CN213150893U - Battery pack positioning device, charging bin, charging rack and battery changing station - Google Patents

Abstract

The utility model provides a battery package positioner, storehouse, charging frame and trade the power station of charging. The battery pack positioning device includes: the positioning piece is of a fork-shaped structure and comprises an installation part and clamping parts which respectively protrude upwards from two sides of the top of the installation part, the installation part is used for connecting the clamping parts to the battery bracket, and a clamping groove used for clamping the positioning part of the battery pack is formed between the two clamping parts; the limiting part is used for limiting the installation part on the battery bracket. In this battery package positioner, storehouse and charging frame charge, battery package positioner is spacing on battery tray through setting up the locating part with the setting element to improve the steadiness of the relative battery tray installation of setting element, avoid the setting element in long-term use, because the battery package is applyed the continuous effort to the setting element and is leaded to the problem emergence that the setting element drops from battery tray easily, effectively promoted the durable and reliability of use in storehouse and charging frame that charges.

Description

Battery pack positioning device, charging bin, charging rack and battery changing station

Technical Field

The utility model relates to a vehicle field of charging, in particular to battery package positioner, storehouse, charging frame and trade the power station of charging.

Background

At present, in a charging station, when a battery pack is placed on a battery tray of a charging bin, a positioning member mounted on a frame of the battery tray is used to achieve a guiding and positioning function between the battery tray and the battery pack.

If the battery pack is placed on the battery bracket from the vertical direction, the deviation can be corrected by the guide inclined plane of the positioning piece due to the alignment deviation between the battery pack and the battery bracket. When the positioning piece rectifies the battery pack, the counterforce generated by the rectification can act on the connection position between the positioning piece and the battery bracket. In the long-term process that the battery is constantly got and is put relative battery bracket, the effort that the battery package acted on the setting element leads to the screw not hard up easily, leads to the setting element to drop from the frame, has reliability problem and potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the setting element among the prior art and drop from battery bracket's frame easily in long-term use, have the defect of reliability problem and potential safety hazard, provide a battery package positioner, the storehouse of charging, charging frame and trade the power station.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

a battery pack positioning device, comprising:

the positioning piece is of a fork-shaped structure and comprises an installation part and clamping parts which respectively protrude upwards from two sides of the top of the installation part, the installation part is used for connecting the clamping parts to the battery bracket, and a clamping groove used for clamping the positioning part of the battery pack is formed between the two clamping parts;

the limiting part is used for limiting the installation part on the battery bracket.

This battery package positioner is spacing on battery tray with the setting element through setting up the locating part to improve the steadiness of the relative battery tray installation of setting element, avoid the setting element in long-term use, because the battery package leads to the problem emergence that the setting element drops from battery tray easily to the continuous effort that the setting element was applyed.

Preferably, the battery pack positioning device further comprises a first connecting member, the first connecting member connects the mounting portion to the battery bracket along a first direction, and the limiting member is located on the outer side of the mounting portion relative to the battery bracket;

when the positioning piece moves along a second direction opposite to the first direction, the limiting piece is used for limiting the positioning piece so as to prevent the positioning piece from falling off relative to the battery bracket.

Preferably, the first connecting piece protrudes from the surface of the mounting part along the second direction;

when the positioning piece moves along the second direction, the limiting piece is also used for upwards abutting against the first connecting piece.

By adopting the structure, when the clamping groove of the positioning piece is subjected to the gravity of the battery pack and is turned downwards along the second direction, the first connecting piece protruding out of the surface of the installation part can be abutted by the limiting piece, so that the positioning piece loosened relative to the battery bracket can be effectively supported by the limiting piece.

Preferably, the battery pack positioning device further comprises a second connecting piece, the second connecting piece connects the mounting portion to the battery bracket along a first direction, and the limiting piece is located between the first connecting piece and the second connecting piece.

By adopting the structure, the limiting part is arranged between the first connecting part and the second connecting part, so that the purpose of positioning the limiting part is realized by utilizing the first connecting part and the second connecting part.

Preferably, the first connecting piece and the second connecting piece both protrude out of the surface of the mounting portion along a second direction, and the limiting piece is clamped between the first connecting piece and the second connecting piece.

By adopting the structure, the contact area between the limiting part and the positioning part as well as between the first connecting part and the second connecting part can be increased by clamping the limiting part between the first connecting part and the second connecting part, so that the limiting effect is improved. Meanwhile, the limiting part is arranged between the first connecting part and the second connecting part, so that the purpose of positioning the limiting part is achieved by utilizing the first connecting part and the second connecting part.

Preferably, the top ends of the two clamping parts are provided with first guide sliding surfaces which are turned outwards along the direction far away from the battery bracket.

Adopt above-mentioned structure to set up, make first leading the spigot surface can play the effect of leading cunning to when transfer device is placing battery package to battery bracket, even if there is the deviation in the extension volume of transfer device's the mechanism that stretches out, the battery package also can continue to slide downwards because of placing on first leading the spigot surface, make location portion on the battery package insert to the draw-in groove in, realize placing battery bracket to battery package accurate positioning, guaranteed the stability that the battery package charges.

Preferably, the first guiding and sliding surface is an inclined surface or an arc surface.

By adopting the structure, the battery pack can be guided to be smoothly placed into or moved out of the battery bracket through the inclined plane or the cambered surface, the structure is simple, and the processing and the manufacturing are convenient

Preferably, the top end of the opposite surface of at least one of the two clamping parts is provided with a second guiding and sliding surface.

Adopt above-mentioned structure setting, the smooth surface is led to the second has leads smooth effect, and transfer device utilizes the second to lead the smooth surface and do the direction counterpoint after placing the battery package, can guarantee that location portion on the battery package inserts to the draw-in groove normally smoothly, and convenient adjustment is corrected.

Preferably, the second guiding and sliding surface is an inclined surface or an arc surface.

By adopting the structure, the battery pack can be guided to be smoothly placed into or moved out of the clamping groove through the inclined plane or the cambered surface, the structure is simple, and the processing and the manufacturing are convenient.

Preferably, the limiting part comprises a limiting part and a connecting part, the limiting part is connected to the battery bracket through the connecting part, the limiting part is located at the outer side of the battery bracket, opposite to the mounting part, so that the limiting part located at the outer side of the mounting part can be fixedly connected with the battery bracket through the connecting part.

Preferably, the clamping part protrudes towards the direction of the limiting part relative to the mounting part;

spacing between spacing portion with the installation department is set up as: when the positioning piece moves downwards, the upper surface of the limiting part can be contacted with the clamping part.

Adopt above-mentioned structure to set up, break away from and when dropping downwards at whole setting element and battery tray, the upper surface of spacing portion can contact with card portion, blocks the setting element temporarily between battery tray and spacing portion, realizes urgent interim fixed purpose to avoid more serious incident to take place.

Preferably, the number of the connecting portions is two, the two connecting portions are respectively located at two sides of the positioning member, and two ends of the horizontal extension of the limiting portion are respectively connected with the two connecting portions so as to improve the connecting firmness degree of the connecting portions to the limiting portion.

Preferably, the connecting portion is an L-shaped plate, one side of the L-shaped plate is connected to the battery bracket, and an interface for connecting the limiting portion is formed on the other side of the L-shaped plate, so that a structure easy to manufacture is provided, and the purpose of relatively simply connecting the limiting portion to the battery bracket is achieved.

Preferably, two one side that connecting portion are used for connecting the battery tray is a whole to promote the whole thickness of battery tray in the one side that links to each other with connecting portion, and then improve the structural strength of battery tray in this position department, in order to improve the steadiness of setting element and battery tray.

Preferably, two ends of the limiting part are provided with folded edges which are bent towards the direction of the connecting part, and the limiting part is detachably connected to the connecting part through the folded edges so that the limiting part can be conveniently disassembled and assembled relative to the connecting part.

A charging bin, comprising:

the battery bracket is provided with at least one battery pack positioning device on the side surface of the frame.

This storehouse of charging is spacing the setting element on battery tray through set up the locating part on battery tray to improve the steadiness of the relative battery tray installation of setting element, avoid the setting element in long-term use, because the battery package leads to the problem emergence that the setting element drops from battery tray easily to the continuous effort that the setting element was applyed, can effectively promote the use in storehouse of charging durable and reliability.

Preferably, the bottom surface of the card slot is not higher than the upper surface of the battery bracket.

Adopt above-mentioned structure setting for when the battery package was located the setting element, the weight of battery package can bear through the upper surface of battery tray, presses on the setting element through the bottom surface of draw-in groove with the weight of avoiding the battery package, effectively reduces the not hard up emergence probability of setting element.

A charging stand, comprising:

the charging bin as described above, the charging bin having an electrical connection mechanism;

and the charger is electrically connected with the electric connection mechanism.

This charging frame is spacing on battery tray with the setting element through set up the locating part on battery tray to improve the steadiness of the relative battery tray installation of setting element, avoid the setting element in long-term use, because the battery package leads to the problem emergence that the setting element drops from battery tray easily to the continuous effort that the setting element was applyed, can effectively promote the durable and reliability of use of charging frame.

A power swapping station, comprising: a charging stand as described above.

Through set up the charging frame that has battery package positioner in trading the power station to the realization is to the battery package accurate positioning place in the purpose of charging frame, ensures the accurate counterpoint of battery package and the electric connection device on the charging frame, guarantees to trade the stability of charging of the battery package of power station.

The utility model discloses an actively advance the effect and lie in:

in this battery package positioner, the storehouse of charging, charging frame and trade the power station, battery package positioner is spacing on battery tray with the setting element through setting up the locating part to improve the steadiness of the relative battery tray installation of setting element, avoid the setting element in long-term use, because the battery package results in the problem emergence that the setting element drops from battery tray easily to the continuous effort that the setting element was applyed, effectively promoted the use of storehouse of charging and charging frame durable and reliability.

Drawings

Fig. 1 is a schematic structural diagram of a charging stand according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a battery bracket according to an embodiment of the present invention.

Fig. 3 is a schematic perspective view of a positioning member according to an embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 2.

Fig. 5 is a schematic view (a) illustrating a position-limiting state of the positioning element by the position-limiting portion according to an embodiment of the present invention.

Fig. 6 is a schematic view (two) illustrating a position-limiting state of the positioning element by the position-limiting portion according to an embodiment of the present invention.

Fig. 7 is a schematic view (three) illustrating a position-limiting state of the positioning element by the position-limiting portion according to an embodiment of the present invention.

Fig. 8 is a schematic view illustrating a connection relationship between a connection portion and a battery bracket according to an embodiment of the present invention.

Description of reference numerals:

charging bin 10

Positioning piece 1

Mounting part 11

A locking portion 12, a first guiding surface 121, a second guiding surface 122

Card slot 13

First connecting member 14

Second connecting member 15

Limiting part 2

Stopper 21

A connecting part 22 and a connecting interface 22a

Battery bracket 3

Front carrying frame 31

Rear load frame 32

Frameless space 33

Reinforcing beam 34

Guide 4

Third guiding and sliding surface 41

Frame body 20

Battery pack 30

Positioning part 301

Detailed Description

The present invention will be more clearly and completely described below with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, the utility model provides a charging rack, it includes the frame body 20 and a plurality of storehouse 10 that charges, these storehouse 10 that charges set up in the frame body 20 to arrange the setting in proper order along the direction of height, every storehouse 10 that charges all is used for holding a battery package 30, has electrical connection mechanism in storehouse 10 that charges for dock with the corresponding interface of battery package 30, in order to realize the purpose of charging to battery package 30.

Each charging bin 10 also includes a battery carrier 3 and a battery pack positioning device mounted on a side surface of the battery carrier 3. The transfer device places the battery pack 30 on the battery bracket 3, and any one of two sides of the battery pack 30 extending along the width direction of the battery pack 30 is provided with an electric connection mechanism, and the battery pack 30 is connected with a power supply through the electric connection mechanism to realize charging of the battery pack 30.

In this embodiment, as shown in fig. 3 and 4, the battery pack positioning device includes a positioning member 1 and a limiting member 2. The positioning piece 1 is used for positioning the battery pack 30 and comprises a clamping piece body in a fork-shaped structure, the clamping piece body comprises an installation part 11 and clamping parts 12 protruding upwards from two sides of the top of the installation part 11, the installation part 11 is used for connecting the clamping piece body to the battery bracket 3, the top ends of the two clamping parts 12 are provided with first guide sliding surfaces 121 turning outwards along the direction far away from the battery bracket 3, and a clamping groove 13 used for clamping the positioning part 301 of the battery pack 30 is formed between the two clamping parts 12.

The positioning member 1 is clamped to the positioning portion 301 of the battery pack 30 through the clamping groove 13, so that the battery pack 30 is effectively limited to move along the length direction of the battery pack, and the guiding and aligning function of the battery pack 30 in the length direction is realized. Meanwhile, the first sliding guide surface 121 is folded outwards in a direction away from the battery bracket 3 by the clamping part 12, and the first sliding guide surface 121 plays a sliding guide role. The transfer device is placing battery package 30 to battery bracket 3 time, transfer device's the mechanism that stretches out will move along the width direction of battery package 30 and stretch into the top to battery bracket 3 with battery package 30, later transfer device's the mechanism that stretches out will move down and drive battery package 30 and move down, even if there is the deviation in the volume of stretching out of transfer device's the mechanism that stretches out, battery package 30 also can continue to slide downwards because of placing on first leading smooth surface 121 for location portion 301 on the battery package 30 inserts to the draw-in groove 13 in. The positioning piece 1 realizes the guiding and aligning functions in the length direction and the width direction of the battery pack 30, so that the battery pack 30 is accurately positioned and placed on the battery bracket 3, the accurate alignment of the battery pack 30 and an electric connecting device on a charging frame is ensured, and the charging stability is ensured. In this embodiment, the positioning portion 301 on the battery pack 30 may be a positioning block.

The first sliding guide surface 121 is a slope or a cambered surface. The battery pack 30 can be guided to be smoothly placed into or moved out of the battery bracket 3 through the inclined surface or the arc surface, the structure is simple, and the processing and the manufacturing are convenient. The mounting portion 11 may have a plurality of mounting holes 111, and the spacer 1 may be coupled to the battery tray 3 through the plurality of mounting holes 111.

The tip of the opposing face of at least one of the two card portions 12 has a second slide guide face 122. The second guiding sliding surface 122 has a guiding sliding function, and when the transfer device places the battery pack 30, after the second guiding sliding surface 122 is used for guiding alignment, the positioning portion 301 on the battery pack 30 can be ensured to be normally and smoothly inserted into the clamping groove 13, and correction can be adjusted. The second guiding and sliding surface 122 may also be an inclined surface or an arc surface. The battery pack 30 can be guided to be smoothly placed into or moved out of the clamping groove through the inclined surface or the arc surface, and the battery pack clamping device is simple in structure and convenient to process and manufacture.

In this embodiment, the positioning members 1 are respectively connected to two sides of the battery tray 3 extending along the length direction of the battery tray 3. As can be seen from fig. 4, the bottom surface 13a of the card slot 13 is not higher than the upper surface 3a of the battery tray 3, so that when the battery pack 30 is placed on the battery tray 3, and when the positioning portion 301 of the battery pack 30 is to be inserted into the card slot 13, the battery tray 3 contacts with the positioning portion 301 through the upper surface 3a to bear the weight of the battery pack 30, thereby avoiding the problem that the positioning member 1 is easily loosened due to the weight of the battery pack 30 pressing on the positioning member 1 through the bottom surface 13a of the card slot 13, and ensuring accurate placement and stable charging of each battery pack 30 on the charging rack.

As shown in fig. 4, the limiting member 2 is installed at an outer side position of the installation portion 11 of the positioning member 1 relative to the battery tray 3, and the limiting member 2 is used for limiting the installation portion 11 on the battery tray 3, so as to improve the installation stability of the positioning member 1 relative to the battery tray 3, and avoid the problem that the positioning member 1 is easy to fall off from the battery tray 3 due to the continuous acting force applied to the positioning member 1 by the battery pack 30 in the long-term use process of the positioning member 1.

Specifically, the limiting member 2 in the present embodiment includes a limiting portion 21 and a connecting portion 22. Wherein, the limiting part 21 is connected to the battery bracket 3 through the connecting part 22, and the limiting part 21 is located at the outer position of the mounting part 11 relative to the battery bracket 3. The connecting portions 22 are located on two sides of the positioning member 1, and two horizontally extending ends of the limiting portion 21 are respectively connected to the connecting portions 22 located on two sides of the positioning member 1, so that the connecting firmness of the connecting portions 22 to the limiting portion 21 is improved.

As shown in fig. 3 and 4, the number of the mounting holes provided in the mounting portion 11 is four in the present embodiment, two mounting holes on the upper side are provided for the first connecting member 14, and two mounting holes on the lower side are provided for the second connecting member 15.

The first connecting member 14 and the second connecting member 15 are both bolts, and the mounting portion 11 is screwed and fixed on the battery bracket 3 along the first direction B (i.e. the horizontal inward direction), and the limiting member 2 is located between the first connecting member 14 and the second connecting member 15, so that the purpose of positioning the limiting member 2 is achieved by using the first connecting member 14 and the second connecting member 15. On this basis, the first connecting piece 14 and the second connecting piece 15 have the end parts protruding relative to the surface of the installation part 11, and the limiting piece 2 is clamped between the end parts of the first connecting piece 14 and the second connecting piece 15, so that the contact areas of the limiting piece 2 and the positioning piece 1, the first connecting piece 14 and the second connecting piece 15 are increased, and the limiting effect of the limiting piece 2 on the positioning piece 1 is further improved.

In this embodiment, the first connecting piece 14 and the second connecting piece 15 are both bolts, and the end portions of the first connecting piece 14 and the second connecting piece 15 are the screwing ends of the bolts, so that when the limiting piece 2 is clamped on the screwing end of the bolt, the limiting piece 2 can contact and abut against the plane of the screwing end, and the purpose of preventing the bolts of the first connecting piece 14 and the second connecting piece 15 from loosening is achieved, so as to further reduce the possibility of loosening the positioning piece 1.

As shown in fig. 5, when the positioning member 1 looses relative to the battery tray 3 due to the impact force generated by the battery pack 30 being continuously taken and placed, the positioning member 1 moves toward the second direction C opposite to the first direction B, and at this time, since the limiting portion 21 is located at the outer side position of the mounting portion 11 relative to the battery tray 3, the displacement of the positioning member 1 can be effectively limited, so as to prevent the positioning member 1 from falling off relative to the battery tray 3. The stopper portion 21 is connected to the battery tray 3 through the connecting portion 22 to confine the spacer 1 in an area between the battery tray 3 and the stopper portion 21. At this time, even if the first connecting member 14 and the second connecting member 15 are loosely connected to the battery tray 3, the retainer 1 cannot fall down from the region between the battery tray 3 and the stopper 21 by being supported by the first connecting member 14 and the second connecting member 15.

Under the condition that the first connecting piece 14 and the second connecting piece 15 are further loosened, the distance between the positioning piece 1 and the battery bracket 3 is further increased, and at the moment, after the clamping groove 13 of the positioning piece 1 is subjected to the gravity of the battery pack 30, the positioning piece 1 is easy to turn and move downwards along the second direction C. At this time, as shown in fig. 6, the end of the first connecting element 14 protruding from the surface of the mounting portion 11 abuts against the upper surface 21a of the limiting element 2, so that the limiting element 2 abuts against the first connecting element 14 upwards, and the positioning element 1 is further supported when being released.

In addition, in the present embodiment, the card portion 12 is projected from the top of the mounting portion 11 toward the stopper portion 21 (i.e., the outer side direction). With this arrangement, as shown in fig. 7, when all the fastening members including the first connecting member 14 and the second connecting member 15 fail, the entire retainer 1 is completely separated from the battery tray 3 and drops downward, and at this time, the upper surface 21a of the stopper portion 21 can contact and support the engaging portion 12, so that the retainer 1 is temporarily engaged between the battery tray 3 and the stopper portion 21, thereby achieving the purpose of emergency temporary fixation and avoiding a more serious situation.

In order to allow the space between the stopper portion 21 and the battery holder 3 to engage with the engaging portion 12 of the retainer 1, the distance between the stopper portion 21 and the battery holder 3 cannot be too far. The minimum distance between the position-limiting part 21 and the battery carrier 3 is the thickness of the mounting part 11, and with this distance, the position-limiting part 21 is also kept in contact with the surface of the positioning member 1 during normal use of the positioning member 1.

As shown in fig. 8, the position limiting portion 21 at one side of the positioning member 1 has an L-shaped plate shape, one side of the L-shaped plate is connected to the battery tray 3, and the other side is formed with a connection interface 22a to which the connection portion 22 is connected, so that the purpose of connecting the position limiting portion 21 to the battery tray 3 is achieved by a relatively simple structure. Such a part formed by sheet metal bending is relatively easy to manufacture and machine, to provide an easily manufactured structure, with the aim of relatively simply connecting the stopper portion 21 to the battery carrier 3.

In this embodiment, the connection interface 22a of the connection portion 22 for connecting the limiting portion 21 is a threaded interface. As shown in fig. 4, the two ends of the position-limiting portion 21 are also provided with folded edges bent toward the connecting portion 22, and the position-limiting portion 21 is detachably fixed to the battery bracket 3 by using screws to pass through holes in the folded edges of the position-limiting portion 21 and then to be screwed to the screw interface of the connecting portion 22.

As shown in fig. 8, in the embodiment, the plate-shaped structures of the connecting portions 22 at two sides of the positioning member 1 are integrally formed, so that the two connecting portions 22 are fixed on the battery tray 3 through the same surface, thereby increasing the thickness of the frame structure of the battery tray 3 at the side, and further improving the structural strength of the battery tray 3 at the position. A plurality of connecting holes (not shown) are formed in the connecting portion 22, and the connecting holes correspond to the mounting holes 111 of the positioning member 1 one by one, so that the first connecting member 14 or the second connecting member 15 can pass through the connecting portion 22 and be fixed on the battery bracket 3.

Specifically, the connecting portion 22 in this embodiment is fixed on the side surface of the battery bracket 3 by welding, so as to ensure the effect of improving the structural strength of the battery bracket 3 at this position.

As shown in fig. 2, the battery pack positioning device further includes a plurality of guide members 4, bottom ends of the guide members 4 are respectively connected to two sides of the battery bracket 3 extending along the length direction of the battery bracket 3, a top portion of the guide member 4 is exposed to the upper surface 3a of the battery bracket 3, and the top portion of the guide member 4 has a third sliding guide surface 41 folded outward in a direction away from the battery bracket 3. The third guiding and sliding surface 41 has guiding and sliding alignment functions. The mechanism that stretches out of transfer device will move along the width direction of battery package 30 and stretch into the top of battery bracket 3 with battery package 30, later transfer device's the mechanism that stretches out will move down and drive battery package 30 and move down, even if there is the deviation transfer device's the volume that stretches out of mechanism, battery package 30 also can continue to slide down because of placing on third guide sliding surface 41 for the both sides of battery package 30 will insert between a plurality of guide 4, realize the alignment adjustment nature of battery package 30 width direction, place on battery bracket 3 with accurate positioning. Through the direction counterpoint function of guide 4, make single battery bracket 3 increase for having the direction counterpoint face of four direction counterpoint points from two direction counterpoint points, further increase battery package 30 and place the accurate nature and the success rate of counterpoint that get into, guaranteed the stability that battery package 30 charges.

The third sliding guide surface 41 may also be an inclined surface or an arc surface. The battery pack 30 can be guided to be smoothly placed into or moved out of the battery bracket 3 through the inclined surface or the arc surface, and meanwhile, the structure is simple, and the processing and the manufacturing are convenient.

In this embodiment, as shown in fig. 2, the battery bracket 3 includes a front bearing frame 31 and a rear bearing frame 32, the front bearing frame 31 and the rear bearing frame 32 are respectively used for jointly bearing two ends of the battery pack 30 in the length direction, and a frameless space 33 is formed between the front bearing frame 31 and the rear bearing frame 32. The frameless space 33 is used for the extension mechanism of the transfer device to enter and exit when the transfer device takes and places the battery pack 30 to the carrying mechanism, so that the distance between the battery brackets 3 in the vertical direction can be shortened, the occupied space of the whole charging rack is reduced, and the number of charging bins arranged on the charging rack is increased.

When the battery pack 30 is placed or taken out of the extending mechanism of the transfer device, the extending mechanism of the transfer device can be inserted below the battery pack 30 through the frameless space 33, the frameless space 33 can provide a space for the extending mechanism of the transfer device to move up and down, the extending mechanism of the transfer device can be used for moving up and down and horizontally moving along the width direction of the battery pack 30 through the frameless space 33, and therefore the battery pack 30 can be conveniently taken and placed. Meanwhile, the structure is simple, the processing and the manufacturing are convenient, and the cost is low.

Here, in the present embodiment, the frameless space 33 shown in fig. 2 is substantially rectangular. Of course, in other embodiments, different shapes may be provided as desired.

Specifically, two positioning members 1 are connected to both sides of the front carrying frame 31, and two guide members 4 are connected to both sides of the rear carrying frame 32, respectively. Through establishing two setting elements 1 and two guides 4 of back bearing frame 32 both sides before bearing frame 31 both sides respectively, can play the direction counterpoint effect to battery package 30 jointly to effectively avoided battery package 30 to produce skew dislocation phenomenon on its length direction and the width direction, improved the battery package 30 when placing with before bearing frame 31 and the back bearing frame 32 between the precision of counterpointing greatly.

The battery carrier 3 further comprises a reinforcement beam 34, both ends of the reinforcement beam 34 are connected to the front carrier frame 31 and the rear carrier frame 32, respectively, and the reinforcement beam 34 is located at the entrance side of the front carrier frame 31 and the rear carrier frame 32, which is remote from the protruding mechanism of the transfer device. The two ends of the reinforcing beam 34 are respectively connected to the front bearing frame 31 and the rear bearing frame 32, so that the overall structural strength of the battery bracket 3 is effectively enhanced, and the stability of the charging rack is greatly improved.

The embodiment also discloses a power swapping station which comprises the charging rack. The realization is placed on the charging frame to battery package accurate positioning to ensure battery package and the accurate counterpoint of the electric connection device on the charging frame, thereby guarantee the stability of charging.

The embodiment also discloses an energy storage station, which comprises the charging frame. The realization is placed at the charging frame to the accurate positioning of battery package to ensure battery package and the accurate counterpoint of the electric connection device on the charging frame, thereby guarantee the stability of charging.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (19)

1. A battery pack positioning device, comprising:

the positioning piece is of a fork-shaped structure and comprises an installation part and clamping parts which respectively protrude upwards from two sides of the top of the installation part, the installation part is used for connecting the clamping parts to the battery bracket, and a clamping groove used for clamping the positioning part of the battery pack is formed between the two clamping parts;

the limiting part is used for limiting the installation part on the battery bracket.

2. The battery pack positioning device of claim 1, further comprising a first connector that connects the mounting portion to the battery bracket in a first direction, wherein the stop member is located on an outer side of the mounting portion relative to the battery bracket;

when the positioning piece moves along a second direction opposite to the first direction, the limiting piece is used for limiting the positioning piece.

3. The battery pack positioning apparatus of claim 2, wherein the first connecting member protrudes from a surface of the mounting portion in the second direction;

when the positioning piece moves along the second direction, the limiting piece is also used for upwards abutting against the first connecting piece.

4. The battery pack positioning device of claim 2, further comprising a second connector that connects the mounting portion to the battery bracket in a first direction, wherein the retaining member is located between the first connector and the second connector.

5. The battery pack positioning device of claim 4, wherein the first connecting member and the second connecting member each protrude from the surface of the mounting portion in the second direction, and the retaining member is engaged between the first connecting member and the second connecting member.

6. The battery pack positioning device according to claim 1, wherein the top ends of the two card portions have first guide sliding surfaces turned outward in a direction away from the battery holder.

7. The battery pack positioning device of claim 6, wherein the first guide sliding surface is a bevel or a cambered surface.

8. The battery pack positioning device according to claim 6, wherein the tip of the opposing face of at least one of the two card portions has a second sliding guide face.

9. The battery pack positioning device of claim 8, wherein the second guide sliding surface is a bevel or a cambered surface.

10. The battery pack positioning apparatus according to claim 1, wherein the stopper includes a stopper portion and a connecting portion, the stopper portion is connected to the battery holder through the connecting portion, and the stopper portion is located at an outer side of the mounting portion with respect to the battery holder.

11. The battery pack positioning device according to claim 10, wherein the engaging portion protrudes in a direction of the stopper portion with respect to the mounting portion;

spacing between spacing portion with the installation department is set up as: when the positioning piece moves downwards, the upper surface of the limiting part can be contacted with the clamping part.

12. The battery pack positioning device according to claim 10, wherein the number of the connecting portions is two, the two connecting portions are respectively located at two sides of the positioning member, and two horizontally extending ends of the limiting portion are respectively connected to the two connecting portions.

13. The battery pack positioning device according to claim 12, wherein the connecting portion is an L-shaped plate, one side of the L-shaped plate is connected to the battery holder, and an interface for connecting the position-limiting portion is formed on the other side of the L-shaped plate.

14. The battery pack positioning apparatus of claim 13, wherein the two connecting portions are integrally formed at a side for connecting the battery holder.

15. The battery pack positioning apparatus according to claim 12, wherein both ends of the position-limiting portion have folded edges that are folded toward the connecting portion, and the position-limiting portion is detachably connected to the connecting portion through the folded edges.

16. A charging magazine, comprising:

a battery carrier having at least one battery pack positioning device as claimed in any one of claims 1 to 15 mounted to a side surface of a frame of the battery carrier.

17. The charging bin of claim 16, wherein a bottom surface of the slot is no higher than an upper surface of the battery bracket.

18. A charging stand, comprising:

the charging cartridge of claim 16, having an electrical connection mechanism;

and the charger is electrically connected with the electric connection mechanism.

19. A power swapping station, comprising: a charging stand according to claim 18.

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