CN217624740U - Goods turnover box - Google Patents

Abstract

The utility model relates to a turnover case technical field specifically is goods turnover case. Four groups of side surface telescopic assemblies and at least one group of bottom surface telescopic assemblies are connected and spliced to form a box body with an accommodating space; each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate and a second side corrugated telescopic plate which are mutually sleeved in a sliding manner, and the sliding direction between the first side corrugated telescopic plate and the second side corrugated telescopic plate is mutually vertical to the respective telescopic directions of the first side corrugated telescopic plate and the second side corrugated telescopic plate; the telescopic direction of the side face telescopic plate component is parallel to the sliding direction between the first side face corrugated telescopic plate and the second side face corrugated telescopic plate in the side face corrugated connecting telescopic component. The utility model discloses can be according to the actual size adjustment box's of goods space shape in order to reach the purpose of adaptation goods size.

Description

Goods turnover box

Technical Field

The utility model relates to a turnover case technical field specifically is goods turnover case.

Background

The turnover box is also called as a logistics box, is widely applied to industries such as machinery, automobiles, household appliances, light industry, electronics and the like, and has the advantages of convenience in cleaning, convenience in turnover of parts, tidiness in stacking, convenience in management and the like. The traditional turnover box body is fixed in shape, the shape size and the volume of the traditional turnover box body cannot be changed, the size cannot be changed according to the loaded goods, if the goods are small, the goods are not matched with the space of the box body, the goods can shake randomly in the transportation process, the goods can be damaged, and the box body is large, inconvenient to transport and inconvenient to carry; if the box can change the volume size according to the size of goods to adaptation goods size, then on the one hand protects the goods, and on the other hand the box is scalable to reduce the volume, has saved the occupation space of box, and convenient transportation also makes things convenient for the transport.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a goods turnover case can be according to the actual size adjustment box's of goods space shape in order to reach the purpose of adaptation goods size.

In order to achieve the above object, the utility model provides a following technical scheme:

a goods turnover case which is characterized in that: four groups of side surface telescopic assemblies and at least one group of bottom surface telescopic assemblies are connected and spliced to form a box body with an accommodating space;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate and a second side corrugated telescopic plate which are mutually sleeved in a sliding manner, and the sliding direction between the first side corrugated telescopic plate and the second side corrugated telescopic plate is mutually vertical to the respective telescopic directions of the first side corrugated telescopic plate and the second side corrugated telescopic plate; the telescopic direction of the side face telescopic plate component is parallel to the sliding direction between the first side face corrugated telescopic plate and the second side face corrugated telescopic plate in the side face corrugated connection telescopic component.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model adjusts the length and width of the side plates through the expansion of the corrugated expansion plate between the base plates, changes the volume of the box body through the area change of the side plates, enables the box body to adapt to goods with different sizes, laminates and packages the goods, protects the goods, saves space and is convenient to carry;

2. the utility model discloses a goods turnover case can be folded to can be convenient for transport more when not using, because it has the folding function simultaneously, therefore be convenient for more accomodate the transportation when not using.

Drawings

Fig. 1 is one of the schematic structural diagrams of the embodiment 1 of the present invention in a stretched state;

fig. 2 is a second schematic structural view of the embodiment 1 of the present invention in a stretched state;

fig. 3 is a schematic structural view of a reduced state according to embodiment 1 of the present invention;

fig. 4 is a schematic structural view of the embodiment 2 of the present invention in a stretched state;

fig. 5 is a schematic structural view of a reduced state in embodiment 2 of the present invention;

fig. 6 is a schematic structural view of the embodiment 3 of the present invention in a stretched state;

fig. 7 is a second schematic structural view of the embodiment 3 of the present invention in a stretched state;

fig. 8 is a schematic structural view of a reduced state according to embodiment 3 of the present invention;

fig. 9 is one of the schematic structural diagrams of the embodiment 4 of the present invention in the stretched state;

fig. 10 is a second schematic structural view of the embodiment 4 of the present invention in a stretched state;

fig. 11 is a schematic structural view of a reduced state according to embodiment 4 of the present invention;

fig. 12 is a schematic structural view of the embodiment 5 of the present invention in a stretched state;

fig. 13 is a second schematic structural view of the embodiment 5 of the present invention in a stretched state;

fig. 14 is a schematic structural view of a reduced state according to embodiment 5 of the present invention;

fig. 15 is a schematic structural view of the embodiment 6 of the present invention in a stretched state;

fig. 16 is a second schematic structural view of the embodiment 6 of the present invention in a stretched state;

fig. 17 is a schematic structural view of a reduced state according to embodiment 6 of the present invention;

fig. 18 is a schematic view of the embodiment 7 of the present invention in a folded state;

fig. 19 is a second schematic structural view of the embodiment 7 of the present invention in a folded state;

fig. 20 is a third schematic structural view of the folded state of embodiment 7 of the present invention;

fig. 21 is a schematic structural view of the embodiment 8 of the present invention in a folded state;

fig. 22 is a second schematic structural view of the embodiment 8 of the present invention in a folded state;

fig. 23 is a third schematic structural view of the folded state of the embodiment 8 of the present invention;

fig. 24 is a fourth schematic structural view of the folded state of embodiment 8 of the present invention;

fig. 25 is a schematic view of the embodiment 9 of the present invention in a folded state;

fig. 26 is a second schematic structural view of the embodiment 9 of the present invention in a folded state;

fig. 27 is a third schematic structural view of the folded state of embodiment 9 of the present invention;

fig. 28 is a schematic structural view of the embodiment 10 of the present invention in a folded state;

fig. 29 is a second schematic structural view of the embodiment 10 in a folded state;

fig. 30 is a third schematic structural view of the embodiment 10 of the present invention in a folded state;

fig. 31 is a fourth schematic structural view of the embodiment 10 of the present invention in a folded state;

in the figure:

1-1 side expansion plate component, 1-2 first side corrugated expansion plate, 1-3 second side corrugated expansion plate;

2-11 parts of a first bottom surface expansion plate assembly, 2-12 parts of a first bottom surface corrugated expansion plate and 2-13 parts of a second bottom surface corrugated expansion plate;

2-21 parts of a first bottom surface substrate, 2-22 parts of a third bottom surface corrugated expansion plate, 2-23 parts of a fourth bottom surface corrugated expansion plate and 2-24 parts of a fifth bottom surface corrugated expansion plate;

2-31 sixth bottom surface corrugated expansion plates and 2-32 seventh bottom surface corrugated expansion plates;

2-41 second floor expansion plate assembly;

2-51 second base substrate;

3-1 folding unit and 3-11 transverse folding avoidance plate;

3-21 turning units, 3-211 turning beams, 3-22 inward folding units, 3-221 upper inward folding sub units and 3-222 lower inward folding sub units;

3-31 first turnover units, 3-32 second turnover units and 3-321 vertical folding avoidance plates.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

In the description of the present invention, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or as implying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

Furthermore, the terms "upper and lower", "left and right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply specific orientations, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-3, the present embodiment is a box body having an accommodating space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connecting telescopic component.

Each group of bottom surface telescopic assemblies consists of two groups of first bottom surface telescopic plate assemblies 2-11 and first bottom surface corrugated connection telescopic assemblies arranged between the two groups of first bottom surface telescopic plate assemblies 2-11; the first bottom surface corrugated connection telescopic assembly consists of a first bottom surface corrugated telescopic plate 2-12 and a second bottom surface corrugated telescopic plate 2-13 which are in sliding sleeve joint with each other, and the sliding direction between the first bottom surface corrugated telescopic plate 2-12 and the second bottom surface corrugated telescopic plate 2-13 is vertical to the respective telescopic direction; the telescopic direction of the first bottom surface telescopic plate component 2-11 is parallel to the sliding direction between the first bottom surface corrugated telescopic plate 2-12 and the second bottom surface corrugated telescopic plate 2-13 in the first bottom surface corrugated connection telescopic component.

When the height of the box body is adjusted, the side ripple connection telescopic assembly on the side surface of the box body can be longitudinally upwards stretched to improve the height of the box body; if the length of the box body is required to be adjusted, the box body side face telescopic plate component 1-1 and the side face corrugated connection telescopic component can be transversely stretched mutually, so that the length of the box body can be changed; if the width of the box body is changed, the side expansion plate assembly 1-1 in the side expansion assembly of the stretchable other side and the side corrugation connection expansion assembly are transversely stretched with each other, and the width of the box body is changed.

The box is through stretching out and drawing back to the flexible subassembly on its every, can make the box adjust the size on length, width, high three directions, can satisfy the packing demand of different goods, saves occupation space and the transport of being convenient for.

Example 2:

referring to fig. 4-5, the difference from the embodiment 1 is that the embodiment only includes one set of side expansion plate assembly 1-1, but it can also achieve expansion adjustment in three dimensions, and in other embodiments, we can easily believe that the way of alternatively splicing two or more sets of side expansion plate assembly 1-1 and side corrugated connection expansion plate assembly at the same time should be regarded as the way of following the concept of the present application, and belongs to the direct replacement of the conventional means.

Example 3:

referring to fig. 6-8, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connection telescopic component.

Each group of bottom surface telescopic assemblies consists of two groups of bottom surface telescopic subassemblies and a second bottom surface corrugated connection telescopic assembly arranged between the two groups of bottom surface telescopic subassemblies; each group of bottom surface telescopic subassemblies comprise two first bottom surface base plates 2-21 which are symmetrically arranged and a third bottom surface corrugated telescopic plate 2-22 which is connected and arranged between the two first bottom surface base plates 2-21; the second bottom surface corrugated connection telescopic assembly is composed of fourth bottom surface corrugated telescopic plates 2-23 and fifth bottom surface corrugated telescopic plates 2-24 which are in sliding sleeve joint with each other, and the sliding direction between the fourth bottom surface corrugated telescopic plates 2-23 and the fifth bottom surface corrugated telescopic plates 2-24 is perpendicular to the respective telescopic direction.

Example 4:

referring to fig. 9-11, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connecting telescopic component.

Each group of bottom surface telescopic components consists of sixth bottom surface corrugated telescopic plates 2-31 and seventh bottom surface corrugated telescopic plates 2-32 which are mutually sleeved in a sliding mode, and the sliding direction between the sixth bottom surface corrugated telescopic plates 2-31 and the seventh bottom surface corrugated telescopic plates 2-32 is perpendicular to the respective telescopic direction.

Example 5:

referring to fig. 12-14, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connection telescopic component.

Each group of bottom surface telescopic components consists of two groups of second bottom surface telescopic plate components 2-41 which are mutually sleeved in a sliding mode.

Example 6:

referring to fig. 15-17, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connecting telescopic component.

Each group of bottom surface telescopic assemblies consists of four second bottom surface substrates 2-51 which can be in a superposition state or a spreading state, and each second bottom surface substrate 2-51 is respectively connected with the bottom of the side surface telescopic assembly arranged at the corresponding position.

Example 7:

referring to fig. 18-20, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side surface corrugated connection telescopic assembly consists of a first side surface corrugated telescopic plate 1-2 and a second side surface corrugated telescopic plate 1-3 which are mutually in sliding sleeve joint, and the sliding direction between the first side surface corrugated telescopic plate 1-2 and the second side surface corrugated telescopic plate 1-3 is mutually vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connecting telescopic component.

One side edge of the bottom surface telescopic component is hinged with the lower part of one group of side surface telescopic components;

the four groups of side telescopic assemblies are formed by combining two adjacent groups of side telescopic assemblies in pairs into two groups of folding units 3-1; and a transverse folding avoidance plate 3-11 used for avoiding the thickness of the side face telescopic assembly after folding is arranged between two groups of side face telescopic assemblies in each group of folding units 3-1, and one side edge of the folding avoidance plate is fixedly connected with one side face telescopic assembly and the other side edge of the folding avoidance plate is hinged with the other side face telescopic assembly.

Example 8:

referring to fig. 21-24, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connection telescopic component.

The four groups of side face telescopic assemblies are formed by combining one group of opposite side face telescopic assemblies into a turning unit 3-21, and the other group of opposite side face telescopic assemblies are formed into an inward folding unit 3-22;

the overturning unit 3-21 further comprises an overturning beam 3-211 arranged above the side face telescopic assembly, the upper part of the side face telescopic assembly is rotatably connected with the overturning beam 3-211, and two ends of the overturning beam 3-211 are fixedly connected with the side face telescopic assemblies in the corresponding two side inward folding units 3-22;

the side face telescopic assemblies in the inward folding units 3-22 are composed of upper inward folding sub-units 3-221 and lower inward folding sub-units 3-222, the upper portions of the upper inward folding sub-units are hinged with the upper inward folding sub-units 3-221, and the lower portions of the lower inward folding sub-units 3-222 are hinged with the bottom face telescopic assemblies.

Example 9:

referring to fig. 25-27, the difference from embodiment 8 is that the bottom expansion element in this embodiment is designed to be turned over on both sides for easy opening and folding.

Example 10:

referring to fig. 28-31, the present embodiment is a box body with a containing space formed by connecting and splicing four sets of side surface telescopic assemblies and at least one set of bottom surface telescopic assembly;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies 1-1 and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies 1-1; the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate 1-2 and a second side corrugated telescopic plate 1-3 which are in sliding sleeve joint with each other, and the sliding direction between the first side corrugated telescopic plate 1-2 and the second side corrugated telescopic plate 1-3 is vertical to the respective telescopic direction; the telescopic direction of the side face telescopic plate component 1-1 is parallel to the sliding direction between the first side face corrugated telescopic plate 1-2 and the second side face corrugated telescopic plate 1-3 in the side face corrugated connecting telescopic component.

The four groups of side face telescopic assemblies are formed by combining one group of opposite side face telescopic assemblies into a first turnover unit 3-31, and the other group of opposite side face telescopic assemblies are formed into a second turnover unit 3-32;

the lower parts of the side face telescopic assemblies in the first turnover units 3-31 are hinged with the bottom face telescopic assembly; the second turnover units 3-32 further comprise two vertical folding avoidance plates 3-321 which are respectively arranged below the side face telescopic assemblies in the second turnover units 3-32 and used for avoiding the thickness of the side face telescopic assemblies after being folded, the lower parts of the vertical folding avoidance plates 3-321 are fixedly connected with the bottom face telescopic assemblies, and the upper parts of the vertical folding avoidance plates 3-321 are hinged with the lower parts of the side face telescopic assemblies on the corresponding sides.

In the description of the present invention, the term "hinge" is used only to describe the connection relationship of the object members, and thus, the feature defined as "hinge" may explicitly or implicitly include various embodiments of crease hinge, hinge, etc.

It should be noted that the corrugated expansion plate in the embodiments is illustrated in the drawings, and the wave-shaped cross section is illustrated, and it is easy for those skilled in the art to modify the wave-shaped cross section into a square shape, a V shape, a trapezoid shape or a combination of these shapes, which is included in the protection scope of the present invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. A goods turnover case which is characterized in that: four groups of side surface telescopic assemblies and at least one group of bottom surface telescopic assemblies are connected and spliced to form a box body with an accommodating space;

each group of the side face telescopic assemblies consists of two groups of side face telescopic plate assemblies (1-1) and side face corrugated connection telescopic assemblies arranged between the two groups of side face telescopic plate assemblies (1-1); the side corrugated connection telescopic assembly consists of a first side corrugated telescopic plate (1-2) and a second side corrugated telescopic plate (1-3) which are mutually slidably sleeved, and the sliding direction between the first side corrugated telescopic plate (1-2) and the second side corrugated telescopic plate (1-3) is mutually vertical to the respective telescopic directions; the telescopic direction of the side face telescopic plate component (1-1) is parallel to the sliding direction between the first side face corrugated telescopic plate (1-2) and the second side face corrugated telescopic plate (1-3) in the side face corrugated connecting telescopic component.

2. The cargo tote of claim 1, wherein: each group of bottom surface telescopic assemblies consists of two groups of first bottom surface telescopic plate assemblies (2-11) and first bottom surface corrugated connection telescopic assemblies arranged between the two groups of first bottom surface telescopic plate assemblies (2-11); the first bottom surface corrugated connection telescopic assembly consists of a first bottom surface corrugated telescopic plate (2-12) and a second bottom surface corrugated telescopic plate (2-13) which are in sliding sleeve joint with each other, and the sliding direction between the first bottom surface corrugated telescopic plate (2-12) and the second bottom surface corrugated telescopic plate (2-13) is vertical to the respective telescopic direction; the telescopic direction of the first bottom surface telescopic plate component (2-11) is parallel to the sliding direction between the first bottom surface corrugated telescopic plate (2-12) and the second bottom surface corrugated telescopic plate (2-13) in the first bottom surface corrugated connection telescopic component.

3. The cargo tote of claim 1, wherein: each group of bottom surface telescopic assemblies consists of two groups of bottom surface telescopic subassemblies and a second bottom surface corrugated connection telescopic assembly arranged between the two groups of bottom surface telescopic subassemblies; each group of bottom surface telescopic subassemblies comprises two first bottom surface base plates (2-21) which are symmetrically arranged and a third bottom surface corrugated telescopic plate (2-22) which is connected and arranged between the two first bottom surface base plates (2-21); the second bottom surface corrugated connection telescopic assembly is composed of fourth bottom surface corrugated telescopic plates (2-23) and fifth bottom surface corrugated telescopic plates (2-24) which are in sliding sleeve joint, and the sliding direction between the fourth bottom surface corrugated telescopic plates (2-23) and the fifth bottom surface corrugated telescopic plates (2-24) is perpendicular to the respective telescopic direction.

4. The cargo tote of claim 1, wherein: each group of bottom surface telescopic components consists of sixth bottom surface corrugated telescopic plates (2-31) and seventh bottom surface corrugated telescopic plates (2-32) which are mutually sleeved in a sliding mode, and the sliding direction between the sixth bottom surface corrugated telescopic plates (2-31) and the seventh bottom surface corrugated telescopic plates (2-32) is perpendicular to the respective telescopic direction.

5. The cargo tote of claim 1, wherein: each group of bottom surface telescopic components consists of two groups of second bottom surface telescopic plate components (2-41) which are mutually sleeved in a sliding mode.

6. The cargo tote of claim 1, wherein: each group of bottom surface telescopic assemblies consists of four second bottom surface base plates (2-51) which can be in an overlapped state or a spreading state, and the second bottom surface base plates (2-51) are respectively connected with the bottoms of the side surface telescopic assemblies arranged at the corresponding positions.

7. The cargo tote of claim 1, wherein: one side edge of the bottom surface telescopic component is hinged with the lower part of one group of side surface telescopic components;

the four groups of side telescopic assemblies are formed by combining two adjacent groups of side telescopic assemblies in pairs into two groups of folding units (3-1); and a transverse folding avoiding plate (3-11) used for avoiding the thickness of the side telescopic assembly after folding is arranged between two groups of side telescopic assemblies inside each group of folding units (3-1), and one side edge of the folding avoiding plate is fixedly connected with one group of side telescopic assemblies, and the other side edge of the folding avoiding plate is hinged with the other group of side telescopic assemblies.

8. The cargo tote of claim 1, wherein: the four groups of side face telescopic assemblies are formed into a turning unit (3-21) by combining one group of opposite side face telescopic assemblies, and the other group of opposite side face telescopic assemblies are formed into an inward folding unit (3-22) by combining;

the turnover unit (3-21) further comprises a turnover beam (3-211) arranged above the side telescopic assembly, the upper part of the side telescopic assembly is rotatably connected with the turnover beam (3-211), and two ends of the turnover beam (3-211) are fixedly connected with the side telescopic assembly in the corresponding inward folding unit (3-22) at two sides;

the side face telescopic assemblies in the inward folding units (3-22) are composed of upper inward folding sub-units (3-221) and lower inward folding sub-units (3-222) with the upper portions hinged with the upper inward folding sub-units (3-221), and the lower portions of the lower inward folding sub-units (3-222) are hinged with the bottom face telescopic assemblies.

9. The cargo tote of claim 1, wherein: the four groups of side face telescopic assemblies are formed by combining a group of opposite two side face telescopic assemblies to form a first turnover unit (3-31), and the other group of opposite two side face telescopic assemblies are formed by combining to form a second turnover unit (3-32);

the lower parts of the side face telescopic components in the first turnover units (3-31) are hinged with the bottom face telescopic components; the second turnover units (3-32) further comprise two vertical folding avoidance plates (3-321) which are respectively arranged below the side face telescopic assemblies in the second turnover units (3-32) and used for avoiding the thickness of the side face telescopic assemblies after being folded, the lower parts of the vertical folding avoidance plates (3-321) are fixedly connected with the bottom face telescopic assemblies, and the upper parts of the vertical folding avoidance plates (3-321) are hinged with the lower parts of the side face telescopic assemblies on the corresponding sides.

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