CN117799969A - Container convenient for loading and unloading goods - Google Patents

Abstract

The invention discloses a container convenient for loading and unloading cargoes, which belongs to the technical field of cargo storage and comprises a container body, a container door and a plurality of independent supporting and placing units which are vertically and transversely distributed in the container body and used for vertically placing and supporting thin-wall pipes, wherein the supporting and placing units comprise circular plates, supporting rods and circular cavities, and a pressing piece capable of being stirred, clamped and loosened is arranged between the inside of each circular cavity and the outside of each supporting rod; the round plate and the support rod which are designed in the support placing unit are vertically designed in the box body, so that the thin-wall pipes can be vertically stored in the box body independently, the risk of deformation of transverse stacking of the thin-wall pipes is avoided, meanwhile, when the vertical plate, the moving plate, the connecting rod, the first spring, the abutting rod, the abutting block and other structures form abutting pieces, under the fluctuation fit of the rotating pieces, the support rod can be guaranteed to vertically place and clamp the thin-wall pipes tightly, and the stability of storage or transportation of the thin-wall pipes is further improved.

Description

Container convenient for loading and unloading goods

Technical Field

The invention relates to the technical field of cargo storage, in particular to a container convenient for loading and unloading cargoes.

Background

At present, thin-wall metal pipes such as aluminum alloy pipes and stainless steel pipes are widely applied to various fields of daily necessities, tables, stools, shelves, escalators and the like. However, when the thin-wall metal tube is stored, a container is required, and a transverse stacking mode is adopted for a long time, so that the problem exists that the bottom tube is subjected to the pressure of the upper tube and is easy to deform, the quality problems of distortion, uncoordinated matching and the like of the end product of the thin-wall metal tube are caused, and finally, the problems lead to the suspicion of the goods stored for a period of time and the reduction of commodity value. Accordingly, in view of this problem, the present invention proposes a container that facilitates loading and unloading of cargo.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, thin-wall metal pipes are easy to deform and quality when stacked in a container, and provides a container convenient for loading and unloading cargoes.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a container of convenient loading and unloading goods, includes the box, the chamber door mirror image is seted up the top of box, a plurality of solitary supports are put the unit and transversely distributes in the box for carry out vertical putting and support to the thin wall tubular product, wherein, it puts the unit including connecting the plectane on the diapire in the box to support, the top center of plectane is fixed with vertical bracing piece, set up circular chamber in the bracing piece, circular intracavity with be equipped with between the bracing piece outside and stir tight, loose conflict piece, works as the conflict piece is stirring tightly when pressing from both sides, can be with the tight conflict cover of conflict piece is established on the inner wall of the peripheral thin wall of bracing piece, is put the thin wall tubular product on the bracing piece steadily, works as when the conflict piece is stirring loosely, the conflict piece is inconsistent with the thin wall tubular product inner wall, can cooperate the thin wall tubular product to be in the nature is vertical putting or break away from on the bracing piece.

Preferably, the interference piece includes a plurality of risers that are circumference and distribute on the bracing piece, set up in the riser and remove the chamber, it is equipped with a movable plate to remove the intracavity, one side of movable plate with be equipped with a plurality of slidable connecting rods between the outside of riser, the cover is equipped with on the connecting rod and fixes the movable plate with remove spring one between the intracavity wall, the other end of connecting rod is fixed with the arc that is used for contradicting the thin wall intraductal wall, the opposite side of movable plate be fixed with a plurality of run through in the support feeler lever of circular intracavity, the feeler lever is located the one end of circular intracavity is fixed with the interference piece, be equipped with the rotating member in the circular intracavity for the cooperation the interference piece is stirred and is removed.

Preferably, the rotating piece comprises a rotating rod located in the circular cavity, one end of the rotating rod is connected with the inner bottom wall of the circular cavity through a bearing, the other end of the rotating rod is connected with a rotating block attached to the supporting rod, and a stirring block used for being matched with the abutting block to extrude is fixed on the surface of the rotating rod.

Preferably, the stirring block rotates along the surface of the abutting block to rotate anticlockwise or clockwise in one direction.

Preferably, the stirring block has an arc-shaped section along one surface of the abutting block, which is rotationally extruded.

Preferably, the stirring block is provided with a containing groove, an elastically telescopic limiting part is arranged in the containing groove, and the abutting block is provided with a limiting groove for being matched with the limiting part to be clamped.

Preferably, the limiting part comprises a pair of telescopic rods fixed on the accommodating groove, a second spring is sleeved on the surface of each telescopic rod, and a limiting block capable of being clamped with the inner wall of the limiting groove is fixed at the other end of each telescopic rod.

Preferably, the limiting block and the limiting groove are of semicircular arc structures.

Preferably, the surface of the riser is communicated with an air duct, and the other end of the air duct penetrates from the inside of the circular plate to the outside of the circular plate and is communicated with an inflating piece.

Preferably, the inflatable member comprises a plurality of protection plates circumferentially fixed on the circular plate, and an air cushion communicated with the air duct is arranged on the protection plates.

Compared with the prior art, the invention provides a container convenient for loading and unloading cargoes, which has the following beneficial effects:

1. this container of convenient loading and unloading goods through supporting the vertical design of plectane and bracing piece that designs in putting the unit in the box, is in order to make the vertical depositing in the box alone of thin wall pipe, has avoided the thin wall pipe transversely to pile up there is the risk of deformation, simultaneously, when riser, movable plate, connecting rod, spring one, support the conflict piece that structures such as touch pole and conflict piece are constituteed, under the undulant cooperation of rotating the piece, can also guarantee that the bracing piece closely carries out vertical putting to the thin wall pipe and presss from both sides tightly, has further improved the stability of thin wall pipe in storage or transportation.

2. This container of convenient loading and unloading goods, through the interference piece that riser, movable plate, connecting rod, spring one, support feeler lever and conflict piece isotructure are constituteed, under the cooperation of stirring of rotating the piece, can also make the interference piece break away from the outer cover of bracing piece and establish the inner wall of thin wall pipe, let the thin wall pipe be in the relaxation state on the bracing piece, the subsequent loading and unloading operation of being convenient for.

3. This container of convenient loading and unloading goods sets up in the holding tank through spacing portion that telescopic link, spring two and stopper isotructure are constituteed, then in order to guarantee to stir the piece to stir the cooperation arc piece and closely conflict in the thin wall pipe inner wall to the touch piece, should stir the piece and still can be through spacing portion joint in the spacing groove on contradicting the piece, help improving the stability of this conflict piece when pressing from both sides tight state to the thin wall pipe like this.

4. This container of convenient loading and unloading goods, be the circumference and distribute on the plectane through the inflatable member that guard plate and air cushion isotructure are constituteed, and the air cushion is linked together with the removal intracavity portion through the air duct again, when the movable plate is removing the arc that the cooperation connecting rod is connected in the removal chamber, when closely contradicting the thin wall pipe inner wall, this movable plate is moving this in-process that the chamber removed, can also be with the gas that removes the intracavity compression to the air cushion in the injection inflation through the air duct, guarantee that the air cushion after the inflation can laminate outside the thin wall pipe for support the protection to the thin wall pipe outside, this can further improve the stability that this thin wall pipe vertically put on the bracing piece again.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a side cross-sectional view of the present invention;

FIG. 3 is a schematic view of a supporting and placing unit according to the present invention;

FIG. 4 is a cross-sectional view of the support bar of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4A in accordance with the present invention;

FIG. 6 is a schematic view of a connection structure of a support rod and a rotating rod according to the present invention;

FIG. 7 is an enlarged view of a portion of the invention at B in FIG. 6;

fig. 8 is a view showing the insertion of the support unit and the thin-walled tube according to the present invention.

In the figure: 1. a case; 2. a door; 3. a supporting and placing unit; 31. a circular plate; 32. a support rod; 33. a circular cavity; 34. a contact member; 341. a riser; 342. a moving chamber; 343. a moving plate; 344. a connecting rod; 345. a first spring; 346. an arc-shaped plate; 347. a touch-up rod; 348. a collision block; 349. a limit groove; 35. a rotating member; 351. a rotating rod; 352. a rotating block; 353. a poking block; 354. a receiving groove; 355. a limit part; 3551. a telescopic rod; 3552. a second spring; 3553. a limiting block; 36. an air duct; 37. an inflatable member; 371. a protection plate; 372. and (5) an air cushion.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The following describes in detail the technical solutions provided by the embodiments of the present invention with reference to fig. 1 to 8.

Referring to fig. 1-8, a container for conveniently loading and unloading cargoes comprises a container body 1, a container door 2 is formed at the top of the container body 1 in a mirror image mode, a plurality of independent supporting and placing units 3 are vertically and transversely distributed in the container body 1 and used for vertically placing and supporting thin-wall pipes, wherein the supporting and placing units 3 comprise circular plates 31 connected to the inner bottom wall of the container body 1, and vertical supporting rods 32 are fixed at the centers of the tops of the circular plates 31.

By adopting the technical scheme, when the traditional container is transversely stacked on the thin-wall pipes, the thin-wall pipes at the bottom layer are gradually increased along with the thin-wall pipes at the upper layer, deformation is easy to occur, the quality problems of skew, uncoordinated matching and the like of the end products of the thin-wall metal pipes are caused, and in order to avoid the phenomenon, a plurality of vertical and transversely distributed support placing units 3 are designed in the box body 1, so that each thin-wall pipe can be vertically placed in the support placing units 3 in the box body 1 independently, and the deformation risk of the thin-wall pipes in transverse placement is reduced.

Specifically, through opening the chamber door 2 at box 1 top, with the vertical grafting of thin wall pipe in proper order on the bracing piece 32 periphery that corresponds in box 1, and the bottom contact is on the plectane 31 top, when vertical and the transverse distribution location of every thin wall pipe in box 1, compare traditional transversely pile up gradually, can help reducing contact and the extrusion problem between the adjacent thin wall pipe, design like this simultaneously, also be convenient for take, because every thin wall pipe all can independently place on bracing piece 32, need not remove other thin wall pipes, directly through opening chamber door 2 extract can.

It should be noted that the height of the supporting rod 32 should be matched with the height of the thin-walled tube, so as to ensure that the thin-walled tube is stably supported on the supporting rod 32, and the end diameter of the supporting rod 32 can be optionally matched with the opening end diameter of the thin-walled tube, so as to ensure that the supporting rod 32 is tightly matched with the thin-walled tube, and further increase the stability of the supporting rod 32 on the vertical placement of the thin-walled tube.

Of course, the end diameter of the supporting rod 32 can also rotate without being matched with the end diameter of the thin-wall tube, because if the end diameter of the supporting rod 32 is matched with the opening end diameter of the thin-wall tube, the supporting rod 32 can only be suitable for vertically placing and supporting the matched thin-wall tube, once the opening end diameter of the thin-wall tube is larger than the fixed end diameter of the supporting rod 32, the supporting rod 32 is difficult to ensure close contact with the thin-wall tube box, in a preferred embodiment, referring to fig. 1-5, a circular cavity 33 is formed in the supporting rod 32, a pressing piece 34 capable of being pressed and loosened is arranged between the inside of the circular cavity 33 and the outside of the supporting rod 32, when the pressing piece 34 is pressed and tightened, the pressing piece 34 can be tightly pressed and sleeved on the inner wall of the thin-wall tube at the periphery of the supporting rod 32, the thin-wall tube is stably placed on the supporting rod 32 vertically, when the pressing piece 34 is pressed and loosened, the abutting piece 34 does not abut against the inner wall of the thin-wall tube and can be matched with the thin-wall tube to naturally vertically place or separate on the supporting rod 32, the abutting piece 34 comprises a plurality of vertical plates 341 which are circumferentially distributed on the supporting rod 32, a movable cavity 342 is formed in each vertical plate 341, a movable plate 343 is arranged in each movable cavity 342, a plurality of slidable connecting rods 344 are arranged between one side of each movable plate 343 and the outside of each vertical plate 341, a spring 345 fixed between each movable plate 343 and the inner wall of each movable cavity 342 is sleeved on each connecting rod 344, an arc-shaped plate 346 for abutting against the inner wall of the thin-wall tube is fixed at the other end of each connecting rod 344, a plurality of abutting rods 347 penetrating through the circular cavity 33 are fixed at the other side of each movable plate 343, abutting blocks 348 are fixed at one ends of the abutting rods 347 in the circular cavity 33, rotating pieces 35 are arranged in the circular cavity 33 and are used for poking and moving in cooperation with the abutting blocks 348, the rotating member 35 comprises a rotating rod 351 located in the circular cavity 33, one end of the rotating rod 351 is connected to the inner bottom wall of the circular cavity 33 through a bearing, the other end of the rotating rod 351 is connected with a rotating block 352 attached to the supporting rod 32, a stirring block 353 used for being matched with the pushing block 348 to extrude is fixed on the surface of the rotating rod 351, the stirring block 353 rotates along the surface of the pushing block 348 to rotate anticlockwise or rotate clockwise unidirectionally, one surface of the stirring block 353, which rotates and extrudes along the surface of the pushing block 348, of which the surface of the pushing block 353, is an arc-shaped section, and the surface of the pushing block 348, which is in contact with the stirring block 353, is also an arc-shaped section.

By adopting the technical scheme, the problem that the support rod 32 is possibly inconvenient to stably support the thin-wall tube with the end diameter larger than the support rod 32 when being matched with the inner wall of the thin-wall tube is solved, and when the support rod 32 is matched with the inner wall of the thin-wall tube, the support rod 32 can be inconvenient to take the thin-wall tube, because the support rod 32 needs a certain force to separate the thin-wall tube from the support rod 32 when being matched with the inner wall of the thin-wall tube, the movable interference piece 34 is designed between the inside and the outside of the support rod 32 for adapting the thin-wall tube with different end diameters to stably and vertically support, and the support rod is also beneficial to being convenient to take the thin-wall tube.

Specifically, because the end diameter of the supporting rod 32 is smaller than the end diameter of the inner wall of the thin-wall tube, when the thin-wall tube is inserted into the supporting rod 32, the thin-wall tube can be naturally and easily sleeved on the periphery of the supporting rod 32, after the thin-wall tube is vertically placed on the periphery of the supporting rod 32, the rotating block 352 is twisted by a hand to drive the rotating rod 351 to rotate in the circular cavity 33, so that the stirring block 353 fixed on the surface of the rotating rod 351 rotates and extrudes along the surface of the stirring block 348, then the stirring block 348 can drive the stirring rod 347 to slide between the inside and the outside of the supporting rod 32 under the extrusion force of the stirring block 353, the moving plate 343 is driven to slide along the inner wall of the moving cavity 342, the connecting rod 344 connected with the surface of the moving plate 343 drives the arc plate 346 to slowly push against the inner wall of the thin-wall tube sleeved on the periphery of the supporting rod 32, the thin-wall tube can be in a clamping state on the periphery of the supporting rod 32, the vertical placement stability of the thin-wall tube on the periphery of the supporting rod 32 is improved, and the design can meet the stable support of the thin-wall tubes with different end diameters.

Meanwhile, when the poking block 353 connected with the surface of the rotating rod 351 continuously rotates and is not in contact with the abutting block 348, the arc plate 346 can be reset under the elastic force of the first spring 345, and the connecting rod 344 drives the arc plate 346 to move to the initial position, so that the thin-wall tube can be in a loose state at the periphery of the supporting rod 32, and the thin-wall tube is convenient to take in the follow-up process.

It should be noted that, in this embodiment, the rotating rod 351 can only rotate clockwise or counter clockwise, that is, the rotating rod 351 can only rotate along one direction, and no matter the rotating rod 351 rotates clockwise or counter clockwise, the arc section corresponding to the surface of the stirring block 353 fixed on the surface of the rotating rod 351 should correspond to the rotating direction, so that when the rotating rod 351 rotates, the stirring block 353 can be driven to stir and squeeze the surface of the abutting block 348, the arc plate 346 in the abutting member 34 is driven to slowly perform abutting and clamping on the inner wall of the thin-wall tube, in addition, the abutting member 34 in such stirring design has better flexibility and adaptability to different thin-wall tubes under stirring cooperation of the rotating member 35, because the spring clamping structure can only stably place the thin-wall tube on the supporting rod 32, and when the pulling-out is carried out, a certain limiting force is generated, the pulling-out is inconvenient, and the thin-wall tube can be flexibly clamped or loosened according to the size of different thin-wall tubes by adopting the design of the movable abutting member 34, so that the thin-wall tube can be stably placed on the supporting rod 32 or conveniently taken out.

In a preferred embodiment, referring to fig. 5, a holding groove 354 is formed on the toggle block 353, an elastically telescopic limiting portion 355 is formed in the holding groove 354, a limiting groove 349 for being clamped by matching with the limiting portion 355 is formed on the abutting block 348, the limiting portion 355 includes a pair of telescopic rods 3551 fixed on the holding groove 354, a spring two 3552 is sleeved on the surface of each telescopic rod 3551, a limiting block 3553 capable of being clamped with the inner wall of the limiting groove 349 is fixed on the other end of each telescopic rod 3551, and both the limiting block 3553 and the limiting groove 349 are in a semicircular arc structure.

By adopting such a technical scheme, in order to further improve the stability of the interference piece 34 for interference clamping of the thin-wall pipe, because when the stirring block 353 on the surface of the rotating rod 351 stirs the abutting block 348, if the positioning is not limited, the interference piece 34 is affected to loosen, so that the limiting groove 349 with an arc shape on the interference block 348 is matched with the limiting part 355 in the accommodating groove 354 on the stirring block 353 to carry out clamping, the interference piece 34 is ensured to maintain effective stability when the thin-wall pipe is in interference clamping.

Specifically, when the stirring block 353 on the surface of the rotating rod 351 rotates along the surface of the abutting block 348 to abut, the arc-shaped limiting block 3553 protruding from the surface of the stirring block 353 also enters the accommodating groove 354 under the cooperation of the telescopic rod 3551 and the second spring 3552 until the limiting block 3553 corresponds to the limiting groove 349, and the arc-shaped limiting block 346 in the abutting piece 34 can be ensured to stably abut and clamp the inner wall of the thin-walled tube under the resetting of the telescopic rod 3551 and the second spring 3552.

In a preferred embodiment, referring to fig. 4 to 7, the surface of the vertical plate 341 is communicated with the air duct 36, the other end of the air duct 36 penetrates from the inside of the circular plate 31 to the outside of the circular plate 31 and is communicated with the air inflation member 37, the air inflation member 37 comprises a plurality of protection plates 371 circumferentially fixed on the circular plate 31, and an air cushion 372 communicated with the air duct 36 is mounted on the protection plates 371.

By adopting the technical scheme, in order to effectively protect the outside of the thin-wall tube sleeved on the periphery of the supporting rod 32, a plurality of circumferentially distributed inflatable pieces 37 are designed on the circular plate 31, the inflatable pieces 37 are communicated with the movable cavity 342 in the vertical plate 341 through the air guide pipe 36, and the air cushion 372 in the inflatable pieces 37 can be inflated by means of compressed air in the movable cavity 342, so that the air cushion 372 can be tightly attached to the periphery of the thin-wall tube, the outside of the thin-wall tube is protected from being damaged by external force, friction, scraping and the like, the service life of the thin-wall tube is prolonged, meanwhile, the air cushion 372 can be attached to the periphery of the thin-wall tube after being inflated, additional support is provided for the thin-wall tube, and the stability of vertical placement of the thin-wall tube on the supporting rod 32 is further improved.

Specifically, when the moving plate 343 is pressed by the rotation of the poking block 353 on the surface of the rotating rod 351 through the abutting block 348 connected with the abutting rod 347, the moving plate 343 moves in the moving cavity 342 and blows air in the moving cavity 342 through the air duct 36 to flow into the air cushion 372, so that the air cushion 372 can expand and be attached to the periphery of the thin-wall pipe, and the air cushion 372 can provide additional support and stability to prevent the thin-wall pipe from tilting or swaying in the vertical placing process, and meanwhile, the air cushion 372 can also play a role in buffering to reduce the influence of external impact on the thin-wall pipe, and in general, the air cushion 372 connected with the air duct 36 is inflated by utilizing the air flowing into the moving cavity 342, so that the external support, stability and buffering effects on the thin-wall pipe can be realized, which are helpful for further improving the stability and the protection of the thin-wall pipe in the vertical placing process.

In summary, the technical scheme of the invention provides a container convenient for loading and unloading cargoes, the container comprises a container body 1, a box door 2 which is opened at the top in a mirror image manner, and a plurality of supporting and placing units 3 which are vertically and transversely distributed in the container body 1 and are used for supporting the vertical placement of thin-wall pipes, the supporting and placing units 3 comprise a circular plate 31 connected to the bottom wall of the container body 1 and a vertical supporting rod 32 fixed on the circular plate 31, the thin-wall pipes can be sequentially inserted at the periphery of the supporting rod 32, the bottom end of the supporting rod contacts with the top of the circular plate 31, the independent vertical placement is realized, the design avoids the deformation risk of the thin-wall pipes in the transverse stacking process, the loading and unloading operation is simplified, meanwhile, in order to further optimize the supporting rod 32, the end diameter of the supporting rod 32 is smaller than that of the thin-wall pipe, a rotating piece 35 matched with a poking abutting piece 34 is designed in a circular cavity 33 inside the supporting rod 32, the pushing force of the arc plate 346 on the thin-wall tube in the pushing piece 34 can be adjusted by pushing the rotating piece 35 to match with the movement of the moving plate 343 in the pushing piece 34, the stable support of different thin-wall tubes is realized, the pushing and adjusting of the pushing piece 34 are completed by the rotating piece 35, the rotating piece 35 comprises a rotating rod 351, a rotating block 352 and a pushing block 353, the rotating rod 351 is connected on the inner bottom wall of the circular cavity 33 through a bearing, the rotation of the pushing block 353 can match with the pushing block 348 to squeeze, the rotating piece 35 serves as a unidirectional rotating component and can rotate anticlockwise or clockwise, the pushing direction of the pushing block 353 and the pushing direction of the pushing block 348 are matched, the pushing block 348 can be matched with the arc plate 346 to push the inner wall of the thin-wall tube stably, so that the supporting rod 32 can be ensured to support the thin-wall tubes with different end diameters through the further design of the rotating piece 35 linkage pushing piece 34, meanwhile, the thin-wall pipe can be easily taken in a natural state, and further, a plurality of circumferential inflatable pieces 37 are designed on the circular plate 31, an air cushion 372 in the inflatable pieces 37 is communicated with the movable cavity 342 through the air duct 36, and the air cushion 372 is inflated and adhered to the periphery of the thin-wall pipe by means of compressed air in the movable cavity 342, so that the thin-wall pipe is supported and protected, the service life of the thin-wall pipe is prolonged, and the advantages of vertical support, reduced contact extrusion, convenience in assembly and disassembly and the like of the thin-wall pipe are effectively achieved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. A container for facilitating handling of cargo, comprising:

a case (1);

the box door (2) is arranged at the top of the box body (1) in a mirror image mode;

the independent supporting and placing units (3) are vertically and transversely distributed in the box body (1) and are used for vertically placing and supporting the thin-wall pipes;

the supporting and placing unit (3) comprises a circular plate (31) connected to the inner bottom wall of the box body (1), a vertical supporting rod (32) is fixed at the center of the top of the circular plate (31), a circular cavity (33) is formed in the supporting rod (32), and a pressing piece (34) capable of being stirred, clamped and loosened is arranged between the inside of the circular cavity (33) and the outside of the supporting rod (32);

when the abutting piece (34) is stirred and clamped, the abutting piece (34) can be tightly abutted and sleeved on the inner wall of the thin-wall tube at the periphery of the supporting rod (32), and the thin-wall tube is stably and vertically placed on the supporting rod (32);

when the abutting piece (34) is in poking relaxation, the abutting piece (34) does not abut against the inner wall of the thin-wall pipe, and can be matched with the thin-wall pipe to naturally vertically place or separate from the supporting rod (32).

2. The container convenient for loading and unloading cargoes according to claim 1, characterized in that the abutting member (34) comprises a plurality of risers (341) circumferentially distributed on the supporting rod (32), a moving cavity (342) is formed in each riser (341), a moving plate (343) is arranged in each moving cavity (342), a plurality of slidable connecting rods (344) are arranged between one side of each moving plate (343) and the outside of each riser (341), a spring (345) fixed between each moving plate (343) and the inner wall of each moving cavity (342) is sleeved on each connecting rod (344), an arc plate (346) for abutting against the inner wall of each thin-wall tube is fixed at the other end of each connecting rod (344), a plurality of abutting rods (347) penetrating into each circular cavity (33) are fixed at the other side of each moving plate (343), abutting blocks (348) are fixed at one ends of the corresponding abutting rods (347) in the circular cavities (33), and abutting members (35) are arranged in the circular cavities (33) in a sleeved mode, and are matched with each other for moving.

3. A container for facilitating loading and unloading of cargoes according to claim 2, characterized in that the rotating member (35) comprises a rotating rod (351) located in the circular cavity (33), one end of the rotating rod (351) is connected to the inner bottom wall of the circular cavity (33) through a bearing, the other end of the rotating rod (351) is connected with a rotating block (352) attached to the supporting rod (32), and a stirring block (353) for being matched with the abutting block (348) to squeeze is fixed on the surface of the rotating rod (351).

4. A cargo container according to claim 3, wherein the toggle block (353) rotates along the surface of the interference block (348) as a one-way counter-clockwise rotation or a one-way clockwise rotation.

5. A container for facilitating handling of goods as in claim 3 wherein said toggle block (353) is of "arcuate" cross-section along a face of said interference block (348) which is rotationally extruded.

6. A container for facilitating loading and unloading of cargoes according to claim 3, characterized in that the poking block (353) is provided with a containing groove (354), the containing groove (354) is internally provided with a limit part (355) which can elastically stretch out and draw back, and the abutting block (348) is provided with a limit groove (349) which is used for being clamped by matching with the limit part (355).

7. The container for facilitating cargo handling according to claim 6, wherein the limiting portion (355) comprises a pair of telescopic rods (3551) fixed on the accommodating groove (354), a spring two (3552) is sleeved on the surface of the telescopic rods (3551), and a limiting block (3553) capable of being clamped with the inner wall of the limiting groove (349) is fixed at the other end of the telescopic rods (3551).

8. The cargo container of claim 7, wherein the stopper (3553) and the stopper slot (349) are each semi-circular in configuration.

9. A container for facilitating handling of cargo according to claim 2, wherein the surface of the riser (341) is in communication with an air duct (36), and the other end of the air duct (36) extends from within the circular plate (31) to the outside of the circular plate (31) and is in communication with an inflatable member (37).

10. A container for facilitating handling of cargo according to claim 9, wherein the inflatable member (37) comprises a plurality of protection plates (371) circumferentially fixed to the circular plate (31), and an air cushion (372) in communication with the air duct (36) is mounted on the protection plates (371).