CN217674529U - Container capable of automatically unloading and adapting to aluminum profiles with various specifications - Google Patents

Abstract

The utility model discloses a container which can automatically unload and is adaptive to aluminum profiles with various specifications, comprising a container body, a bearing device, a loading device, an unloading device and a regulating device; the bearing device is arranged in the container body; the loading device is arranged on the side surface of the container body; the unloading device and the bearing device are correspondingly arranged on the container body, and the unloading device is positioned below the bearing device; the regulating device is arranged on one side of the container body; the bearing device is used for bearing the goods to be transported; the loading device is used for loading goods into the container body; the regulating device is connected with the unloading device and is used for controlling the operation of the unloading device; by the mode, the utility model can realize the transportation of goods with different specifications, and improve the utilization rate of the container; meanwhile, the unloading device is arranged, so that the goods in the container can be automatically unloaded, the manual workload is reduced, the unloading time is saved, and the unloading efficiency of the container is improved.

Description

Container capable of automatically unloading and adapting to aluminum profiles with various specifications

Technical Field

The utility model relates to a container technical field especially relates to a container of multiple specification aluminium alloy of automatic discharge and adaptation.

Background

A container is a large cargo container of certain strength, rigidity and gauge and dedicated for turnover or transportation access. Since the last 60 years, containers have gradually developed into a multi-type intermodal international transport means, when the containers are used for transferring goods, the goods can be directly loaded in a warehouse of a shipper and unloaded in a warehouse of a consignee, and when vehicles and ships are changed in midway, the goods do not need to be taken out of the containers and changed.

When the existing container is used for loading and transporting some aluminum profiles or aluminum profile raw materials with medium volume or small volume, if the aluminum profiles or the aluminum profile raw materials need to be unloaded, the aluminum profiles or the aluminum profile raw materials need to be carried manually, time and labor are consumed, and the working efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is main to solve that current container can only unload through the manual work when needs unload aluminium alloy or aluminium alloy behind some medium-volume volumn of loading and transporting aluminium alloy or aluminium alloy raw materials, consuming time hard to the not high scheduling problem of work efficiency.

In order to solve the above problem, the utility model discloses a technical scheme be: the utility model provides a but automatic unloading and multiple specification aluminium alloy's of adaptation container includes:

the container comprises a container body, a bearing device, a loading device, an unloading device and a regulating device;

the bearing device is arranged in the container box body;

the loading device is arranged on the side surface of the container body;

the unloading device and the bearing device are correspondingly arranged in the container box body, and the unloading device is positioned below the bearing device;

the regulating device is arranged on one side of the container body;

the bearing device is used for bearing goods to be transported;

the loading device is used for loading goods into the container box body;

the unloading device is used for unloading the goods in the container body to the outside of the container body;

the regulating device is connected with the unloading device and is used for controlling the operation of the unloading device.

As an improved scheme, the method is characterized in that:

the container body comprises a top plate, a bottom plate, a first end door, a second end door and a pair of side plates;

the bottom plate is rectangular, and the two side plates are respectively vertically arranged on the upper surface of the bottom plate and positioned at the edges of the two long edges of the bottom plate;

the first end door is matched with the second end door, and the first end door and the second end door are respectively vertically arranged on the upper surface of the bottom plate and are positioned at the edges of two short sides of the bottom plate;

the roof with the bottom plate phase-match, the roof is located the top of bottom plate, just roof both sides minor face respectively with the first end door with the top edge of second end door is connected, roof both sides long limit respectively with a pair of the top edge of curb plate is connected.

As an improved scheme, the method is characterized in that:

the unloading device comprises a transmission mechanism, a discharge mechanism, a pair of supporting plates and a plurality of mechanical arm bases;

the pair of supporting plates and the bearing device are correspondingly arranged in the container box body;

the transmission mechanism is arranged in the middle of the upper surface of the bottom plate along the length direction of the bottom plate;

the mechanical arm bases are symmetrically arranged on the upper surface of the bottom plate relative to the conveying mechanism;

each mechanical arm base is provided with a small mechanical arm;

the upper end of each small mechanical arm is connected with the lower surface of the supporting plate;

the discharging mechanism is arranged corresponding to the tail end of the transmission direction of the transmission mechanism.

As an improved scheme, the method is characterized in that:

the transmission mechanism comprises a motor, a conveyor belt, a first rotating roller bracket, a first rotating roller, a synchronous belt and a plurality of second rotating roller brackets;

the first rotating roller bracket is arranged on the bottom plate;

the first rotating roller is rotatably arranged on the first rotating roller bracket, and one end of a rotating shaft of the first rotating roller is connected with a driven wheel;

the motor is arranged on the bottom plate, and the output end of the motor is connected with a driving wheel;

the driving wheel is connected with the driven wheel through the synchronous belt;

the second roller brackets and the first roller brackets are correspondingly arranged on the bottom plate;

each second roller bracket is rotatably provided with a second roller;

the conveying belt is sleeved on the first rotating roller and the second rotating rollers.

As an improved scheme, the method is characterized in that:

the discharging mechanism comprises an upturning door, a door locking rod, a hinge rod, a pair of door locking rod limiting clamping grooves and a pair of vertical electric telescopic rods;

the hinge rod is arranged on the first end door and is close to the lower end of the first end door;

the upper end of the upper turnover door is rotatably sleeved at the middle position of the hinge rod, and the upper turnover door is arranged corresponding to the conveyor belt;

the two door locking rod limiting clamping grooves are respectively arranged on the first end door corresponding to two sides of the upturned door, and the door locking rod limiting clamping grooves are lower than the hinge rod; two ends of the door locking rod are respectively arranged in the two door locking rod limiting clamping grooves;

the vertical electric telescopic rods correspond to the door locking rod limiting clamping grooves one by one, and the vertical electric telescopic rods are installed on the first end door through connecting seats and correspond to positions between the door locking rod limiting clamping grooves and the upturned door;

the vertical electric telescopic rod is arranged corresponding to the door locking rod and is higher than the hinge rod; the telescopic ends of the two vertical electric telescopic rods extend vertically downwards and are connected with the door locking rod; the two vertical electric telescopic rods are used for driving the door locking rod to move in the vertical direction; the door locking rod is used for limiting the turning angle of the upturned door;

the stiff end of vertical electric telescopic handle all covers the vertical electric telescopic handle protective housing that is equipped with bottom opening design.

As an improved scheme, the method is characterized in that:

the bearing device comprises a pair of bearing plates and a plurality of supporting blocks; a pair of horizontally arranged support plates form a first placing area;

the two bearing plates are symmetrically arranged in the container box body relative to the first placement area, the bearing plates correspond to the supporting plates one by one, and the upper surfaces of the bearing plates are flush with the upper surfaces of the horizontally arranged supporting plates;

the adjacent bearing plates and the adjacent supporting plates are arranged in an abutting mode, and the upper surfaces of the two bearing plates and the first placing area form a goods placing area;

the supporting blocks are arranged on the upper surface of the base plate, and the upper ends of the supporting blocks are in contact with the lower surface of the bearing plate.

As an improved scheme, the method is characterized in that:

the loading device comprises a first loading mechanism and a second loading mechanism; the first loading mechanism includes a pair of first links;

a pair of first goods loading openings are formed in the second end door and are close to the position above the second end door;

each first loading port is internally provided with a retractable connecting pipe;

the first connecting rods correspond to the first loading openings one by one, and are vertically arranged on the second end door relative to the position, close to the side edge of the second end door, of the first loading opening;

each first connecting rod is rotatably sleeved with a first goods loading opening sealing cover;

a first sealing gasket is arranged on each first loading port sealing cover at a position corresponding to the first loading port;

a first mounting buckle is arranged on the position, corresponding to one surface of the first loading port, of each first loading port sealing cover and far away from the first connecting rod;

and a first mounting clamp hole matched with the first mounting clamp is formed in the position, corresponding to the first mounting clamp, of the second end door.

As an improved scheme, the method is characterized in that:

the second loading mechanism comprises a pair of second connecting rods;

a pair of second goods loading openings is formed in the top plate;

the second connecting rods correspond to the second loading openings one by one, and the second connecting rods are arranged on the top plate and are close to the side edges of the top plate relative to the second loading openings;

each second connecting rod is rotatably sleeved with a second goods loading opening sealing cover;

a second sealing gasket is arranged on each second loading port sealing cover at a position corresponding to the second loading port;

a second mounting buckle is arranged on the position, corresponding to one surface of the second loading port, of each second loading port sealing cover and far away from the second connecting rod;

and a second mounting clamp hole matched with the second mounting clamp is formed in the position, corresponding to the second mounting clamp, on the top plate.

As an improved scheme, the method is characterized in that:

the regulating device comprises a control disc and a controller;

the operating panel is mounted on the second end door at a position below the pair of first loading ports;

an upturning door control button, a conveyor belt start-stop button and a discharge start-stop button are arranged on the control panel;

a connecting rod is arranged on the second end door and positioned on one side of the control panel;

a protective cover matched with the control panel is rotatably sleeved on the connecting rod;

the controller is installed in the container box body, and the controller respectively with small-size arm, the motor, vertical electric telescopic handle, the door operating button that turns over on, the conveyer belt opens and stops the button and unload and open and stop button electric connection.

As an improved scheme, the method is characterized in that:

a first observation port is formed in the position, close to the upper part of the first end door, of the first end door; a box door is arranged on one side plate; a door lock is arranged on the box door; and a second observation port is formed in the position, close to the upper part of the box door, of the box door.

The utility model has the advantages that:

the container capable of automatically unloading disclosed by the utility model is convenient for loading aluminum profiles or aluminum profile raw materials with different small specifications by arranging the first loading port and the second loading port, and can load the aluminum profiles or aluminum profile raw materials with medium specifications or large specifications from the door of the side plate; a plurality of loading entrances are provided, so that the utilization rate of the container is improved; the discharging device is arranged, so that aluminum profiles or aluminum profile raw materials in the container can be automatically discharged, the manual workload is reduced, the discharging time is saved, and the discharging efficiency of the container is improved.

Drawings

Fig. 1 is an internal structure view of an automatic unloading container according to an embodiment of the present invention;

fig. 2 is a block diagram of an embodiment of the invention at a first end door of an automatically unloadable container;

fig. 3 is a block diagram of an embodiment of the invention at a second end door of an automatically unloadable container;

fig. 4 is a block diagram of an embodiment of the invention at the top panel of an automatically unloadable container;

fig. 5 is a diagram of a side panel of an automatically unloadable container in an embodiment of the invention;

fig. 6 is an internal cross-sectional view of an automatically unloadable container in an embodiment of the invention.

The components in the drawings are numbered as follows:

1. a container body; 11. a side plate; 12. A top plate; 13. a base plate; 14. a first end door; 15. A second end door; 21. a carrier plate; 22. a support block; 31. a small mechanical arm; 32. a support plate; 34. A mechanical arm base; 61. an upturning door; 62. a door lock lever; 63. a door locking rod limiting clamping groove; 64. a vertical electric telescopic rod; 65. a hinged lever; 66. a vertical electric telescopic rod protective housing; 51. An upturning door control button; 52. a conveyor belt start-stop button; 53. a discharge start-stop button; 54. a protective cover; 111. a box door; 112. a door lock; 113. a second viewing port; 141. a first viewing port; 331. a motor; 332. a conveyor belt; 333. a first roller support; 334. a first rotating roller; 336. a driven roller support; 337. a driven roller; 411. a first loading port; 412. a collapsible connecting tube; 413. a first link; 414. a first loading port sealing cover; 415. a first seal gasket; 416. a first mounting buckle; 417. a first mounting clip hole; 421. a second loading port; 422. a second link; 423. a second mouth sealing cover; 424. a second gasket; 425. a second mounting buckle; 426. and a second mounting clip hole.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present disclosure.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature "front end" or "middle portion" or "back end" of the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on" or "over" a second feature may mean that the first feature is directly above or obliquely above the second feature, or that only the first feature is at a higher level than the second feature.

It will be understood that when an element is referred to as being "mounted on" or "provided on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "corresponding," "upper," "front," "back," and the like as used herein are for illustrative purposes only and do not denote a single embodiment.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Example 1

The embodiment provides a container capable of automatically unloading and adapting to aluminum profiles with various specifications, as shown in fig. 1 to 6, the container comprises a container body 1, a bearing device, a loading device, an unloading device and a regulating device; the bearing device is arranged in the container body 1; the loading device is arranged on the side surface of the container body 1; the unloading device and the bearing device are correspondingly arranged on the container body 1, and the unloading device is positioned below the bearing device; the regulating device is arranged on one side of the container body 1; the bearing device is used for bearing goods; the loading device is used for loading goods into the container body 1; the unloading device is used for automatically unloading goods in the container body 1 to the outside of the container body 1; the regulating device is connected with the unloading device and is used for controlling the operation of the unloading device.

The container body 1 comprises a top plate 12, a bottom plate 13, a first end door 14, a second end door 15 and a pair of side plates 11; the bottom plate 13 is rectangular, and the two side plates 11 are respectively vertically arranged on the upper surface of the bottom plate 13 and positioned at the edges of the two long edges of the bottom plate 13; the first end door 14 is matched with the second end door 15, that is, the length and the width of the first end door 14 are equal to those of the second end door 15, and the first end door 14 and the second end door 15 are respectively vertically installed on the upper surface of the bottom plate 13 and positioned at the edges of two short sides of the bottom plate 13; the top plate 12 is matched with the bottom plate 13, the top plate 12 is arranged above the bottom plate 13, short sides of two sides of the top plate 12 are respectively connected with top edges of the first end door 14 and the second end door 15, and long sides of two sides of the top plate 12 are respectively connected with top edges of the pair of side plates 11; the top plate 12, the floor 13, the first end door 14, the second end door 15 and the pair of side plates 11 form a container body 1 in a rectangular parallelepiped shape.

The unloading device comprises a transmission mechanism, a discharge mechanism, a pair of supporting plates 32 and eight mechanical arm bases 34; a pair of supporting plates 32 and the bearing device are correspondingly arranged in the container body 1; the transmission mechanism is arranged in the middle of the upper surface of the bottom plate 13 along the length direction of the bottom plate 13, and the transmission direction of the transmission mechanism is parallel to the long edge of the bottom plate 13; the eight mechanical arm bases 34 are symmetrically arranged on the upper surface of the bottom plate 13 relative to the transmission mechanism, namely 4 mechanical arm bases 34 are respectively arranged at positions, corresponding to two sides of the transmission mechanism, on the upper surface of the bottom plate 13; each mechanical arm base 34 is hinged with a small mechanical arm 31; the upper end of each small mechanical arm 31 is connected with the lower surface of the supporting plate 32; the discharging mechanism is arranged at the tail end of the transmission direction of the transmission mechanism; the movable ends of the eight small mechanical arms 31 are respectively connected to the lower ends of the two support plates 32, namely four small mechanical arms 31 are arranged at the lower end of each support plate 32, when goods are loaded, the small mechanical arms 31 can support the support of the support plates 32, and when the goods are unloaded, the small mechanical arms 31 can drive the support plates 32 to move; correspondingly, the small mechanical arm 31 adopts a double-shaft mechanical arm, when unloading is needed, the small mechanical arm 31 drives the supporting plates 32 to incline, so that the two supporting plates 32 form a V-shaped structure, and a certain distance exists between the lower ends of the two supporting plates 32, so that the goods in the container body 1 slide down from the supporting plates 32 to the conveyor belt 332, and the primary unloading action of the goods is completed; it should be noted that the number of the robot base 34 and the small robot 31 can be set according to the requirement in the actual production, and the eight are only one embodiment, so the protection scope of the present invention cannot be limited thereby.

The transmission mechanism comprises a motor 331, a conveyor belt 332, a first rotating roller support 333, a first rotating roller 334, a synchronous belt and eight second rotating roller supports 336; the first roller bracket 333 is mounted on the base plate 13; the first rotating roller 334 is rotatably mounted on the first rotating roller bracket 333, and one end of the rotating shaft of the first rotating roller 334 is connected with a driven wheel; the first roller 334 is a driving roller for driving the belt 332 and the second roller 337 to rotate.

The motor 331 is arranged on the bottom plate 13, and the output end of the motor 331 is connected with a driving wheel; the driving wheel is connected with the driven wheel through a synchronous belt; the driving wheel, the driven wheel and the synchronous belt are not shown on the way due to the view angle of the sectional view; the motor 331 drives the driving wheel to rotate, the driving wheel drives the driven wheel to rotate through the synchronous belt, and the driven wheel drives the first rotating roller 334 to rotate.

Eight second roller brackets 336 are arranged on the bottom plate 13 corresponding to the first roller brackets 333; the eight second rotating brackets 336 are installed on the same line with the first rotating roller bracket 333.

Each second roller support 336 is rotatably provided with a second roller 337; the conveyor belt 332 is sleeved on the first rotating roller 334 and the eight second rotating rollers 337; the eight second rotating rollers 337 can also support the belt 332 while serving as a power transmission device.

It should be noted that the number of the second roller holders 336 and the second rollers 337 can be set according to the requirement of the actual production, and eight are set here only one embodiment, so the protection scope of the present invention cannot be limited thereby.

The discharging mechanism comprises an upturning door 61, a door locking rod 62, a hinge rod 65, a pair of door locking rod limiting clamping grooves 63 and a pair of vertical electric telescopic rods 64; the hinge rod 65 is mounted to the first end door 14 at a position adjacent to the lower end of the first end door 14; the upper end of the upturned door 61 is rotatably sleeved in the middle of the hinge rod 65, and the upturned door 61 is arranged corresponding to the conveyor belt 332;

the two door locking rod limiting clamping grooves 63 are respectively arranged on the first end door 14 corresponding to two sides of the upturned door 61, and the door locking rod limiting clamping grooves 63 are lower than the hinge rod 65; two ends of the door locking rod 62 are respectively arranged in the two door locking rod limiting clamping grooves 63; the vertical electric telescopic rods 64 correspond to the door locking rod limiting clamping grooves 63 one by one, and the vertical electric telescopic rods 64 are installed on the first end door 14 through connecting seats and correspond to positions between the door locking rod limiting clamping grooves 63 and the tilt-up door 61;

the vertical electric telescopic rod 64 is arranged corresponding to the door locking rod 62, and the vertical electric telescopic rod 64 is arranged higher than the hinge rod 65; the telescopic ends of the two vertical electric telescopic rods 64 extend vertically downwards and are connected with the door locking rod 62; the two vertical electric telescopic rods 64 are used for driving the door locking rod 62 to move in the vertical direction; the door locking rod 62 is used for limiting the turning angle of the upturned door 61 in the vertical direction; the fixed ends of the vertical electric telescopic rods 64 are covered with vertical electric telescopic rod protective shells 66 with openings at the bottoms; the vertical electric telescopic rod protective shell 66 is used for protecting the vertical electric telescopic rod 64 and preventing the container from damaging the vertical electric telescopic rod 64 in the transportation process;

correspondingly, the connection manner of the flip-up door 61 and the hinge rod 65 includes but is not limited to: the edge of the upper end of the upturned door 61 is welded or fixedly provided with a rotating pipe, a rotating limiting groove matched with the rotating pipe is arranged on the hinged rod 65, and the upturned door 61 is rotatably sleeved on the hinged rod 65 through the matching of the rotating pipe and the rotating limiting groove;

correspondingly, in the embodiment, the outer surface of the upturned door 61 is provided with a handle, and when unloading is needed, the upturned door 61 is opened through the handle, so that goods can be transported out of the container body 1 from the transmission belt 332; correspondingly, because the upturned door 61 is hinged to the hinge rod 65, in the transportation process, the upturned door 61 can rotate due to the hinging action, so that the inside of the container body 1 is not a completely closed space, and therefore in consideration of the problem, the door locking rod 62, the door locking rod limiting clamping groove 63 and the vertical electric telescopic rod 64 are designed to block the upturned door 61, correspondingly, the width of the door locking rod limiting clamping groove 63 is shorter, so that the door locking rod 62 is arranged close to the upturned door 61, the rotation of the upturned door 61 is limited in the horizontal direction, when unloading is needed, the vertical electric telescopic rod 64 drives the door locking rod 62 to move upwards to be away from the door locking rod limiting clamping groove 63, and further, the blocking of the door locking rod 62 to the upturned door 61 is cancelled, and the upturned door 61 can be opened; correspondingly, a groove is formed in the first end door 14 corresponding to the inner side edge of the upturned door 61 and used for clamping the upturned door 61 and limiting the overturning angle of the upturned door 61 in the vertical direction on the other side.

The bearing device comprises a pair of bearing plates 21 and a plurality of supporting blocks 22; a pair of the support plates 32 horizontally arranged constitute a first placing area; the two bearing plates 21 are symmetrically arranged in the container body 1 about the first placement area, the bearing plates 21 correspond to the supporting plates 32 one by one, and the upper surfaces of the bearing plates 21 are flush with the upper surfaces of the horizontally arranged supporting plates 32; the adjacent bearing plates 21 and the adjacent support plates 32 are arranged closely, and the upper surfaces of the two bearing plates 21 and the first placing area form a cargo placing area; a plurality of supporting blocks 22 are arranged on the upper surface of the bottom plate 13, and the upper ends of the supporting blocks 22 are in contact with the lower surface of the bearing plate 21;

in the present embodiment, there are eight support blocks 22; goods to be transported can be placed on the goods placement area; four supporting blocks 22 are uniformly distributed at the lower end of each bearing plate 21, and the supporting blocks 22 are used for supporting the bearing plates 21. It should be noted that the number of the supporting blocks 22 can be set according to the requirements of the actual production, and eight are provided here only for one embodiment, so that the protection scope of the present invention cannot be limited thereby.

The loading device comprises a first loading mechanism and a second loading mechanism; the first loading mechanism includes a pair of first links 413; a pair of first loading ports 411 are formed on the second end door 15 and close to the position above the second end door 15; a retractable connecting pipe 412 is arranged in each first cargo port 411; when adorning tiny graininess or miniature aluminium alloy or aluminium alloy raw materials, can pull open collapsible connecting pipe 412 with the loading device lug connection of tiny graininess or miniature aluminium alloy or aluminium alloy raw materials, convenience when guaranteeing the loading.

The first connecting rods 413 correspond to the first loading ports 411 one by one, and the first connecting rods 413 are vertically installed on the second end door 15 at a position close to the side edge of the second end door 15 relative to the first loading ports 411; each first connecting rod 413 is rotatably sleeved with a first goods loading opening sealing cover 414; a first sealing gasket 415 is arranged on each first goods-loading opening sealing cover 414 corresponding to the first goods-loading opening 411; the first loading port 411 can be completely closed by the first loading port sealing cover 414 to which the first gasket 415 is attached.

A first mounting buckle 416 is arranged on each first loading port sealing cover 414 corresponding to one surface of the first loading port 411 and far away from the first connecting rod 413; a first mounting buckle hole 417 matched with the first mounting buckle 416 is formed in the position, corresponding to the first mounting buckle 416, of the second end door 15; the first loading port sealing cover 414 can be closed to the first loading port 411 by the fitting of the first mounting hooks 416 and the first mounting fastening holes 417.

The second loading mechanism includes a pair of second links 422; the top plate 12 is provided with a pair of second cargo holes 421; a medium volume of cargo may be loaded through the second loading port 421.

The second connecting rods 422 correspond to the second loading ports 421 one by one, and the second connecting rods 422 are installed on the top plate 12 at positions close to the side edges of the top plate 12 relative to the second loading ports 421; each second connecting rod 422 is rotatably sleeved with a second cargo hole sealing cover 423; a second sealing gasket 424 is arranged on each second cargo hole sealing cover 423 corresponding to the second cargo hole 421; the second loading port 421 can be completely sealed by the second loading port sealing lid 423 attached with the second gasket 424.

A second mounting buckle 425 is arranged on each second cargo hole sealing cover 423 corresponding to one surface of the second cargo hole 421 and far away from the second connecting rod 422; a second mounting clip hole 426 matched with the second mounting clip 425 is formed in the top plate 12 at a position corresponding to the second mounting clip 425; the second loading port sealing cover 423 may be closed to the second loading port 421 by the cooperation of the second mounting snap 425 and the second mounting snap hole 426.

The regulating device comprises a control disc and a controller; the controller is not shown in the drawings; the control panel is mounted on the second end door 15 at a position below the pair of first loading ports 411; an upturning door control button 51, a conveyor belt start-stop button 52 and a discharge start-stop button 53 are arranged on the control panel; the upturned door control button 51 is used for controlling the operation of the vertical electric telescopic rod 64 so as to control the opening and closing of the upturned door 61; the belt start button 52 is used for controlling the operation of the motor 331, and further controlling the operation of the belt 332; the unloading start-stop button 53 is used for controlling the operation of the small robot arm 31, and thus can control the start of unloading.

A connecting rod is arranged on the second end door 15 at one side of the control panel; a protective cover 54 matched with the control panel is rotatably sleeved on the connecting rod; the protective cover 54 is used for placing the button on the control panel to be touched by mistake.

The controller is installed inside the container body 1, and the controller respectively with small-size arm 31, motor 331, vertical electric telescopic handle 64, upturned door operating button 51, conveyer belt start-stop button 52 and unload start-stop button 53 electric connection.

A first observation opening 141 is formed in the first end door 14 at a position close to the upper part of the first end door 14; a second observation port 113 is formed in the position, close to the upper part of the box door 111, of the box door 111; the first viewing port 141 and the second viewing port 113 are used to view the loading and unloading of the cargo inside the container.

A box door 111 is arranged on one side plate 11; a door lock 112 is arranged on the door 111; when the container is used to carry large-volume goods, the goods can be loaded and unloaded through the door 111, and simultaneously, the staff can enter the container body 1 through the door 111.

Based on the structure, the working principle of the container capable of automatically unloading is as follows:

if it is necessary to transport small-sized aluminum profiles or aluminum profile materials through the container capable of automatically discharging loads, the first loading port 411 or the second loading port 421 may be selected for loading according to the specific specifications of the loads.

When fine granular aluminum profiles or aluminum profile raw materials need to be transported through the container capable of automatically unloading, loading can be performed through the first loading port 411; when the cargo is loaded through the first loading port 411, the retractable connecting pipe 412 is extended outward, the cargo feeder is connected to the retractable connecting pipe 412, and the cargo is loaded into the container capable of automatically unloading through the retractable connecting pipe 412.

If it is necessary to transport a medium volume of cargo through the automatically releasable container, the cargo can be loaded through the second loading port 421.

If a large volume of goods is to be transported through the automatically unloadable container, the goods can be loaded through the door 111.

When fine granular aluminum profile raw materials or aluminum profiles with medium volume are transported to a designated position through the container capable of automatically unloading, selecting an unloading position, and placing a receiving device corresponding to the upturned door 61; and then the conveyor belt 332 is started through the conveyor belt start-stop button 52 on the control panel, the conveyor belt start-stop button 52 is pressed, the controller receives a signal for starting unloading, the controller controls the motor 331 to work, the motor 331 drives the driving wheel to run, the driving wheel drives the driven wheel to run through the synchronous belt, the driven wheel drives the first rotating roller 334 to run, and further the conveyor belt 332 can be driven to run.

And then, a button 51 of the upturning door control button on the control panel is pressed, the controller controls a pair of vertical electric telescopic rods 64 to work, and the vertical electric telescopic rods 64 drive the door locking rod 62 to move upwards, so that the door locking rod 62 leaves the door locking rod limiting clamping groove 63.

Then, a discharge start-stop button 53 on the control panel is pressed, the controller controls a plurality of small mechanical arms 31 to work, the small mechanical arms 31 drive a pair of supporting plates 32 to move downwards, the pair of supporting plates 32 are respectively contacted with two sides of the conveyor belt 332 to form a U-shaped conveying groove, the goods can be conveyed to the upper turnover door 61 through the conveyor belt 332, under the action of the conveying force of the conveyor belt 332 and the pushing force of subsequent goods, the goods push the upper turnover door 61 open, and the goods are discharged from the container and conveyed to a goods receiving device; correspondingly, if there is the aluminium alloy of the gliding of not being convenient for, operating personnel can enter into and remove the aluminium alloy to conveyer belt 332 in the box, does not need too much human cost.

When unloading is finished, the conveyor belt start-stop button 52 is pressed to stop the operation of the conveyor belt; then, the unloading start-stop button 53 is pressed, the small mechanical arms 31 drive the pair of supporting plates 32 to move upwards, so that the pair of supporting plates 32 extend into the gap between the pair of bearing plates 21, and the pair of supporting plates 32 and the pair of bearing plates 21 form a cargo bearing flat plate, which is convenient for loading cargos next time; the upturned door control button 51 is pressed down, and the vertical electric telescopic rod 64 drives the door locking rod 62 to move downwards, so that the door locking rod 62 is clamped in the door locking rod limiting clamping groove 63 and used for blocking the upturned door 61.

When large-volume goods are transported to a designated position through the container capable of automatically unloading, the unloading position is selected, and the goods receiving device is placed at the position of the box door 111; the door 111 is opened, the large-volume goods are unloaded through the door 111, and the goods are placed on the receiving device.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same principle as the protection scope of the present invention.

Claims (10)

1. The utility model provides a but automatic discharge and container of multiple specification aluminium alloy of adaptation which characterized in that includes: the container comprises a container body (1), a bearing device, a loading device, an unloading device and a regulating device;

the bearing device is arranged in the container body (1);

the loading device is arranged on the side surface of the container body (1);

the unloading device and the bearing device are correspondingly arranged in the container body (1), and the unloading device is positioned below the bearing device;

the regulating device is arranged on one side of the container body (1);

the bearing device is used for bearing goods to be transported;

the loading device is used for loading goods into the container body (1);

the unloading device is used for unloading the goods in the container body (1) to the outside of the container body (1);

the regulating device is connected with the unloading device and is used for controlling the operation of the unloading device.

2. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 1, wherein:

the container body (1) comprises a top plate (12), a bottom plate (13), a first end door (14), a second end door (15) and a pair of side plates (11);

the bottom plate (13) is rectangular, and the two side plates (11) are respectively vertically arranged on the upper surface of the bottom plate (13) and positioned at the edges of the two long edges of the bottom plate (13);

the first end door (14) is matched with the second end door (15), and the first end door (14) and the second end door (15) are respectively vertically installed on the upper surface of the bottom plate (13) and are positioned at the edges of two short sides of the bottom plate (13);

roof (12) with bottom plate (13) phase-match, roof (12) are located the top of bottom plate (13), just roof (12) both sides minor face respectively with first end door (14) with the top edge of second end door (15) is connected, roof (12) both sides long limit respectively with a pair of the top edge of curb plate (11) is connected.

3. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 2, wherein:

the unloading device comprises a transmission mechanism, a discharge mechanism, a pair of supporting plates (32) and a plurality of mechanical arm bases (34);

the pair of supporting plates (32) and the bearing device are correspondingly arranged in the container body (1);

the transmission mechanism is arranged at the middle position of the upper surface of the bottom plate (13) along the length direction of the bottom plate (13);

the mechanical arm bases (34) are symmetrically arranged on the upper surface of the bottom plate (13) relative to the conveying mechanism;

each mechanical arm base (34) is provided with a small mechanical arm (31);

the upper end of each small mechanical arm (31) is connected with the lower surface of the supporting plate (32);

the discharging mechanism is arranged corresponding to the tail end of the transmission direction of the transmission mechanism.

4. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 3, wherein:

the conveying mechanism comprises a motor (331), a conveying belt (332), a first roller rotating support (333), a first roller (334), a synchronous belt and a plurality of second roller rotating supports (336);

the first rotating roller bracket (333) is arranged on the bottom plate (13);

the first rotating roller (334) is rotatably arranged on the first rotating roller bracket (333), and one end of a rotating shaft of the first rotating roller (334) is connected with a driven wheel;

the motor (331) is arranged on the bottom plate (13), and the output end of the motor (331) is connected with a driving wheel;

the driving wheel is connected with the driven wheel through the synchronous belt;

a plurality of second roller supports (336) and the first roller supports (333) are correspondingly arranged on the bottom plate (13);

a second rotating roller (337) is rotatably mounted on each second rotating roller bracket (336);

the conveyor belt (332) is sleeved on the first rotating roller (334) and the second rotating rollers (337).

5. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 4, wherein:

the discharging mechanism comprises an upturning door (61), a door locking rod (62), a hinge rod (65), a pair of door locking rod limiting clamping grooves (63) and a pair of vertical electric telescopic rods (64);

the hinge rod (65) is mounted on the first end door (14) at a position close to the lower end of the first end door (14);

the upper end of the upward-turning door (61) is rotatably sleeved at the middle position of the hinge rod (65), and the upward-turning door (61) is arranged corresponding to the conveyor belt (332);

the two door locking rod limiting clamping grooves (63) are respectively arranged on the first end door (14) and correspond to two sides of the upturned door (61), and the door locking rod limiting clamping grooves (63) are lower than the hinge rod (65); two ends of the door locking rod (62) are respectively arranged in the two door locking rod limiting clamping grooves (63);

the vertical electric telescopic rods (64) correspond to the door locking rod limiting clamping grooves (63) one by one, and the vertical electric telescopic rods (64) are installed on the first end door (14) through connecting seats and correspond to the positions between the door locking rod limiting clamping grooves (63) and the upturned door (61);

the vertical electric telescopic rod (64) is arranged corresponding to the door locking rod (62), and the vertical electric telescopic rod (64) is arranged higher than the hinge rod (65); the telescopic ends of the two vertical electric telescopic rods (64) extend vertically downwards and are connected with the door locking rod (62); the two vertical electric telescopic rods (64) are used for driving the door locking rod (62) to move in the vertical direction; the door locking rod (62) is used for limiting the turning angle of the upturned door (61);

the fixed ends of the vertical electric telescopic rods (64) are covered with vertical electric telescopic rod protective shells (66) with bottom openings.

6. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 5, wherein:

the bearing device comprises a pair of bearing plates (21) and a plurality of supporting blocks (22); a pair of the supporting plates (32) which are horizontally arranged form a first placing area;

the two bearing plates (21) are symmetrically arranged in the container body (1) relative to the first placement area, the bearing plates (21) correspond to the supporting plates (32) one by one, and the upper surfaces of the bearing plates (21) are flush with the upper surfaces of the horizontally arranged supporting plates (32);

the adjacent bearing plates (21) and the adjacent supporting plates (32) are arranged in an abutting mode, and the upper surfaces of the two bearing plates (21) and the first placing area form a goods placing area;

the supporting blocks (22) are mounted on the upper surface of the base plate (13), and the upper ends of the supporting blocks (22) are in contact with the lower surface of the bearing plate (21).

7. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 6, wherein:

the loading device comprises a first loading mechanism and a second loading mechanism; the first loading mechanism includes a pair of first links (413);

a pair of first goods loading openings (411) are formed in the second end door (15) and are close to the position above the second end door (15);

a retractable connecting pipe (412) is arranged in each first cargo loading opening (411);

the first connecting rods (413) correspond to the first goods loading openings (411) one by one, and the first connecting rods (413) are vertically arranged on the second end door (15) and are close to the side edge of the second end door (15) relative to the first goods loading openings (411);

each first connecting rod (413) is rotatably sleeved with a first goods loading opening sealing cover (414);

a first sealing gasket (415) is arranged on each first goods-loading opening sealing cover (414) at a position corresponding to the first goods-loading opening (411);

a first mounting buckle (416) is arranged on each first loading opening sealing cover (414) corresponding to one surface of the first loading opening (411) and far away from the first connecting rod (413);

and a first mounting clamp hole (417) matched with the first mounting clamp (416) is formed in the position, corresponding to the first mounting clamp (416), of the second end door (15).

8. The container capable of automatically unloading and adapting to aluminum profiles with various specifications as claimed in claim 7, wherein:

the second loading mechanism includes a pair of second links (422);

a pair of second cargo loading ports (421) are formed in the top plate (12);

the second connecting rods (422) correspond to the second loading openings (421) one by one, and the second connecting rods (422) are arranged on the top plate (12) and are close to the side edges of the top plate (12) relative to the second loading openings (421);

each second connecting rod (422) is rotatably sleeved with a second goods loading opening sealing cover (423);

a second sealing gasket (424) is mounted on each second cargo hole sealing cover (423) at a position corresponding to the second cargo hole (421);

a second mounting buckle (425) is arranged on each second cargo hole sealing cover (423) corresponding to one surface of the second cargo hole (421) and far away from the second connecting rod (422);

and a second mounting clamp hole (426) matched with the second mounting buckle (425) is formed in the position, corresponding to the second mounting buckle (425), of the top plate (12).

9. The container capable of automatically unloading and adapting to various specifications of aluminum profiles as claimed in claim 8, wherein:

the regulating device comprises a control disc and a controller;

the control panel is mounted on the second end door (15) at a position below the pair of first loading ports (411);

an upper turnover door control button (51), a conveyor belt start-stop button (52) and a discharge start-stop button (53) are arranged on the control panel;

a connecting rod is arranged at the position, located on one side of the control panel, of the second end door (15);

a protective cover (54) matched with the control panel is rotatably sleeved on the connecting rod;

the controller is installed in the container body (1), and the controller is respectively electrically connected with the small mechanical arm (31), the motor (331), the vertical electric telescopic rod (64), the upturning door control button (51), the conveyor belt start-stop button (52) and the unloading start-stop button (53).

10. The container capable of unloading automatically and adapting to various specifications of aluminum profiles as claimed in claim 9, wherein:

a first observation port (141) is formed in the first end door (14) at a position close to the upper part of the first end door (14);

a box door (111) is arranged on one side plate (11);

a door lock (112) is arranged on the box door (111);

and a second observation port (113) is formed in the position, close to the upper part of the box door (111), of the box door (111).

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