions of the bottom of the first top transverse groove 20101U-shaped groove, the bottom of the second top transverse groove 20101U-shaped groove, the bottom of the first bottom transverse groove 20102U-shaped groove and the bottom of the second bottom transverse groove 20106U-shaped groove face the outside of the container and are used for connecting the container body and the box body.

Of course, the above-mentioned splicing slots are not limited to the above-mentioned connection for illustration, and the protection scope of the present invention is only to realize the connection of the single inner parts of the containers or the connection between the containers.

Another preferred embodiment of the present invention is: the first transverse top groove 20101, the first vertical groove 20103, the second vertical groove 20104, the second transverse top groove 20105, the third vertical groove 20107 and the fourth vertical groove 20108 are all provided with first flanging edges and are not provided with second flanging edges; the first bottom transverse groove 20102 is provided with a second flanging edge but is not provided with a first flanging edge; the second bottom transverse groove 20106 is provided with a first turning edge and a second turning edge.

Referring to fig. 1, 4-6, the container includes a first side portion and a second side portion, and the splice card slot disposed at the first side portion is a first side portion splice card slot; the splicing clamping groove arranged on the second side portion is a second side portion splicing clamping groove; the first side splicing clamping groove comprises a first top longitudinal groove 20109, a first bottom longitudinal groove 20110, a fifth vertical groove 20111 and a sixth vertical groove 20112; the second side splice channel comprises a second top longitudinal channel 20113, a second bottom longitudinal channel 20114, a seventh vertical channel 20115 and an eighth vertical channel 20116; the first bottom longitudinal groove 20110 and the second bottom longitudinal groove 20114 are provided with a first folded edge that is folded inward and a second folded edge that is folded outward.

The first turned edge and the second turned edge are both right-angle turned edges. Those skilled in the art will appreciate that this may facilitate a more structurally compatible mating of the patch panel with the hem, and in other embodiments, other shapes of the hem may be used.

Referring to fig. 7, a U-shaped reinforcing plate 104 and a horizontal reinforcing plate 105 are provided in the inner cavity of the top beam 102; the horizontal reinforcing plate 105 is arranged at the top of the U-shaped reinforcing plate 104 and forms a square reinforcing structure with the U-shaped reinforcing plate 104; the square reinforcing structure is attached to the inner surface of the top beam 102. Those skilled in the art will appreciate that this increases the load bearing capacity of the header 102, thereby increasing the number of extensions for container splicing as much as possible.

The back of the first bottom transverse groove 20102, the back of the second bottom transverse groove 20106, the back of the first bottom longitudinal groove 20110 and the back of the second bottom longitudinal groove 20114 are all fixed on the outer surface of the bottom beam 103; the top cross tube outer surface 20201 is flush with the bottom rail outer surface 10301. Those skilled in the art will appreciate that this ensures that the first top transverse groove 20101 and the first bottom transverse groove 20102 are flush; the second top transverse groove 20105 and the second bottom transverse groove 20106 are flush; the first top longitudinal groove 20109 is flush with the first bottom longitudinal groove 20110; the second top longitudinal groove 20113 and the second bottom longitudinal groove 20114 are flush with each other. This allows, on the one hand, for aesthetic reasons and, on the other hand, better connection of the connecting elements to the container unit.

Referring to fig. 2, the container capable of being spliced provided by this embodiment further includes a corner fitting 106, a third set distance is provided between the outer surface of the bottom beam 103 and the outer surface of the corner fitting 106, and the first set distance and the second set distance are both smaller than the third set distance. As can be understood by those skilled in the art, the splicing slots are entirely embedded in the corner fittings 106, so that deformation and damage caused by collision of the splicing slots in the transportation, stacking and splicing assembly processes are avoided, and the splicing of the containers is further influenced.

Referring to fig. 9, the bottom beam includes a bottom longitudinal beam 1031 and a plurality of C-shaped bottom cross beams 30, and both ends of the C-shaped bottom cross beams 30 are respectively connected to the bottom longitudinal beam 1031; a through hole 31 is arranged at the position of each C-shaped bottom cross beam 30 close to the end part, and the through holes 31 on each bottom cross beam extend along the length direction of the container. It will be appreciated by those skilled in the art that the through-hole 31 may be used for cabling or for securing a facility at the bottom.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (15)

1. A container capable of being spliced is characterized by comprising a box body and splicing components, wherein the box body is formed by enclosing corner posts (101), a top beam (102), a bottom beam (103) and side plates; the splicing part is of a rectangular frame structure, and the top of the splicing part is fixed with the top beam (102); the bottom of the splicing part is fixed with the bottom beam (103); the side of the splicing part is fixed with the corner post (101).

2. The matable container of claim 1, wherein said mating components include a splice slot and a reinforcement frame; the reinforcing frame is an inverted U-shaped frame structure formed by welding rectangular square tubes; the back of the splicing clamping groove is fixed on the reinforcing frame.

3. The matable container of claim 2, wherein said reinforcing frame comprises two vertical tubes (202) and a top cross tube; a first set distance is arranged between the outer surface of the vertical pipe (202) and the outer surface of the corner post (101); the outer surface of the top cross tube and the outer surface of the top beam (102) have a second set distance therebetween.

4. The matable container of claim 3, wherein said top cross tube is secured to the bottom of said header (102); two vertical pipes (202) of the reinforcing frame are respectively fixed with the two corner columns (101).

5. The matable container of claim 4, wherein said reinforcing frame is a square tube structure; a square tube reinforcing plate (203) is arranged in the inner cavity of the reinforcing frame.

6. The matable shipping container of claim 5, wherein said splice pockets are U-shaped in cross-section.

7. The matable container of claim 6, wherein said container includes a first end and a second end, and wherein said splice slot disposed at said first end is a first end splice slot; the splicing clamping groove arranged at the second end part is a second end part splicing clamping groove; the first end splicing clamping groove comprises a first top transverse groove (20101), a first bottom transverse groove (20102), a first vertical groove (20103) and a second vertical groove (20104); the second end splicing clamping groove comprises a second top transverse groove (20105), a second bottom transverse groove (20106), a third vertical groove (20107) and a fourth vertical groove (20108); at least one of the first top transverse groove (20101), the first bottom transverse groove (20102), the first vertical groove (20103), the second vertical groove (20104), the second top transverse groove (20105), the second bottom transverse groove (20106), the third vertical groove (20107) and the fourth vertical groove (20108) is provided with a flanging edge.

8. The spliceable container of claim 7, wherein the flaps include an inwardly turned first flap and/or an outwardly turned second flap.

9. The spliceable container according to claim 8, wherein the first top transverse slot (20101), the first vertical slot (20103), the second vertical slot (20104), the second top transverse slot (20105), the third vertical slot (20107) and the fourth vertical slot (20108) are each provided with a first flanging edge and are each not provided with a second flanging edge; the first bottom transverse groove (20102) is provided with a second flanging edge but not a first flanging edge; the second bottom transverse groove (20106) is provided with a first flanging edge and a second flanging edge; or the like, or, alternatively,

the first top transverse groove (20101), the first vertical groove (20103), the second vertical groove (20104), the second top transverse groove (20105), the third vertical groove (20107) and the fourth vertical groove (20108) are provided with first turned edges and are not provided with second turned edges; the first bottom transverse groove (20102) and the second bottom transverse groove (20106) are both provided with a first turning edge and a second turning edge.

10. The matable container of claim 6, wherein said container includes a first side and a second side, and wherein said card slot disposed on said first side is a first side card slot; the splicing clamping groove arranged on the second side portion is a second side portion splicing clamping groove; the first side splicing clamping groove comprises a first top longitudinal groove (20109), a first bottom longitudinal groove (20110), a fifth vertical groove (20111) and a sixth vertical groove (20112); the second side splicing clamping groove comprises a second top longitudinal groove (20113), a second bottom longitudinal groove (20114), a seventh vertical groove (20115) and an eighth vertical groove (20116); the first bottom longitudinal groove (20110) and the second bottom longitudinal groove (20114) are provided with a first turning edge which turns inwards and a second turning edge which turns outwards.

11. The spliceable container of any of claims 8-10, wherein the first and second hems are right angle hems.

12. The matable shipping container of claim 11, wherein the top beam (102) has a U-shaped reinforcement panel (104) and a horizontal reinforcement panel (105) disposed within the interior cavity; the horizontal reinforcing plate (105) is arranged at the top of the U-shaped reinforcing plate (104) and forms a square reinforcing structure with the U-shaped reinforcing plate (104); the square reinforcing structure is attached to the inner surface of the top beam (102).

13. The spliceable container according to claim 12, wherein the back of the first bottom transverse slot (20102), the back of the second bottom transverse slot (20106), the back of the first bottom longitudinal slot (20110) and the back of the second bottom longitudinal slot (20114) are fixed to the outer surface of the bottom beam (103); the top cross tube outer surface (20201) is flush with the bottom beam outer surface (10301).

14. The matable container of claim 13, further comprising corner fittings (106), wherein a third set distance is provided between the outer surface of said bottom beam (103) and the outer surface of said corner fittings (106), and wherein said first set distance and said second set distance are each less than said third set distance.

15. The spliceable container according to claim 14, wherein the bottom beams include bottom longitudinal beams (1031) and a plurality of C-shaped bottom cross beams (30), and both ends of the C-shaped bottom cross beams (30) are respectively connected to the bottom longitudinal beams (1031); and a through hole (31) is formed in the position, close to the end, of each C-shaped bottom cross beam (30), and the through hole (31) extends along the length direction of the container.

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