CN218463696U - Transportation platform - Google Patents

Abstract

The utility model belongs to the technical field of the commodity circulation transportation, a transportation platform is disclosed, and transportation platform is used for placing and transporting the battery package to including base, first regulating block and stopper, the base is used for placing the battery package, and the accessible base supports the battery package and drives the transportation of battery package. In addition, the setting is followed the horizontal direction and is slided and set up in the first regulating block of base and connect in the stopper of first regulating block, through the stopper for first regulating block motion with the butt in the upper surface of battery package, the lower surface support of battery package is at the base to carry on spacingly along vertical direction to the battery package. In addition, first regulating block slides along the horizontal direction and sets up in the base to can follow the position of horizontal direction regulation stopper, with the position that changes the upper surface butt of stopper and battery package, with the fragile structure of avoiding the upper surface, prevent that the battery package is impaired in the transportation. The transportation platform can adapt to battery packs of different models and sizes and has good universality.

Description

Transportation platform

Technical Field

The utility model relates to a commodity circulation transportation technical field especially relates to transportation platform.

Background

During the production of the battery pack, the battery pack needs to be transported, for example, to a testing facility for safety testing.

For the placement and transportation of battery package, the traditional scheme is usually directly with structures such as wooden case with the battery package packing is fixed to place wooden case and transport on the commodity circulation dolly. However, the structure is inconvenient to package, and the battery pack is easily collided with the wall of the wooden box, resulting in damage to the battery pack. In addition, there is also a scheme that the battery pack is directly placed on the transfer trolley for transportation, but the transfer trolley can cause the battery pack to vibrate up and down when being transported to a bumpy road surface, and further the battery pack is damaged.

To the problem that the battery package can vibrate from top to bottom in the transportation, prior art provides a battery packing carton, installs the battery package in the recess of packing carton through having elastic buckle to carry on spacingly to the battery package along vertical direction through the buckle, nevertheless receive the model and the influence of size of battery package, place in the recess after the battery package, the buckle can be unable normal butt in the battery package, thereby can't play along the spacing effect of vertical direction. In addition, even if the battery pack can be normally installed, the position where the buckle abuts against the battery pack is not changed, and the battery pack is easily damaged due to the fact that the surface structure of part of the battery pack is fragile, and if the buckle abuts against the fragile surface of the structure right, the battery pack vibrates up and down.

SUMMERY OF THE UTILITY MODEL

The utility model provides a transportation platform to the buckle of battery packing carton can't adapt to the battery package of different models and size among the solution prior art, the poor problem of commonality.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a transport platform for placing and transporting a battery pack, the battery pack having oppositely disposed upper and lower surfaces, comprising:

the base is used for placing the battery pack so that the lower surface is supported on the base, and the base is provided with a first sliding groove;

the first adjusting block is arranged on the first sliding groove in a sliding mode along the horizontal direction;

the limiting block is connected to the first adjusting block and can move relative to the first adjusting block to abut against the upper surface or be separated from the upper surface.

As the preferred scheme of transportation platform, first regulating block including slide set up in the slider of first spout with connect in the regulating block base of slider, the stopper connect in the regulating block base, the regulating block base can for the slider rotates.

As a preferred scheme of the transportation platform, the sliding block is provided with a plurality of first limiting holes, the adjusting block base is provided with a plurality of second limiting holes, and the first adjusting block further comprises limiting pins which can be selectively inserted into the plurality of first limiting holes and can be selectively inserted into the plurality of second limiting holes.

As the preferred scheme of transportation platform, the slider with the regulating block base all is the column, and is a plurality of first spacing hole is followed the circumferencial direction of slider is seted up in the slider, and is a plurality of the spacing hole of second is followed the circumferencial direction of regulating block base is seted up in the regulating block base.

As the preferable scheme of the transportation platform, the transportation platform further comprises a driving block, and the driving block is used for driving the limiting block to move relative to the adjusting block base so as to abut against the upper surface or separate from the upper surface.

As the preferred scheme of transportation platform, the stopper rotate connect in the regulating block base, the drive block includes first connecting rod and second connecting rod, first connecting rod rotate connect in the regulating block base, the second connecting rod rotate connect in first connecting rod, and rotate connect in the stopper.

As the preferred scheme of transportation platform, still include push rod assembly, push rod assembly includes push rod connecting piece and push rod, the push rod connecting piece set up in the base, the push rod can for the push rod connecting piece rotates and has folding position and operating position, works as when the push rod is located folding position, the push rod with the base butt, works as when the push rod is located operating position, the push rod with the base separation.

As a preferable scheme of the transportation platform, the push rod assembly further comprises a locking piece movably arranged on the push rod connecting piece, and when the push rod is located at the working position, the locking piece can move relative to the push rod connecting piece to prevent the push rod from moving towards the folding position.

Preferably, the push rod assembly further comprises an elastic member for providing an elastic force for moving the locking member relative to the push rod connecting member to prevent the push rod from moving toward the folded position.

As the preferable scheme of the transportation platform, the base comprises a supporting frame and a shock pad arranged on the supporting frame, and the shock pad is used for placing the battery pack.

The beneficial effects of the utility model are that:

the utility model provides a transportation platform for place and transport the battery package, and including base, first regulating block and stopper, the base is used for placing the battery package, and the accessible base supports the battery package and drives the transportation of battery package. In addition, the setting is followed the horizontal direction and is slided and set up in the first regulating block of base and connect in the stopper of first regulating block, through the stopper for first regulating block motion with the butt in the upper surface of battery package, the lower surface support of battery package is at the base to carry on spacingly along vertical direction to the battery package. In addition, first regulating block slides along the horizontal direction and sets up in the base to can follow the position that the horizontal direction adjusted the stopper, with the position that changes the upper surface butt of stopper and battery package, with the fragile structure of avoiding the upper surface, prevent that the battery package is impaired in the transportation. The transportation platform can adapt to battery packs of different models and sizes, and has good universality.

Drawings

Fig. 1 is a first schematic structural diagram of a transportation platform according to an embodiment of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic structural diagram of a part of the structure of a transportation platform in an embodiment of the present invention;

FIG. 4 is an exploded view of a portion of the structure of a transport platform in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a transportation platform according to an embodiment of the present invention;

FIG. 6 is an enlarged view at B in FIG. 5;

fig. 7 is a schematic structural view of a push rod assembly according to an embodiment of the present invention.

In the figure:

100. a battery pack; 101. an upper surface;

1. a base; 11. a first chute; 12. a support frame; 13. a shock pad; 14. a roller;

2. a first regulating block; 21. a slider; 211. a first limit hole; 22. a regulating block base; 221. a second limiting hole; 23. a bolt;

3. a limiting block;

4. a drive block; 41. a first link; 42. a second link; 43. a handle;

5. a push rod assembly; 51. a push rod connector; 511. an adjustment groove; 52. a push rod; 53. a locking member; 54. An elastic member; 55. a connecting rod;

6. a second regulating block; 61. a second chute;

7. a third regulating block; 71. and a third chute.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected", "connected" and "fixed" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used in the orientation or positional relationship shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

To the placing and transportation of battery package, the traditional scheme is usually for directly packing the battery package with structures such as wood case fixed, or directly place the battery package and transport on the transport dolly, but leads to the battery package impaired easily. To the problem that the battery package can vibrate from top to bottom in the transportation, prior art provides a battery packing carton, through having elastic buckle with the battery package install in the recess of packing carton to carry on spacingly along vertical direction to the battery package through the buckle, nevertheless receive the model and the influence of size of battery package, place behind the recess when the battery package, the buckle can't normal butt in the battery package, thereby can't play along the spacing effect of vertical direction. In addition, even if the battery pack can be normally installed, the position where the buckle abuts against the battery pack is not changed, and the battery pack is easily damaged due to the fact that the surface structure of part of the battery pack is fragile, and if the buckle abuts against the fragile surface of the structure right, the battery pack vibrates up and down.

To above-mentioned problem, this embodiment provides the transportation platform to the unable battery package that adapts to different models and size of buckle of battery packing carton among the solution prior art, the poor problem of commonality can be used to commodity circulation transportation technical field.

Referring to fig. 1-7, the transport platform is used to place and transport a battery pack 100, the battery pack 100 having an upper surface 101 and a lower surface that are oppositely disposed. Specifically, the transportation platform comprises a base 1, wherein the base 1 is used for placing the battery pack 100, so that the lower surface is supported on the base 1, and therefore the battery pack 100 can be supported by the base 1 and the battery pack 100 can be transported. The upper surface 101 and the lower surface of the battery pack 100 in this embodiment are two opposite surfaces having the largest area on the battery pack 100, thereby obtaining the most stable supporting effect.

Optionally, the base 1 includes a supporting frame 12 and a shock pad 13 disposed on the supporting frame 12, the shock pad 13 is used for placing the battery pack 100, and specifically, the shock pad 13 is used for supporting the lower surface of the battery pack 100 to perform a shock absorbing and buffering function.

Optionally, for transportation, rollers 14 are provided under the support frame 12, and the rollers 14 are in rolling contact with the ground, thereby facilitating the operator to push or pull the base 1 for transportation.

With continued reference to fig. 1-7, the base 1 has a first runner 11, and in particular the support frame 12 has a first runner 11. The first adjusting block 2 is arranged in the first sliding groove 11 in a sliding manner along the horizontal direction, the limiting block 3 is connected to the first adjusting block 2, and the limiting block 3 can move relative to the first adjusting block 2 to abut against the upper surface 101 or separate from the upper surface 101. Preferably, the limit block 3 is movable in a vertical plane with respect to the first adjustment block 2. The lower surface of the battery pack 100 is supported on the base 1 by the stopper 3 moving relative to the first regulating block 2 to abut against the upper surface 101 of the battery pack 100, thereby vertically stopping the battery pack 100. In addition, first regulating block 2 sets up in base 1 along the horizontal direction slip to can adjust the position of stopper 3 along the horizontal direction, with the position that changes stopper 3 and battery package 100's upper surface 101 butt, with the fragile structure of avoiding upper surface 101, prevent that battery package 100 is impaired in the transportation. The transportation platform can adapt to battery packs 100 of different models and sizes and has good universality.

With continued reference to fig. 1-7, the first adjusting block 2 includes a sliding block 21 slidably disposed on the first sliding slot 11 and an adjusting block base 22 connected to the sliding block 21, in this embodiment, the sliding block 21 is fixed to the base 1 by a bolt 23, specifically, one end of the bolt 23 is disposed on the sliding block 21 and can pass through the first sliding slot 11, and a nut is connected to the other end of the bolt 23 and can be screwed, so that the sliding block 21 is fixed relative to the base 1. The limiting block 3 is connected to the adjusting block base 22, the adjusting block base 22 can rotate relative to the sliding block 21, and specifically, the adjusting block base 22 can move in a horizontal plane relative to the sliding block 21. Therefore, the position of the limiting block 3 can be further adjusted by rotating the adjusting block base 22 relative to the sliding block 21, so as to change the position of the limiting block 3 abutted against the upper surface 101 of the battery pack 100, and the limiting block 3 has a larger adjusting range.

With continued reference to fig. 1 to 7, in order to enable the adjustment block base 22 to be fixed with respect to the slider 21, the present embodiment adopts the following configuration. The slide block 21 is provided with a plurality of first limiting holes 211, the adjusting block base 22 is provided with a plurality of second limiting holes 221, the first adjusting block 2 further comprises limiting pins, and the limiting pins can be selectively inserted into the plurality of first limiting holes 211 and can be selectively inserted into the plurality of second limiting holes 221. In some embodiments, the fixing of the adjustment block base 22 relative to the slide block 21 can be achieved by at least two limit pins; in other embodiments, the adjusting block base 22 is rotatably connected to the sliding block 21 by providing a rotating shaft at the central portion of the sliding block 21 and the adjusting block base 22, so that the fixing can be realized only by a limit pin.

With continued reference to fig. 1-7, the sliding block 21 and the adjusting block base 22 are both in a cylindrical shape, the plurality of first limiting holes 211 are formed in the sliding block 21 along the circumferential direction of the sliding block 21, and the plurality of second limiting holes 221 are formed in the adjusting block base 22 along the circumferential direction of the adjusting block base 22. Optionally, the diameters of the sliding block 21 and the adjusting block base 22 are the same, and the diameter of a circle formed by the centers of the plurality of first limiting holes 211 is equal to the diameter of a circle formed by the centers of the plurality of second limiting holes 221. Therefore, the projection shapes and the projection sizes of the sliding block 21 and the adjusting block base 22 in the vertical direction are the same, and the adjusting block base 22 can be rotated along the central line of the adjusting block base 22 to enable the first limiting hole 211 to be opposite to the second limiting hole 221, so that the limiting pin can be conveniently inserted.

In order to fix the adjusting block base 22 relative to the slide 21, the following embodiments may also be used. The slider 21 sets up the recess, and regulating block base 22 pegs graft in the recess of slider 21 and can rotate for slider 21, sets up adjusting screw and can pass slider 21 and support tightly in regulating block base 22, or separates with regulating block base 22, when adjusting screw supports tightly in regulating block base 22, can restrict the rotation of regulating block base 22.

With continued reference to fig. 1-7, the transport platform further includes a driving block 4, and the driving block 4 is used for driving the limiting block 3 to move relative to the adjusting block base 22 so as to abut against the upper surface 101 or separate from the upper surface 101. The driving block 4 can drive the limiting block 3 to move in an electromagnetic driving mode, or a structure such as a small air cylinder is adopted.

In this embodiment, in order to facilitate the control of the force abutting on the battery pack 100, a manual control manner is adopted, specifically, the limiting block 3 is rotatably connected to the adjusting block base 22, the driving block 4 includes a first connecting rod 41 and a second connecting rod 42, the first connecting rod 41 is rotatably connected to the adjusting block base 22, and the second connecting rod 42 is rotatably connected to the first connecting rod 41 and rotatably connected to the limiting block 3. Therefore, a hinge four-bar mechanism is formed among the adjusting block base 22, the first connecting bar 41, the second connecting bar 42 and the limiting block 3, the adjusting block base 22 serves as a frame of the hinge four-bar mechanism, and an operator can control the limiting block 3 to rotate by controlling the first connecting bar 41 or the second connecting bar 42 to rotate, namely, the first connecting bar 41 or the second connecting bar 42 serves as a driving part, and the limiting block 3 serves as a driven part. In this embodiment, the second connecting rod 42 is an active component, and the driving block 4 further includes a handle 43 disposed on the second connecting rod 42 for the user to operate.

With continued reference to fig. 1-7, the first adjusting block 2, the driving block 4 and the limiting block 3 can limit the battery pack 100 in the vertical direction, and for the limiting in the horizontal direction, the following structure can be adopted:

optionally, a second sliding groove 61 is arranged on the support frame 12 along the first direction, and a third sliding groove 71 is arranged along the second direction, both the first direction and the second direction are parallel to the horizontal plane, and the first direction is perpendicular to the second direction, the transportation platform further includes a second adjusting block 6 slidably arranged on the second sliding groove 61 and a third adjusting block 7 slidably arranged on the third sliding groove 71, the second adjusting block 6 can slide relative to the support frame 12 to abut against the side surface of the battery pack 100 or separate from the battery pack, and the third adjusting block 7 can also slide relative to the support frame 12 to abut against the side surface of the battery pack 100 or separate from the battery pack 100, so that the second adjusting block 6 and the third adjusting block 7 complete the limit of the battery pack 100 along the horizontal direction.

With continued reference to fig. 1-7, the transportation platform further includes a push rod assembly 5, the push rod assembly 5 includes a push rod connector 51 and a push rod 52, the push rod connector 51 is disposed on the base 1, specifically, is fixedly connected, and may be connected by a bolt or directly welded to the base 1. The push rod 52 is rotatable with respect to the push rod link 51 to have a folded position and an operating position, and when the push rod 52 is in the folded position, as shown in fig. 5, the push rod 52 abuts against the base 1, and when the push rod 52 is in the operating position, as shown in fig. 1, the push rod 52 is separated from the base 1. The operator can push or pull the push rod 52 to move the base 1, thereby transporting the battery pack 100. When transport is complete, the pusher bar 52 may be rotated to the folded position to save space on the transport platform.

Optionally, the push rod assembly 5 further includes a connecting rod 55, the connecting rod 55 is fixedly disposed on the push rod connector 51, when the push rod 52 is located at the working position, the connecting rod 55 can abut against the push rod 52 to limit the push rod 52 from continuing to rotate in a direction away from the folded position, so as to prevent the push rod 52 from moving excessively.

With continued reference to fig. 1-7, the push rod assembly 5 further includes a locking member 53 movably disposed on the push rod link 51, wherein when the push rod 52 is in the working position, the locking member 53 is capable of moving relative to the push rod link 51 to prevent the push rod 52 from moving toward the folded position, thereby preventing the push rod 52 from folding relative to the base 1 when the push rod 52 is being operated by the operator to affect the operation. Specifically, the push rod link 51 is provided with an adjusting groove 511 along the vertical direction, the locking member 53 is slidably disposed in the adjusting groove 511, when the locking member 53 is located above the adjusting groove 511, the locking member 53 can abut against the push rod 52 to prevent the push rod 52 from moving toward the folded position, at this time, the connecting rod 55 can abut against the push rod 52 to limit the push rod 52 from continuing to rotate in the direction away from the folded position, so as to lock the position of the push rod 52 relative to the push rod link 51. Alternatively, when the push rod 52 is located at the working position, the locking member 53 and the connecting rod 55 are both located at one side of the push rod 52, and the locking member 53 and the connecting rod 55 are respectively located at two sides of the rotation axis of the push rod 52. When the lock member 53 is positioned below the adjustment groove 511, the lock member 53 releases the restriction of the movement of the push rod 52. Therefore, when the push rod 52 needs to be folded by an operator, the operator only needs to stir or step on the locking piece 53 to unlock the push rod 52.

With continued reference to fig. 1-7, the push rod assembly 5 further includes a resilient member 54, the resilient member 54 being configured to provide a resilient force that moves the locking member 53 relative to the push rod link 51 to resist movement of the push rod 52 toward the collapsed position. In this embodiment, the elastic member 54 has one end connected to the push rod link 51 or the connecting rod 55 fixed relative to the push rod link 51 and the other end connected to the locking member 53 to provide an elastic force for sliding the locking member 53 upward along the adjustment groove 511. So that in the rest state the blocking member 53 is always in a position in which it prevents the push rod 52 from moving towards the folded position.

It is to be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. This need not be, nor should it be exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. Transport platform for placing and transporting battery package (100), battery package (100) have relative upper surface (101) and the lower surface that sets up, its characterized in that includes:

a base (1) for placing the battery pack (100) such that the lower surface is supported by the base (1), the base (1) having a first sliding groove (11);

the first adjusting block (2) is arranged on the first sliding groove (11) in a sliding mode along the horizontal direction;

the limiting block (3) is connected to the first adjusting block (2), and the limiting block (3) can move relative to the first adjusting block (2) to abut against the upper surface (101) or be separated from the upper surface (101).

2. The transport platform of claim 1, wherein the first adjusting block (2) comprises a sliding block (21) slidably disposed on the first sliding chute (11) and an adjusting block base (22) connected to the sliding block (21), the limiting block (3) is connected to the adjusting block base (22), and the adjusting block base (22) can rotate relative to the sliding block (21).

3. The transport platform of claim 2, wherein the slide (21) has a plurality of first limiting holes (211), the adjustment block base (22) has a plurality of second limiting holes (221), and the first adjustment block (2) further comprises a limiting pin which can be selectively inserted into the plurality of first limiting holes (211) and simultaneously inserted into the plurality of second limiting holes (221).

4. The transport platform of claim 3, wherein the slider (21) and the adjustment block base (22) are both cylindrical, the plurality of first limiting holes (211) are provided in the slider (21) along a circumferential direction of the slider (21), and the plurality of second limiting holes (221) are provided in the adjustment block base (22) along the circumferential direction of the adjustment block base (22).

5. Transport platform according to claim 2, further comprising a drive block (4), wherein the drive block (4) is adapted to drive the stop block (3) to move relative to the adjustment block base (22) to abut against the upper surface (101) or to be separated from the upper surface (101).

6. Transport platform according to claim 5, characterized in that the stop block (3) is rotatably connected to the adjustment block base (22), and the drive block (4) comprises a first connecting rod (41) and a second connecting rod (42), the first connecting rod (41) being rotatably connected to the adjustment block base (22), and the second connecting rod (42) being rotatably connected to the first connecting rod (41) and rotatably connected to the stop block (3).

7. Transport platform according to any of claims 1-6, further comprising a push rod assembly (5), wherein the push rod assembly (5) comprises a push rod connector (51) and a push rod (52), wherein the push rod connector (51) is arranged on the base (1), the push rod (52) can rotate relative to the push rod connector (51) to have a folded position and a working position, when the push rod (52) is in the folded position, the push rod (52) abuts against the base (1), and when the push rod (52) is in the working position, the push rod (52) is separated from the base (1).

8. Transport platform according to claim 7, wherein the push rod assembly (5) further comprises a locking member (53) movably arranged to the push rod attachment member (51), the locking member (53) being movable relative to the push rod attachment member (51) to prevent movement of the push rod (52) towards the folded position when the push rod (52) is in the operative position.

9. Transport platform according to claim 8, wherein the push bar assembly (5) further comprises a resilient member (54), the resilient member (54) being adapted to provide a resilient force for moving the locking member (53) relative to the push bar connection member (51) to prevent the push bar (52) from moving towards the folded position.

10. Transport platform according to any of claims 1-6, characterized in that the base (1) comprises a support frame (12) and a shock pad (13) arranged to the support frame (12), the shock pad (13) being adapted to receive the battery pack (100).

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