CN114715212B - Container bearing device and container transportation equipment - Google Patents

Abstract

The application discloses container bears device and transportation equipment belongs to transportation equipment's technical field, and wherein, container bears device includes concave chassis and two tractive pillow, and two tractive pillow set up in the both ends of concave chassis, and concave chassis has the loading surface that is used for bearing the container, and tractive pillow has the traction beam, and the one end of traction beam is kept away from the part of loading surface with concave chassis and is connected. The gravity of container after the container is placed on concave chassis acts on the loading surface of concave chassis, and hauling equipment is connected through the part that the pillow was kept away from its loading surface with concave chassis, consequently hauling equipment's traction force accessible is hauled the pillow and is acted on the part that the concave chassis kept away from its loading surface, consequently can make hauling equipment's traction force and the gravity of container act on the different positions of concave chassis to prevent that a certain position of concave chassis from concentrating the atress and damaging, in order to promote the security when transporting the container through the container loading device of this application.

Description

Container bearing device and container transportation equipment

Technical Field

The application belongs to the technical field of transportation equipment, and particularly relates to a container carrying device and container transportation equipment.

Background

The container needs to be placed on the bearing device in the transportation process and transported through the traction device, the bearing device can not only be subjected to the gravity action of the container in the moving process, but also be subjected to the traction action of the traction device, and the bearing device needs to bear larger acting force in the gravity direction due to the dead weight of the container and the weight of objects loaded in the container, so that the acting force in the gravity direction and the acting force in the traction direction act on the bearing device simultaneously, and the reliability of the bearing device is challenged.

Disclosure of Invention

The technical problem that the reliability of the existing conveying device is poor can be solved to a certain extent at least. To this end, the present application provides a container carrier and a container transport device.

In a first aspect, embodiments of the present application provide a container carrier, comprising a concave chassis and two traction pillows,

the traction pillow is arranged at two ends of the concave underframe, the concave underframe is provided with a bearing surface for bearing a container, the traction pillow is provided with a traction beam, and one end of the traction beam is connected with a part of the concave underframe, which is far away from the bearing surface.

In some embodiments, the concave bottom frame comprises a cross beam and two side walls, the two side walls are oppositely arranged, two ends of the cross beam are respectively connected with the two side walls, the bearing surface is positioned on the side walls, and one end of the traction beam is connected with a part of the side walls away from the bearing surface.

In some embodiments, the side wall comprises an upper side beam, a lower side beam and a stand column, two ends of the cross beam are connected with two opposite lower side beams, the lower side beams are supported on the upper side beam through the stand column, one end of the traction pillow is connected with the upper side beam, and the bearing surface is positioned on the side wall.

In some embodiments, the traction bolster further includes a tail beam that is mounted to a side of the traction beam adjacent the concave chassis and is connected to the upper side beam.

In some embodiments, the traction pillow further comprises a connecting beam, wherein the connecting beam is erected on the traction beam and is positioned on one side of the tail beam, which is away from the concave underframe, and the connecting beam is connected with the upper side beam.

In some embodiments, the traction bolster further comprises a bolster disposed on the traction beam and supported on a side of the connection beam facing the traction beam.

In some embodiments, the traction pillow further comprises a connection plate, one end of the connection plate is connected with the sleeper beam, and the other end of the connection plate is connected with the concave bottom frame.

In some embodiments, the traction bolster further includes a guide plate disposed at a side of the traction beam adjacent the concave chassis, the guide plate having a guide surface facing the concave chassis to guide the container to be placed in the concave chassis.

In some embodiments, the traction bolster further comprises a floor, the floor is disposed on the traction beam, and the tail beam and the connection beam are both disposed on a face of the floor facing away from the traction beam.

In a second aspect, based on the container carrying device, an embodiment of the present application further provides a container transporting device, including a traction device and the container carrying device, where the traction device is connected with the traction pillow.

In the container carrying device provided by the embodiment of the application, the bearing surface which can be used for bearing the container is arranged on the concave underframe, the gravity of the container acts on the bearing surface of the concave underframe after the container is placed on the concave underframe, and the traction equipment is connected with the part of the concave underframe away from the bearing surface through the traction pillow, so that the traction force of the transportation equipment can act on the part of the concave underframe away from the bearing surface through the traction pillow, and the traction force of the traction equipment and the gravity of the container can act on different positions of the concave underframe, so that the container is prevented from being damaged due to concentrated stress at a certain position, and the safety of the container is improved when the container is transported by the container carrying device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural view of a container loading device disclosed in an embodiment of the present application;

FIG. 2 illustrates a schematic front view of a container carrier disclosed in an embodiment of the present application;

FIG. 3 illustrates a schematic bottom structural view of a container carrier disclosed in an embodiment of the present application;

fig. 4 shows a schematic view of a female chassis of a container carrier as disclosed in an embodiment of the present application

Fig. 5 shows a schematic view of a traction pillow of a container carrying device disclosed in an embodiment of the present application;

fig. 6 shows a schematic view of a container carrier disclosed in an embodiment of the present application after a container is installed.

Reference numerals:

100-traction pillow, 110-traction beam, 120-tail beam, 130-connection beam, 140-pillow beam, 150-connection plate, 160-guide plate, 170-floor,

200-concave underframe, 210-side wall, 211-upper side beam, 212-lower side beam, 213-upright post, 220-cross beam, 221-bearing surface,

300-container.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all the directional indicators in the embodiments of the present invention are only used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture, and if the specific posture is changed, the directional indicators are correspondingly changed.

In the present invention, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The present application is described below with reference to specific embodiments in conjunction with the accompanying drawings:

example 1

Referring to fig. 1 to 6, the embodiment of the present application discloses a container carrying device, which includes a traction pillow 100 and a concave chassis 200, and the container 300 carrying device can be used for carrying a container 300 and is connected with a traction device for achieving the purpose of transporting the container 300.

Wherein the concave chassis 200 is a basic component of the container 300 carrying device of the present application, which is capable of providing a mounting basis for other at least part of the components of the container 300 carrying device, while the concave chassis 200 is also used for carrying the container 300, the container 300 can be placed on the concave chassis 200. The traction pillow 100 is connected with the concave chassis 200, and the traction pillow 100 is also connected with the transporting device, so that the container 300 placed on the concave chassis 200 is movable.

Specifically, the concave chassis 200 is provided with a bearing surface 221, and the bearing surface 221 may be used to bear the container 300, so that the container 300 may be placed on the bearing surface 221 of the concave chassis 200. Accordingly, the female chassis 200 has a first side adjacent the bearing surface 221 and a second side facing away from the bearing surface 221, such that the first side and the second side are disposed opposite. The gravity of the container 300 borne by the bearing surface 221 is greatest when the container 300 is placed on the bearing surface 221 of the concave chassis 200, and correspondingly, the first side of the concave chassis 200 acts to primarily bear the gravity of the container 300, and the second side of the concave chassis 200 bears less of the gravity of the container 300 than the first side.

The draft sill 100 above may be specifically configured to include a draft sill 110, the draft sill 110 being a base member of the draft sill 100, the draft sill 110 may provide a mounting base for the draft sill 100 and other at least partial components of the container 300 carrying apparatus, the draft sill 110 having a first end and a second end, wherein the second end of the draft sill 110 may be coupled to a draft gear, the first end of the draft sill 110 may be coupled to the concave chassis 200 so as to be capable of dragging the concave chassis 200 and the container 300 on the carrying surface 221 of the concave chassis 200.

When the traction device drags the concave chassis 200 to move through the traction beam 110, the traction force of the traction device can be transmitted to the concave chassis 200 through the traction beam 110, so that the concave chassis 200 is simultaneously subjected to the traction force transmitted by the traction beam 110 and the gravity of the container 300 placed on the bearing surface 221 of the concave chassis 200 during the movement of the concave chassis 200 and the container 300.

The first end of the draft sill 110 is specifically connectable to the second side of the concave chassis 200 such that the draft sill 110 is conductive to the concave chassis 200 such that the draft force is applied to the second side of the concave chassis 200 and the weight of the container 300 is applied to the bearing surface 221 of the concave chassis 200, i.e., the weight of the container 300 is applied to the first side of the concave chassis 200. The traction force conducted by the traction beam 110 and the gravity of the container 300 are respectively applied to the second side and the first side of the concave chassis 200 with a certain interval therebetween, so that the traction force and the gravity can be applied to different portions of the concave chassis 200 to prevent the first side portion of the concave chassis 200 from being intensively stressed, thereby preventing the first side portion of the concave chassis 200 from being deformed and damaged.

In the container 300 carrying device provided by the embodiment of the application, the concave chassis 200 is provided with the carrying surface 221 for carrying the container 300, after the container 300 is placed on the concave chassis 200, the gravity of the container 300 acts on the first side adjacent to the carrying surface 221 on the concave chassis 200, the traction device is connected with the second side of the concave chassis 200 through the traction pillow 100, so that the traction force of the conveying device can act on the second side of the concave chassis 200 through the traction pillow 100, the first side and the second side of the concave chassis 200 are respectively adjacent to and far away from the carrying surface 221 of the concave chassis 200, so that the traction force of the traction device and the gravity of the container 300 act on different positions of the concave chassis 200, and the first side and the second side of the concave chassis 200 are prevented from being damaged by concentrated stress, so that the safety of the container 300 carried by the container 300 carrying device is improved.

In some embodiments, in order that the above concave chassis 200 may carry the container 300 and the container 300 may remain stable after being placed on the concave chassis 200, the above concave chassis 200 may be provided to include a cross beam 220 and two side walls 210, the two side walls 210 may be disposed opposite to each other, the cross beam 220 may be disposed between the two side walls 210, and both ends of the cross beam 220 are connected with the two side walls 210, respectively, such that the two side walls 210 are fixed to both sides of the cross beam 220, respectively. The cross beam 220 may be used to stabilize and secure the connection of the two side walls 210. Specifically, the bearing surface 221 may be disposed on the side wall 210 such that the container 300 may be placed on the side wall 210. When the container 300 is placed on the side wall 210, the gravity of the container 300 mainly acts on the bearing surface 211 of the side wall 210, and the traction pillow 100 is connected with one side of the side wall 210 away from the bearing surface 221, so that the traction force of the traction device can be conducted to one side of the side wall 210 away from the bearing surface 221 through the traction pillow 100, and the gravity of the container and the traction force of the traction device act on different parts of the side wall 210 to prevent a certain part of the side wall from being damaged due to concentrated stress.

The first end of the traction beam 110 may be connected to a portion of the side wall 210 adjacent to the second side, so that traction force of the transporting device may act on the portion of the side wall 210 adjacent to the second side through the traction beam 110, thereby enabling traction force of the traction device to act on different positions of the side wall 210 and the cross beam 220, respectively, and preventing a certain position of the side wall 210 and the cross beam 220 from being damaged due to concentrated stress.

In some embodiments, the above side wall 210 may be provided to include the upper side rail 211, the lower side rail 212, and the pillar 213 provided on the lower side rail 212, and the pillar 213 supported on the upper side rail 211 such that the lower side rail 212 may be supported on the upper side rail 211 by the pillar 213, and thus, the upper side rail 211 and the lower side rail 212 are provided up and down. The cross members 220 may be connected to the lower side members 212 of the two side walls 210, respectively, such that the lower side members 212 are adjacent to a first side and the corresponding upper side members 211 are adjacent to a second side, and the first ends of the draft sill 110 may be connected to the upper side members 211 such that the draft force of the draft gear is primarily applied to the upper side members 211. The bearing surface 221 is disposed on the lower side member 212, and the gravity of the container 300 acts on the lower side member 212, so that the upper side member 211 and the lower side member 212 can be prevented from simultaneously bearing the traction force of the traction apparatus and the gravity of the container 300, and the structural reliability of the cross member 220 and the side wall 210 can be improved.

Specifically, the bearing surface 221 may be disposed on an end surface of the lower side beam 212 facing the upper side beam 211, and the two side walls 210 may form a containing space for containing the container 300, when the container 300 is placed on the side walls 212, the two side walls 210 may play a role in limiting the container 300, so that the container 300 may be kept stable during the process of moving on the lower side beam 212, and the container 300 is prevented from toppling.

Further, the upright post 213 functions to connect the upper side member 211 and the lower side member 212 so that the upper side member 211 can be held stable with respect to the lower side member 212, and so that the lower side member 212 can move with the upper side member 211 when the force of the traction apparatus acts on the upper side member 211. The number of the pillars 213 may be plural, and the plurality of pillars 213 may be distributed between the upper side rail 211 and the lower side rail 212 in the length direction of the upper side rail 211 and the lower side rail 212, so that each portion of the upper side rail 211 may be supported. The plurality of stand columns 213 may also be disposed crosswise between the upper side member 211 and the lower side member 212 such that the two mutually intersecting stand columns 213 can mutually support, thereby better supporting the upper side member 211.

In some embodiments, in order to stabilize and secure the connection effect of the traction pillow 100 and the concave chassis 200, the traction pillow 100 is further provided with a tail beam 120, and the tail beam 120 may be disposed at a first end of the traction beam 110 and connected with the first end of the traction beam 110. Specifically, the tail beam 120 may be mounted on the draft sill 110 such that the tail beam 120 has a relatively large contact area with the draft sill 110, thereby providing a reliable connection between the tail beam 120 and the draft sill 110. The tail beam 120 is further connected with the upper side beams 211 of the concave underframe 200, specifically, two ends of the tail beam 120 can be respectively connected with the upper side beams 211 of the two side walls 210, so that the tail beam 120 and the concave underframe 200 have a plurality of connection positions, and the connection between the tail beam 120 and the concave underframe 200 can be stable and reliable.

Traction of the traction device can be applied to the upper side rail 211 through the traction beam 110 and the tail beam 120, so that traction of the traction device can be concentrated to the upper side rail 211, thereby allowing the traction force to be applied to a position away from the lower side rail 212 of the concave chassis 200.

The tail beam 120 and the traction beam 110 may be fixedly connected by welding, and two ends of the tail beam 120 may be connected to the two upper side beams 211 by welding.

In some embodiments, the traction pillow 100 further includes a connection beam 130, where the connection beam 130 may be connected to the traction beam 110, specifically, the connection beam 130 may be erected on the traction beam 110 and located between the first end and the second end of the traction beam 110, and the connection beam 130 is fixedly connected to the traction beam 110, so as to enhance the overall structural strength of the traction pillow 100. The connection beam 130 may also be connected to the two upper side beams 211 of the concave chassis 200, so that the connection beam 130 and the tail beam 120 may be connected to the two upper side beams 211 at the same time, thereby making the connection effect of the traction pillow 100 and the concave chassis 200 more reliable.

In addition, after the traction pillow 100 is erected on the traction beam 110, the traction force of the traction device is conducted to the traction beam 110, and then the traction force can be conducted to the two upper side beams 211 through the connecting beam 130 connected with the traction beam 110, so that the traction force is dispersed to the two side beams, and thus the traction force can not be concentrated on a certain part of the concave underframe 200, and the reliability of the concave underframe 200 is better.

Because the tail beam 120 and the link beam 130 are both erected on the draft sill 110, the draft force of the draft gear is transferred to the tail beam 120 and the link beam 130 located on the upper side of the draft sill 110, which more fully positions the application of the draft force away from the lower side sill 212 of the concave chassis 200.

In some embodiments, the container loading apparatus of the present application is further provided with a bolster 140, and the bolster 140 may be disposed on the draft sill 110 and supported on a side of the connection beam 130 facing the draft sill 110. Specifically, the bolster 140 may be disposed in cross-connection with the draft sill 110, and the bolster 140 may strengthen the structural strength of the draft sill 110 and better support the mounting connection beam 130.

In some embodiments, the traction pillow 100 above is further provided with a guide plate 160, the guide plate 160 may be connected to the first end of the traction beam 110, the guide plate 160 is disposed obliquely, specifically, the guide plate 160 is disposed to extend along the direction from the second side to the first side of the concave chassis 200, the guide plate 160 is provided with a guide surface, the guide surface is a plate surface of the guide plate 160 facing away from the first end of the traction beam 110, and the guide surface extends in the direction from the second end to the first end of the traction beam 110. The guide plates 160 of the traction pillow 100 positioned at both ends of the concave chassis 200 are symmetrically arranged such that the inclined directions of the two guide plates 160 are opposite, and the guide surfaces of the two guide plates 160 can guide the container 300 during the process of placing the container 300 on the concave chassis 200, thereby facilitating the placement of the container 300 on the concave chassis 200.

Specifically, the two guide plates 160 are disposed opposite to each other, the guide surfaces of the two guide plates 160 can limit the container 300 during the placement of the container 300 on the concave chassis 200, and the obliquely disposed guide surfaces can guide the container 300 to move toward the concave chassis 200, so that the container 300 can be conveniently placed on the concave chassis 200.

In some embodiments, the traction pillow 100 above is further provided with a floor 170, the floor 170 is disposed on the traction beam 110, and the tail beam 120 and the connection beam 130 may be disposed on the floor 170, the floor 170 is a plate-shaped structural member, so that the floor 170 has a relatively large plate surface, and the tail beam 120 and the connection beam 130 may have a relatively large contact area with the floor 170 after being disposed on the floor 170, so that the tail beam 120 and the connection beam 130 may maintain stable and reliable structure.

In addition, the floor 170 may also provide a mounting basis for mounting other at least partial components of the container 300 carrying device. When servicing the container 300 carrying apparatus of the present application, the operator may also stand on the floor 170 so that the operator's safety during servicing may be ensured.

In some embodiments, the traction pillow 100 above is further provided with a connection plate 150, one end of the connection plate 150 is connected with the sleeper beam 140, and the other end of the connection plate 150 may be connected with the concave chassis 200, so that the connection effect of the traction pillow 100 and the concave chassis 200 may be enhanced, and the connection effect of the traction pillow 100 and the concave chassis 200 may be more reliable.

Specifically, an end of the connection plate 150 facing away from the bolster 140 may be connected with the upright 213 of the concave chassis 200 adjacent to the traction pillow 100, such that the upright 213 may support the connection plate 150, such that the upright 213 may also support the bolster 140, thereby making the structural strength of the bolster 140 better.

Example two

Based on the above container carrying device, the embodiment of the application also provides container transport equipment, which comprises a traction device and the above container carrying device.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Further, one skilled in the art can engage and combine the different embodiments or examples described in this specification.

Claims (5)

1. A container carrying device is characterized by comprising a concave underframe (200) and two traction pillows (100),

the traction pillow (100) is arranged at two ends of the concave bottom frame (200), the concave bottom frame (200) is provided with a bearing surface (221) for bearing a container (300), the traction pillow (100) is provided with a traction beam (110), and one end of the traction beam (110) is connected with a part, away from the bearing surface (221), of the concave bottom frame (200);

the concave bottom frame (200) comprises a cross beam (220) and two side walls (210), the two side walls (210) are oppositely arranged, two ends of the cross beam (220) are respectively connected with the two side walls (210), the bearing surface (221) is positioned on the side walls (210), and one end of the traction beam (110) is connected with a part, far away from the bearing surface (221), of the side walls (210);

the side wall (210) comprises an upper side beam (211), a lower side beam (212) and upright posts (213), two ends of the cross beam (220) are connected with the two opposite lower side beams (212), the lower side beams (212) are supported on the upper side beam (211) through the upright posts (213), one end of the traction pillow (100) is connected with the upper side beam (211), traction force of traction equipment acts on the upper side beam (211), the bearing surface (221) is positioned on the lower side beam (212), and gravity of the container (300) acts on the lower side beam (212);

the traction pillow (100) further comprises a tail beam (120), wherein the tail beam (120) is erected on one side, adjacent to the concave bottom frame (200), of the traction beam (110) and is connected with the upper side beam (211);

the traction pillow (100) further comprises a connecting beam (130), wherein the connecting beam (130) is erected on the traction beam (110) and is positioned on one side of the tail beam (120) opposite to the concave bottom frame (200), and the connecting beam (130) is connected with the upper side beam (211);

the traction pillow (100) further comprises a sleeper beam (140), wherein the sleeper beam (140) is arranged on the traction beam (110) and is supported on one side, facing the traction beam (110), of the connecting beam (130).

2. The container carrier according to claim 1, wherein the traction bolster (100) further comprises a connection plate (150), one end of the connection plate (150) is connected to the bolster (140), and the other end of the connection plate (150) is connected to the concave bottom frame (200).

3. The container loading device according to claim 2, wherein the traction pillow (100) further comprises a guide plate (160), the guide plate (160) being arranged at a side of the traction beam (110) adjacent to the concave bottom frame (200), the guide plate (160) having a guide surface facing the concave bottom frame (200) for guiding the container (300) to be placed in the concave bottom frame (200).

4. The container loading device according to claim 1, wherein the traction sleeper (100) further comprises a floor (170), the floor (170) is disposed on the traction beam (110), and the tail beam (120) and the connecting beam (130) are both disposed on a plate surface of the floor (170) facing away from the traction beam (110).

5. Container transportation apparatus comprising a traction device and a container loading device according to any one of claims 1-4, said traction device being connected to said traction pillow (100).