SUMMERY OF THE UTILITY MODEL
In the summary section a series of concepts in a simplified form is introduced, which will be described in further detail in the detailed description section. The inventive content does not imply any attempt to define the essential features and essential features of the claimed solution, nor is it implied to be intended to define the scope of the claimed solution.
In order to solve above-mentioned problem partially at least, the utility model discloses a container transfer device, it includes:
a first carrying device;
the second bearing device is arranged in parallel with the first bearing device at intervals, and the second bearing device and the first bearing device are jointly used for bearing the bottom of the container;
the connecting device comprises a connecting rod and a connecting frame, the connecting rod is detachably arranged on the connecting frame and is detachably connected with both the first bearing device and the second bearing device, and at least one of the horizontal distance between the connecting frame and the first bearing device and the horizontal distance between the connecting frame and the second bearing device is adjustable.
According to the container transfer device of the utility model, the first bearing device and the second bearing device jointly bear the bottom of the container, so that the contact area between the container and the container transfer device can be effectively increased, the deformation of the container in the transfer process is avoided, and the safe transportation is ensured; through the connecting rod and the link, the first bears device and the second bears the dismantlement of device to be connected, and link and the first horizontal distance that bears between the device and the horizontal distance that the link bears between the device and the second at least one adjustable, make the first distance that bears between the device and the second bear the device, just also the length of container transfer device is adjustable promptly, and then make container transfer device can be applicable to the transportation of the container of different length specifications, can effectively promote container transfer device's practicality and transportation efficiency, reduce the cost of transportation, and practice thrift the transit time.
Optionally, the connecting rods connected to the first carrier device and the connecting rods connected to the second carrier device are arranged completely offset in the width direction of the container transfer device.
Optionally, the connecting rod is provided with connecting rod connecting holes at intervals, the first bearing device is provided with a first connecting column and/or a first connecting hole matched with the connecting rod connecting holes, and the second bearing device is provided with a second connecting column and/or a second connecting hole matched with the connecting rod connecting holes.
Optionally, a third connecting column and/or a third connecting hole matched with the connecting rod connecting hole are/is arranged on the connecting frame.
Optionally, the container transferring device further comprises a traveling device disposed at the bottom of the first carrying device and the second carrying device.
Optionally, the running gear is configured as a rail wheel.
Optionally, the container transferring device further comprises a lifting device, the first bearing device comprises a first bearing platform, the second bearing device comprises a second bearing platform, and the lifting device is connected with the first bearing platform and the second bearing platform, so that the first bearing platform and the second bearing platform can be lifted.
Optionally, the lifting device includes a lifting column and a lifting sleeve, the lifting sleeve is connected to the first bearing table and the second bearing table, and the lifting sleeve is sleeved on the lifting column and can be lifted relative to the lifting column.
Optionally, the container transfer device further comprises a guiding device, the guiding device comprises a connecting plate, a guiding column, a guiding sleeve and a fixing seat, the first bearing device further comprises a first base, the second bearing device further comprises a second base, the fixing seat is connected with the first base and the second base, the connecting plate is connected with the first bearing table and the second bearing table, and the guiding sleeve is sleeved on the guiding column and can lift relative to the guiding column.
Optionally, the container transferring device further comprises a control device, and the control device is electrically connected with the traveling device and the lifting device respectively and configured to control the actions of the traveling device and the lifting device.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that embodiments of the invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring embodiments of the present invention.
In the following description, for the purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It is apparent that the practice of the invention is not limited to the specific details familiar to those skilled in the container art. The following detailed description of the preferred embodiments of the invention, however, the invention is capable of other embodiments in addition to those detailed.
Ordinal words such as "first" and "second" are referred to in this application as labels only, and do not have any other meanings, such as a particular order, etc. Also, for example, the term "first component" does not itself imply the presence of "second component", and the term "second component" does not itself imply the presence of "first component". The terms "upper", "lower", "front", "rear", "left", "right" and the like as used herein are for clarity of description only and are not limiting.
Hereinafter, specific embodiments of the present invention will be described in more detail with reference to the accompanying drawings, which illustrate representative embodiments of the present invention and do not limit the present invention.
Referring to fig. 1, the present invention provides a container transferring device 100, which includes a first bearing device 110, a second bearing device 120 and a connecting device 130.
The first bearing device comprises a first base 113 and a first bearing platform 112 arranged on the first base 113. The first base 113 includes a first chassis 113a and a first bottom plate 113b, the first chassis 113a is configured substantially as a rectangular frame, and the first bottom plate 113b is disposed on the first chassis 113 a. The first stage 112 is disposed on the first base plate 113b to enhance stability of the first stage 112. The top of the first carrier table 112 is configured substantially planar.
Similarly, the second mounting device includes a second base 123 and a second bearing platform 122 disposed on the second base 123. The second base 123 includes a second chassis 123a configured substantially as a rectangular frame, and a second bottom plate 123b provided on the second chassis 123 a. The second stage 122 is disposed on the second base plate 123b to enhance stability of the second stage 122. The top of the second carrier table 122 is configured substantially planar.
The second carrier 120 is horizontally spaced apart from the first carrier 110, and is connected thereto by a connecting device 130. The first bearing device 110 and the second bearing device 120 are commonly used for bearing the bottom of the container, that is, the first bearing platform 112 and the second bearing platform 122 are commonly used for bearing the bottom of the container, so as to effectively increase the contact area between the container and the container transferring device 100, avoid the deformation of the container during the transferring process, and be beneficial to ensuring the safe transportation.
The connection device 130 includes a connection rod 131 and a connection frame 132. The connecting frame 132 is constructed substantially as a rectangular frame structure. The connection rod 131 is detachably disposed on the connection frame 132, and the connection rod 131 is detachably connected to both the first carrier 110 and the second carrier 120. At least one of a horizontal distance between the connection frame 132 and the first carriage 110 and a horizontal distance between the connection frame 132 and the second carriage 120 is adjustable. That is, the horizontal distance between the connecting frame 132 and the first carriage 110 is adjustable, and/or the horizontal distance between the connecting frame 132 and the second carriage 120 is adjustable. By adjusting the horizontal distance between the connecting frame 132 and the first carrying device 110, or adjusting the horizontal distance between the connecting frame 132 and the second carrying device 120, or jointly adjusting the horizontal distance between the connecting frame 132 and the first carrying device 110 and the horizontal distance between the connecting frame 132 and the second carrying device 120, the horizontal distance between the first carrying device 110 and the second carrying device 120 can be adjusted, so that the length of the container transfer device 100 can be adjusted, the container transfer device 100 can be suitable for transferring containers with different length specifications, the practicability and the transferring efficiency of the container transfer device 100 can be effectively improved, the transferring cost is reduced, and the transferring time is saved.
Specifically, referring to fig. 2, link connection holes 133 penetrating through the link 131 are disposed at intervals on the link 131 along a length direction of the link 131. In the illustrated embodiment, the number of the link connection holes 133 is 4. It is understood that the number of the link connecting holes 133 may be set according to actual needs, and is not limited specifically.
With continued reference to fig. 1, the first carrying device 110 is provided with a first connecting post 111 engaged with the connecting rod connecting hole 133. The first connecting column 111 may be fixedly disposed on the first carrier 110 by welding or riveting. In the illustrated embodiment, the first coupling posts 111 are disposed at both sides of one end of the first chassis 123a near the coupling frame 132.
The connecting frame 132 is provided with a third connecting pole 134 which is matched with the connecting rod connecting hole 133. The third connecting column 134 may be fixedly disposed on the connecting frame 132 by welding or riveting. In the illustrated embodiment, the third connection column 134 is provided at both sides of one end of the connection frame 132 adjacent to the first carrier 110 and both sides of one end adjacent to the second carrier 120. The first connecting column 111 and the third connecting column 134 are respectively connected with the connecting rod connecting hole 133 in a matching manner, so that the connection between the first bearing device 110 and the connecting frame 132 can be realized.
The first connection post 111 is preferably configured as a threaded post, with particular reference to fig. 3. When the connection rod 131 is placed on the first chassis 113a and the first connection post 111 is inserted into the connection rod connection hole 133, the connection rod 131 and the first chassis 113a can be detachably coupled together conveniently and quickly by the engagement of the washer 136 and the nut 135 with the screw post.
Likewise, the third connecting pole 134 is also preferably configured as a threaded post, the connecting pole 131 is placed on the connecting frame 132, and after the third connecting pole 134 is inserted into the connecting pole connecting hole 133, the connecting pole 131 and the connecting frame 132 can be detachably connected together conveniently and quickly by means of the matching of the washer 136 and the nut 135 with the threaded post.
In an embodiment not shown, the first connection post 111 may also be configured as a first connection hole, and the first connection hole and the connection rod connection hole 133 may be connected by a fastener such as a bolt to enable detachable connection between the first carrier 110 and the connection rod 131. Similarly, the third connecting rod 134 may be configured as a third connecting hole, and the third connecting hole and the connecting rod connecting hole 133 may be connected by a fastening member such as a bolt, to achieve the detachable connection between the connecting frame 132 and the connecting rod 131.
The first connection post 111 and the third connection post 134 may be respectively coupled with two different link connection holes 133 of the connection rod 131 to adjust a horizontal distance between the first carrier 110 and the connection frame 132. For example, when the first connecting column 111 is coupled with the connecting rod connecting hole 133a of the connecting rod 131, the third connecting column 134 may be coupled with the connecting rod connecting hole 133b of the connecting rod 131, the connecting rod connecting hole 133c, or the connecting rod connecting hole 133d, so that the horizontal distance between the first supporting device 110 and the connecting frame 132 is different.
With continued reference to fig. 1, the second supporting device 120 is provided with a second connecting column 121 which is matched with the connecting rod connecting hole 133. The second connecting column 121 can be fixedly disposed on the second carrier 120 by welding or riveting. In the illustrated embodiment, the second connection posts 121 are disposed at both sides of one end of the second chassis 123a near the connection frame 132.
The second connecting post 121 is preferably configured as a threaded post, and the second connecting post 121 is coupled to the connecting rod coupling hole 133 in the same manner as the first connecting post 111 is coupled to the connecting rod coupling hole 133, which will not be described in detail herein. The horizontal distance between the second supporting device 120 and the connecting frame 132 is adjusted in the same manner as the horizontal distance between the first supporting device 110 and the connecting frame 132, and will not be described herein again.
In the embodiment shown in fig. 1, the connecting rods 131 connected to the connecting frames 132 are provided at both sides of the first and second carriers 110 and 120 in the width direction of the container transferring device 100, and the connecting rods 131 connected to the first carrier 110 and the connecting rods 131 connected to the second carrier 120 are completely staggered. Such an arrangement enables no interference between the connection rods 131 connected to both ends of the connection frame 132 when adjusting the horizontal distance between the connection frame 132 and the first carriage 110 and the connection frame 132 and the second carriage 120.
In the illustrated embodiment, the connecting rods 131 connecting the second carrier 120 and the connecting frames 132 are closer to the centerline of the container transfer device 100 in the width direction of the container transfer device 100. It will be appreciated that the connecting rods 131 connecting the first carrier 110 and the connecting frame 132 may also be positioned closer to the centerline of the container transfer device 100. The connecting rod 131 of the side connected with the first carrying device 110 and the connecting frame 132 may also be disposed closer to the center line of the container transferring device 100. The specific arrangement manner is not limited herein, as long as it can satisfy that when the horizontal distance between the connecting frame 132 and the first carrier 110 and the horizontal distance between the connecting frame 132 and the second carrier 120 are adjusted, the connecting rods 131 connected to the two ends of the connecting frame 132 do not interfere with each other.
In order to facilitate adjustment of the horizontal distance between the first carriage 110 and the connecting frame 132, a walking device 140 is provided at the bottom of the first carriage 110 to facilitate movement of the first carriage 110. The running gear 140 may be configured as a rail wheel to mate with a rail provided on the ground or other platform. The rail wheels are preferably arranged in double rows along the width direction of the container transferring device 100 to ensure the stability of the movement of the first carrying device 110.
Also, in order to facilitate adjustment of the horizontal distance between the second carriage 120 and the connecting frame 132, a traveling device 140 such as a rail wheel may be provided at the bottom of the second carriage 120 to move the second carriage 120.
To facilitate controlling the movement of the running gear 140, the container transferring device 100 may preferably be provided with a control device electrically connected with the running gear 140 to control the movement of the running gear 140. The control device may be configured as a wireless controller to facilitate remote operation control by an operator.
In order to be able to transfer containers at different height positions during the transfer of the containers, the container transfer device 100 preferably includes a lifting device 150 to adjust the height of the loading platform of the container transfer device 100.
Specifically, referring to fig. 1, a lifting device 150 connected to the first carrier device 110 is taken as an example for description. The lifting device 150 includes a lifting column 151 and a lifting sleeve 152. The bottom of the lifting column 151 is connected to the first base 113, and particularly to the first base plate 113 b. The top of the lift sleeve 152 is connected to the first carrier stage 112. The lifting sleeve 152 is fitted over the lifting column 151 and can be lifted relative to the lifting column 151, i.e., moved upward or downward in the direction indicated by the arrow in the figure. The lifting sleeve 152 drives the first bearing platform 112 to lift in the lifting process so as to adjust the height position of the first bearing platform 112.
In the illustrated embodiment, two lifting devices 150 connected to the first supporting device 110 are respectively disposed at two sides of the first supporting device 110 to ensure stability of height adjustment of the first supporting platform 112. It is understood that the lifting devices 150 connected to the first supporting device 110 may be provided in other numbers as long as the stability of the height adjustment of the first supporting platform 112 can be ensured.
Similarly, the lifting device 150 (not shown) connected to the second carrier 120 is arranged in the same manner as the lifting device 150 connected to the first carrier 110, that is, the second carrier 122 can be lifted and lowered along with the lifting sleeve 152 connected thereto to adjust the height. The specific setting manner and connection manner are not described herein again.
To facilitate controlling the movement of the lifting device 150, the lifting device 150 is preferably electrically connected to a control device, so that an operator can conveniently control the movement of the lifting device 150 through the control device.
The lifting range of the lifting device 150 is 0-500 mm, that is, the maximum stroke of the lifting sleeve 152 along the lifting column 151 is 500 mm. Correspondingly, the height adjustment range of the first bearing table 112 and the second bearing table 122 is 0-500 mm.
The lifting device 150 preferably includes a limiting device (not shown) capable of locking the lifting sleeve 152 at any position of the lifting column 151 so that the heights of the first bearing table 112 and the second bearing table 122 can be any height of 0-500 mm.
In order to ensure the stability of the adjustment during the adjustment of the height of the first and second loading platforms 112 and 122, the container transferring device 100 is preferably further provided with a guide 160 connected to the first and second loading platforms 112 and 122, respectively. The guide 160 connected to the first carrier 112 will be described as an example.
Referring specifically to fig. 1 and 4, the guide 160 includes a connecting plate 161, a guide post 162, a guide sleeve 163, and a fixing seat 164. The fixing base 164 is connected to the first base 113, specifically, the first bottom plate 113b, for example, by a fastening member such as a bolt. The guiding post 162 is disposed on the fixing seat 164, and the guiding sleeve 163 is disposed on the guiding post 162 and can move up and down relative to the guiding post 162, i.e. move up and down in the direction indicated by the arrow in fig. 4. One side of the connection plate 161 is connected to a side of the top of the guide sleeve 163, and the other side of the connection plate 161 is connected to the first stage 112. In the process that the lifting device 150 drives the first loading platform 112 to lift, the guide sleeve 163 synchronously lifts along the guide column 162, so as to ensure the stability of the lifting of the first loading platform 112.
In the illustrated embodiment, two guide devices 160 connected to the first platform are respectively disposed on two sides of the first platform 112 to ensure the stability of the lifting of the first platform 112. It is understood that the guide devices 160 connected to the first carrier stage 112 may be provided in other numbers as long as the stability of the lifting of the first carrier stage 112 can be ensured.
Similarly, the guiding device 160 connected to the second carrier platform 122 is arranged in the same manner as the guiding device 160 connected to the first carrier platform 112, that is, the fixing seat 164 is connected to the second base 123, the connecting plate 161 is connected to the second carrier platform 122, and the guiding sleeve 163 synchronously moves up and down along the guiding column 162 during the lifting device 150 drives the second carrier platform 122 to move up and down, so as to ensure the stability of the lifting of the second carrier platform 122. The specific setting manner and connection manner are not described herein again.
Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms such as "disposed" and the like, as used herein, may refer to one element being directly attached to another element or one element being attached to another element through intervening elements. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is otherwise inapplicable or otherwise stated in the other embodiment.
The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. It will be appreciated by those skilled in the art that many more modifications and variations are possible in light of the above teaching and are intended to be included within the scope of the invention.