CN210733868U - Temporary storage system for battery replacement - Google Patents

Abstract

The utility model discloses a temporary storage system for battery replacement, which comprises a temporary storage frame and a lifting trolley which can slide back and forth and is arranged between a battery replacement station and the temporary storage frame; the temporary storage frame comprises a frame body, a rotating piece which can rotate upwards and is arranged on the frame body, a limiting piece which is arranged on the frame body and is used for abutting the rotating piece on a horizontal position when the rotating piece rotates downwards and resets, and a first opening which is arranged on one side of the frame body and is used for allowing the lifting trolley to enter; the rotating parts are at least two and are respectively arranged on two sides of the temporary storage frame, and are used for synchronously abutting against the to-be-charged battery and rotating upwards for abdicating when the lifting trolley rises, and are also used for downwards rotating for resetting when the lifting trolley descends and supporting the to-be-charged battery in a mutually matched mode. The utility model relates to a battery replacement system of keeping in through setting up the frame of keeping in, the lift dolly will treat rechargeable battery to put into the frame of keeping in back, can obtain full-charge battery at once to move and change to the battery change station, customer's latency is shorter, and battery change efficiency is higher.

Description

Temporary storage system for battery replacement

Technical Field

The utility model relates to a temporary storage system is changed to battery.

Background

With the development of new energy automobiles, the battery replacement station with the charging rack is more and more widely applied. In the battery replacement station, when a vehicle battery is replaced, the battery on the vehicle is generally detached first, the battery to be charged obtained by detachment is moved to a charging frame for charging, and then the fully charged battery on the charging frame is moved to a vehicle parking place for installation. In the replacement mode, a customer needs to wait for the rechargeable battery to be charged before obtaining the fully charged battery, the time consumption is long, and the work efficiency of battery replacement is low for the customer.

Disclosure of Invention

The utility model aims at providing a battery is changed and is kept in system, the lift dolly will treat rechargeable battery to put into and keep in the frame after, can obtain full-charge battery at once to move and change to the battery change station, customer's latency is shorter, and battery change efficiency is higher.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a temporary storage system for battery replacement comprises a temporary storage frame and a lifting trolley which can slide back and forth along the arrangement direction between a battery replacement station and the temporary storage frame and is arranged between the battery replacement station and the temporary storage frame;

the temporary storage frame comprises a frame body, a rotating piece which can rotate upwards and is arranged on the frame body, a limiting piece which is arranged on the frame body and used for tightly abutting the rotating piece on a horizontal position when the rotating piece rotates downwards and resets, and a first opening which is arranged on one side of the frame body and used for allowing the lifting trolley to enter;

the rotating pieces are at least two, are respectively arranged on two sides of the temporary storage frame, are used for synchronously abutting against the batteries to be charged when the lifting trolley rises and rotating upwards for abdicating, and are also used for rotating downwards for resetting when the lifting trolley descends and supporting the batteries to be charged in a mutually matched mode.

Preferably, the temporary storage frame further comprises a second opening formed in the other side of the frame body and used for allowing a fully charged battery to enter, and the lifting trolley is used for receiving the fully charged battery after the temporary storage frame descends to the proper position and conveying the fully charged battery to the battery replacement station.

Preferably, the rotating member is arranged on the frame body and can rotate upwards around a horizontal shaft.

Preferably, the upper surface of the rotation member is a flat surface, and the lower surface of the rotation member is gradually inclined downward in a direction near the rotation center.

Preferably, the whole of the temporary storage frame is in a cuboid shape, and the first opening and the second opening are respectively arranged on two different side faces of the temporary storage frame.

Preferably, the rotating members have four corners for supporting the battery to be charged in cooperation with each other.

Preferably, the temporary storage rack further comprises a third opening arranged on the other side of the rack body and used for outputting the battery to be charged, and the third opening is located right above the second opening.

More preferably, the temporary storage rack further comprises a connecting rod which is arranged between the second opening and the third opening and is lower than the rotating member.

Preferably, the top of the lifting trolley is provided with a positioning plate for positioning the battery to be charged and the fully charged battery.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage: the utility model relates to a battery replacement system of keeping in is used for keeping in through setting up the frame of keeping in and treats rechargeable battery, makes the lift dolly will treat rechargeable battery and put into the back of keeping in on the frame, can obtain full-charge battery at once to move and change to the battery change station, customer's latency is shorter, and battery replacement efficiency is higher.

Drawings

FIG. 1 is a schematic structural diagram of a temporary storage rack;

fig. 2 is a schematic view of the rotating member in various operating positions.

Wherein: 1. a frame body; 2. a rotating member; 21. an upper surface; 22. a lower surface; 3. a limiting member; 4. a battery to be charged; 5. a fully charged battery; 6. a connecting rod.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-2, the temporary storage system for battery replacement includes a temporary storage frame, and a lifting cart (not shown) capable of sliding back and forth along the arrangement direction between a battery replacement station (not shown in the figure, i.e. a parking position of a battery to be replaced) and the temporary storage frame. In this embodiment, the lift car is movable in two axes, i.e. it can slide in the horizontal direction and lift in the vertical direction. In order to replace the batteries in place, the top of the lifting trolley is provided with a positioning plate for positioning the bottoms of the batteries to be charged 4 and the fully charged 5.

Above-mentioned temporary storage frame includes support body 1, can upwards the pivoted locate support body 1 on rotate piece 2, locate being used for on support body 1 rotate down and reset time will rotate piece 2 and support tightly at horizontal position's locating part 3 rotating. In this embodiment, the temporary storage rack is a cuboid, the rotating member 2 is disposed on the rack body 1 and can rotate upward around the horizontal axis, the upper surface 21 of the rotating member 2 is a plane, and the horizontal position refers to that when the rotating member 2 rotates and resets, the upper surface 21 is located in the horizontal plane.

The temporary storage frame further comprises a first opening which is arranged on one side of the frame body 1 and used for allowing the lifting trolley to enter. Because the lifting trolley needs to carry the battery 4 to be charged into the temporary storage rack as a whole, the middle lower part of one side of the rack body 1 cannot be provided with a blocking rod piece.

The rotating pieces 2 are at least two and are respectively arranged on two sides of the temporary storage frame, are used for synchronously abutting against the rechargeable battery 4 when the lifting trolley rises and rotating upwards to give way, and are also used for abutting against the lifting trolley when the lifting trolley descends and synchronously rotating downwards to reset, and mutually matched supports the rechargeable battery 4. In the present embodiment, the rotating member 2 has four corners for supporting the battery 4 to be charged in cooperation with each other. Two of the rotating members 2 are located on one side of the battery 4 to be charged in the width direction, and the other two rotating members 2 are located on the other side of the battery 4 to be charged in the width direction.

As shown in fig. 2, when the lifting trolley is lifted up, the battery 4 to be charged jacks up the rotating members 2, so that the four rotating members 2 synchronously rotate upwards; the lifting trolley and the battery 4 to be charged continue to rise and descend after being separated from the rotating piece 2; the lower surface 22 of the battery 4 to be charged is pressed downwards against the rotating pieces 2, so that the four rotating pieces 2 synchronously rotate downwards to reset; when the four rotating pieces 2 are all in the horizontal position, the lifting trolley continuously descends to the initial height and is separated from the battery 4 to be charged. In the present embodiment, the lower surface 22 of the rotation member 2 is gradually inclined downward in the direction near the center of rotation, and by this arrangement, the battery 4 to be charged is facilitated to jack up the rotation member 2 and disengage from the rotation member 2.

The temporary storage frame further comprises a second opening which is arranged on the other side of the frame body 1 and used for allowing the fully charged battery 5 to enter, and the lifting trolley is used for receiving the fully charged battery 5 after descending in place in the temporary storage frame (namely the initial height) and conveying the fully charged battery 5 to a battery replacement station for replacement. In this embodiment, the fully charged battery 5 is removed from the charging stand by a forklift (not shown) and placed on the lift truck.

The temporary storage rack further comprises a third opening which is arranged on the other side of the rack body 1 and used for outputting the battery 4 to be charged, and the third opening is positioned right above the second opening. In this embodiment, the temporary storage rack further includes a connecting rod 6 disposed between the second opening and the third opening and lower than the rotating member 2. After the full-charge battery 5 is placed on the lifting trolley by the forklift, the carrying arm retreats from the temporary storage frame, ascends to the height higher than the connecting rod 6 and is lower than the battery to be charged 4, then extends into the temporary storage frame, upwards supports the battery to be charged 4 and conveys the battery to the charging frame.

The first opening and the second opening are respectively arranged on two different side surfaces of the temporary storage frame. In this embodiment, the first opening and the second opening are respectively disposed on two adjacent side surfaces of the temporary storage rack. Referring to fig. 2, the direction of arrow a is the entering direction of the lifting trolley, the direction of arrow B is the direction of the transporting arm to send the fully charged battery 5, and the direction of arrow C is the direction of the transporting arm to take the battery 4 to be charged out.

Under the condition that there is not the frame of keeping in, the lift dolly need be carried the rechargeable battery 4 of waiting of tearing open to fork truck on, fork truck will wait rechargeable battery 4 to carry to charge on the charging frame after, just can take out full charge battery 5 and carry for the lift dolly, the lift dolly is obtaining full charge battery 5 after, returns to the battery and changes the battery of battery replacement station again. The lifting trolley needs to wait for a long time to obtain the fully charged battery 5, namely, the waiting time of a client is long, and the battery replacement efficiency is low.

In this embodiment, be used for keeping in through setting up the frame of keeping in and wait rechargeable battery 4, make the lift dolly will wait rechargeable battery 4 to put into the frame of keeping in back, can obtain full charge battery 5 at once to move and change to the battery change station, customer latency is shorter, and battery change efficiency is higher.

The following specifically explains the working process of this embodiment:

when the battery replacing station enters the automobile, the lifting trolley takes down the battery 4 to be charged and enters the temporary storage frame, and the forklift synchronously takes out the fully charged battery 5 and conveys the fully charged battery to one side of the temporary storage frame;

the lifting trolley ascends, the battery 4 to be charged is placed on the rotating piece 2 and then descends to the initial position, and the full-charge battery 5 is conveyed to the lifting trolley by the forklift;

the full-charge battery 5 is conveyed to a battery replacement station by the lifting trolley for replacement, and the battery to be charged 4 is taken down and conveyed to the charging rack by the forklift for charging.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. The utility model provides a battery replacement temporary storage system which characterized in that: the device comprises a temporary storage frame and a lifting trolley which can slide back and forth along the arrangement direction between a battery replacement station and the temporary storage frame and is arranged between the temporary storage frame and the battery replacement station;

the temporary storage frame comprises a frame body, a rotating piece which can rotate upwards and is arranged on the frame body, a limiting piece which is arranged on the frame body and used for tightly abutting the rotating piece on a horizontal position when the rotating piece rotates downwards and resets, and a first opening which is arranged on one side of the frame body and used for allowing the lifting trolley to enter;

the rotating pieces are at least two, are respectively arranged on two sides of the temporary storage frame, are used for synchronously abutting against the batteries to be charged when the lifting trolley rises and rotating upwards for abdicating, and are also used for rotating downwards for resetting when the lifting trolley descends and supporting the batteries to be charged in a mutually matched mode.

2. The battery replacement escrow system of claim 1, wherein: the temporary storage frame further comprises a second opening formed in the other side of the frame body and used for allowing a fully charged battery to enter, and the lifting trolley is used for receiving the fully charged battery after descending in place in the temporary storage frame and conveying the fully charged battery to the battery replacement station.

3. The battery replacement escrow system of claim 1, wherein: the rotating piece can be arranged on the frame body in an upward rotating mode around the horizontal shaft.

4. The battery replacement escrow system of claim 1, wherein: the upper surface of the rotating part is a plane, and the lower surface of the rotating part is gradually inclined downwards along the direction close to the rotating center.

5. The battery replacement escrow system of claim 2, wherein: the whole cuboid shape that is of the frame of keeping in, first opening with the second opening is located respectively keep in two different sides of frame.

6. The battery replacement escrow system of claim 1, wherein: the rotating parts are four and are used for supporting four corners of the battery to be charged in a matched mode.

7. The battery replacement escrow system of claim 2, wherein: the temporary storage frame further comprises a third opening arranged on the other side of the frame body and used for outputting the battery to be charged, and the third opening is located right above the second opening.

8. The battery change buffer system of claim 7, wherein: the temporary storage frame further comprises a connecting rod which is arranged between the second opening and the third opening and is lower than the rotating piece.

9. The battery replacement escrow system of claim 2, wherein: and a positioning plate for positioning the battery to be charged and the fully charged battery is arranged at the top of the lifting trolley.

Images