CN111169320A - Guiding mechanism, battery charging frame, battery changing station and energy storage station - Google Patents

Abstract

The invention discloses a guide mechanism, a battery charging rack, a battery replacing station and an energy storage station, wherein the guide mechanism comprises a clamping piece body in a fork-shaped structure, the clamping piece body comprises an installation part and clamping parts which protrude upwards from two sides of the top of the installation part, the installation part is used for connecting the clamping piece body to a battery bracket, 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, and a clamping groove used for clamping a positioning part of a battery pack is formed between the two clamping parts. The battery charging stand comprises a plurality of guide mechanisms as described above. The battery replacement station comprises the battery charging stand. The energy storage station comprises a battery charging stand as described above. According to the invention, the top of the clamping piece body has a guiding and aligning function through the first guiding and sliding surface of the clamping part which is outwards turned along the direction far away from the battery bracket, so that the battery pack is accurately positioned and placed on the battery bracket, and the charging stability of the battery pack is ensured.

Description

Guiding mechanism, battery charging frame, battery changing station and energy storage station

Technical Field

The invention relates to a guide mechanism, a battery charging rack, a battery changing station and an energy storage station.

Background

With the increasing popularity of consumers of electric vehicles, as a power source of the electric vehicles, the vehicle battery pack needs to be charged and replaced frequently. The charging operation of the battery pack is generally performed on a battery charging rack, which is provided with a plurality of charging sites, and each charging site is generally used for charging one battery pack.

The guide mechanism on the existing battery charging rack is provided with a clamping groove, and the guide mechanism is clamped with a battery pack through the clamping groove. However, the existing guide mechanism only has a guide alignment mechanism and a function in one direction, namely the length direction of the battery pack, and lacks the guide alignment mechanism and the function in the width direction of the battery pack, the extension amount of the extension mechanism of the battery pack transfer equipment is only relied on to realize that the direction extends to reach the preset position, if the extension amount has deviation, the battery pack cannot be placed on a battery charging frame, and the battery pack cannot be charged or has charging abnormality.

Disclosure of Invention

The invention aims to overcome the defects that the battery pack cannot be charged or is abnormally charged due to the fact that the existing battery charging frame lacks a guide alignment mechanism and function in the width direction of the battery pack, and provides a guide mechanism, a battery charging frame, a battery replacing station and an energy storage station.

The invention solves the technical problems through the following technical scheme:

the utility model provides a guiding mechanism, its is including the fastener body that is fork structure, the fastener body include the installation department and certainly the top both sides of installation department are the card portion of the protruding stretching of upwards, the installation department be used for with this body coupling of fastener is on battery bracket, two the top of card portion has along keeping away from the outside first smooth face of leading that turns over the book of direction of battery bracket, two form the draw-in groove that is used for joint battery package location portion between the card portion.

In the scheme, the first sliding guide surface plays a role in sliding guide by adopting the structural form. Transfer device is placing battery package to battery bracket time, even if transfer device's the volume that stretches out of mechanism stretches out has the deviation, the battery package also can be because of placing on first leading the glide plane and continue can slide downwards for location portion on the battery package inserts to the draw-in groove in. The guiding and aligning functions in the length direction and the width direction of the battery pack are achieved through the guiding mechanism, so that the battery pack is accurately positioned and placed on the battery bracket, and the charging stability of the battery pack is guaranteed.

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

In this scheme, adopt above-mentioned structural style, can guide the battery package smoothly to place into or shift out on the battery bracket through inclined plane or cambered surface, simple structure, processing preparation is 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.

In this scheme, adopt above-mentioned structural style, the smooth face is led to the second has the smooth effect of leading, and transfer device is when placing the battery package, utilizes the second to lead the smooth face and do the direction counterpoint after, can guarantee that location portion on the battery package inserts to the draw-in groove normally smoothly, can adjust the correction.

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

In this scheme, adopt above-mentioned structural style, can guide the battery package smoothly to place into or shift out the draw-in groove through inclined plane or cambered surface, and simple structure, processing preparation is convenient.

A battery charging rack comprises a plurality of guide mechanisms.

In this scheme, adopt above-mentioned structural style, through guiding mechanism's direction counterpoint function to the realization is placed at battery tray to battery package accurate positioning, ensures battery package and the electric connection device's on the battery charging frame accurate counterpoint, thereby guarantees the stability of charging.

Preferably, the battery charging rack comprises a frame body and a plurality of battery brackets, the battery brackets are arranged in the frame body, the clamping piece bodies are respectively connected to two sides of the battery brackets, which extend along the length direction of the battery brackets, and the clamping grooves are exposed out of the upper surface of the battery brackets.

In this scheme, adopt above-mentioned structural style, ensure the accuracy of every battery package on the battery charging frame and place and stably charge, and simple structure, area is little.

Preferably, the battery charging rack further comprises a plurality of guide members, bottom ends of the plurality of guide members are respectively connected to two sides of the battery bracket extending along the length direction of the battery bracket, tops of the guide members are exposed out of the upper surface of the battery bracket, and the tops of the guide members are provided with third guide sliding surfaces which are turned over outwards along the direction far away from the battery bracket.

In this scheme, adopt above-mentioned structural style, the third is led the smooth face and is led smooth counterpoint effect, realizes battery package width direction's counterpoint adjustment nature to accurate positioning places on battery bracket. Through the direction counterpoint function of guide part, make two direction counterpoint points increase for having the direction counterpoint face of four direction counterpoint points, increase the battery package and place the counterpoint accuracy nature and the success rate that get into, guaranteed the stability that the battery package charges.

Preferably, the third sliding guide surface is an inclined surface or an arc surface.

In this scheme, adopt above-mentioned structural style, can guide the battery package smoothly to place into or shift out on the battery bracket through inclined plane or cambered surface, simultaneously, simple structure, processing preparation is convenient.

Preferably, the battery bracket comprises a front bearing frame and a rear bearing frame, the front bearing frame and the rear bearing frame are respectively used for bearing two ends of the battery pack in the length direction together, and a frameless space is formed between the front bearing frame and the rear bearing frame.

In this scheme, adopt above-mentioned structural style, can shorten the distance between the battery bracket in the vertical direction through the frameless space to reduce the occupation space of whole charging frame. Meanwhile, the structure is simple, the processing and the manufacturing are convenient, and the cost is low.

Preferably, the plurality of card member bodies are respectively connected to two sides of the front bearing frame, and the plurality of guide members are respectively connected to two sides of the rear bearing frame.

In this scheme, adopt above-mentioned structural style, through a plurality of guiding mechanism of preceding bearing frame both sides and a plurality of guide part of back bearing frame both sides can play the direction counterpoint effect, effectively avoided the battery package along its length direction and the width direction on produce skew dislocation phenomenon, improved when placing the battery package greatly with preceding bearing frame and the back bearing frame between the precision of counterpointing.

Preferably, the battery carrier further comprises a reinforcing beam, two ends of the reinforcing beam are respectively connected to the front bearing frame and the rear bearing frame, and the reinforcing beam is located on the entrance side of the front bearing frame and the rear bearing frame away from the protruding mechanism of the transfer device.

In this scheme, adopt above-mentioned structural style, connect respectively in preceding bearing frame and back bearing frame through the both ends of stiffening beam, effectively strengthened battery tray's overall structure intensity, improved battery charging frame's stability greatly.

A charging station comprising a battery charging stand as described above.

In this scheme, adopt above-mentioned structural style, realize placing at battery charging rack to battery package accurate positioning, ensure battery package and the electric connection device's on the charging rack accurate counterpoint to guarantee the stability of charging.

An energy storage station comprising a battery charging stand as described above.

In this scheme, adopt above-mentioned structural style, realize placing at battery charging rack to battery package accurate positioning, ensure battery package and the electric connection device's on the charging rack accurate counterpoint to guarantee the stability of charging.

On the basis of the common knowledge in the field, the above preferred conditions can be combined randomly to obtain the preferred embodiments of the invention.

The positive progress effects of the invention are as follows:

according to the guide mechanism, the battery charging frame, the battery replacing station and the energy storage station, the clamping part is provided with the first guide sliding surface which is outwards turned along the direction far away from the battery bracket, so that the top of the clamping piece body has a guide alignment function, the battery pack is accurately positioned and placed on the battery bracket, and the charging stability of the battery pack is ensured.

Drawings

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

Fig. 2 is a schematic structural diagram of a battery bracket and a guiding mechanism of a battery charging rack according to an embodiment of the invention.

Fig. 3 is a schematic structural diagram of a guide mechanism of a battery charging rack according to an embodiment of the present invention.

Fig. 4 is another structural schematic diagram of the guiding mechanism of the battery charging rack according to the embodiment of the invention.

Description of reference numerals:

guide mechanism 1

Mounting part 11

Mounting hole 111

Card part 12

First sliding guide surface 121

Second guiding and sliding surface 122

Card slot 13

Frame body 2

Battery bracket 3

Front carrying frame 31

Rear load frame 32

Frameless space 33

Reinforcing beam 34

Guide member 4

Third guiding and sliding surface 41

Battery pack 10

Positioning part 101

Detailed Description

The present invention will be more clearly and completely described below by way of examples and with reference to the accompanying drawings, but the present invention is not limited thereto.

As shown in fig. 1, 2, 3 and 4, the battery charging stand according to the embodiment of the present invention includes a plurality of guide mechanisms 1. As shown in fig. 1 and 2, the battery charging stand further includes a frame body 2 and a plurality of battery trays 3, and the plurality of battery trays 3 are disposed in the frame body 2. The transfer device places the battery pack 10 on the battery bracket 3, and any one of two sides of the battery pack 10 extending along the width direction of the battery pack 10 is provided with an electric connector, and the battery pack 10 is connected with a power supply through the electric connector to charge the battery pack 10.

Guiding mechanism 1 is including the fastener body that is the fork structure, and the fastener body includes installation department 11 and the card portion 12 that upwards stretches from the top both sides of installation department 11, and installation department 11 is used for this body coupling of fastener on battery bracket 3, and the top of two card portions 12 has the first slip face 121 that leads that turns over along the direction of keeping away from battery bracket 3 to outside, forms the draw-in groove 13 that is used for joint battery package 10 location portion 101 between two card portions 12.

The guiding mechanism 1 is clamped to the positioning portion 101 of the battery pack 10 through the clamping groove 13, so that the battery pack 10 is effectively limited to move along the length direction of the battery pack, and the guiding and aligning function of the battery pack 10 in the length direction is achieved. 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. Transfer device is when placing battery package 10 to battery bracket 3, transfer device's the mechanism that stretches out will move along the width direction of battery package 10 and stretch into the top to battery bracket 3 with battery package 10, later transfer device's the mechanism that stretches out will move down and drive battery package 10 and move down, even if there is the deviation transfer device's the volume that stretches out of mechanism that stretches out, battery package 10 also can continue to slide downwards because of placing on first leading smooth surface 121 for location portion 101 on battery package 10 inserts to the draw-in groove 13 in. The guiding and aligning functions in the length direction and the width direction of the battery pack 10 are achieved through the guiding mechanism 1, the battery pack 10 is accurately positioned and placed on the battery bracket 3, the accurate alignment of the battery pack 10 and an electric connecting device on a battery charging frame is guaranteed, and the charging stability is guaranteed. The positioning part 101 on the battery pack 10 may be a positioning block.

The first sliding guide surface 121 is a slope or a cambered surface. The battery pack 10 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 guide mechanism 1 may be connected to the battery bracket 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 10, after the second guiding sliding surface 122 is used for guiding alignment, the positioning portion 101 on the battery pack 10 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 10 can be guided to be smoothly placed into or moved out of the clamping groove through the inclined surface or the cambered surface, and the battery pack is simple in structure and convenient to process and manufacture.

In this embodiment, a plurality of battery brackets 3 are disposed in the frame body 2, a plurality of clip bodies are respectively connected to two sides of the battery brackets 3 extending along the length direction of the battery brackets 3, and the engaging grooves 13 are exposed on the upper surface of the battery brackets 3. When the battery pack 10 is placed on the battery holder 3, the positioning portion 101 is inserted into the card slot 13. Make battery charging frame can place a plurality of battery package 10, all be equipped with the fastener body along the both sides that 3 length direction of battery bracket extended, can realize the location to battery package 10 on the width direction, ensure that the accuracy of every battery package 10 on the battery charging frame is placed and is stably charged. Wherein, a plurality of battery bracket 3 can be set up in frame body 2 along the direction of height interval of battery package 10, reduces area.

The battery charging rack further comprises a plurality of guide parts 4, the bottom ends of the guide parts 4 are respectively connected to two sides of the battery bracket 3, which extend along the length direction of the battery bracket 3, the top of each guide part 4 is exposed out of the upper surface of the battery bracket 3, and the top of each guide part 4 is provided with a third guide sliding surface 41 which is turned outwards along the direction far 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 10 and stretch into the top of battery tray 3 with battery package 10, later transfer device's the mechanism that stretches out will move down and drive battery package 10 downstream, even if there is the deviation transfer device's the volume that stretches out of mechanism, battery package 10 also can continue to slide downwards because of placing on third guide sliding surface 41, make the both sides of battery package 10 will insert between a plurality of guide part 4, realize the alignment adjustment nature of battery package 10 width direction, place on battery tray 3 with accurate positioning. Through the direction counterpoint function of guide part 4, make two direction counterpoint points increase for having the direction counterpoint face of four direction counterpoint points, increase the counterpoint accuracy and the success rate that battery package 10 placed the entering, guaranteed the stability that battery package 10 charges.

The third sliding guide surface 41 may also be an inclined surface or an arc surface. The battery pack 10 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.

The battery bracket 3 includes a front carrying frame 31 and a rear carrying frame 32, the front carrying frame 31 and the rear carrying frame 32 are respectively used for carrying both ends of the battery pack 10 in the length direction together, and a frameless space 33 is formed between the front carrying frame 31 and the rear carrying 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 10 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 battery charging rack is reduced, and the number of the battery brackets 3 arranged on the battery charging rack is increased.

When the battery pack 10 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 10 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 10 through the frameless space 33, and therefore the battery pack 10 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. 1 is substantially rectangular. In other embodiments, different shapes may be provided as desired.

The plurality of card body are respectively connected to both sides of the front carrying frame 31, and the plurality of guide members 4 are respectively connected to both sides of the rear carrying frame 32. Through a plurality of guiding mechanism 1 of preceding bearing frame 31 both sides and a plurality of guide part 4 of back bearing frame 32 both sides can play the direction and counterpoint the effect, effectively avoided battery package 10 to produce skew dislocation phenomenon on its length direction and width direction, improved the battery package 10 when placing with preceding bearing frame 31 and the precision of counterpointing between the back bearing frame 32 greatly. Wherein, the guide mechanism 1 is a guide fork, and the shape of the guide component 4 is sheet.

The battery carrier 3 further comprises a reinforcement beam 34, both ends of the reinforcement beam 34 being connected to the front and rear carrier frames 31, 32, respectively, and the reinforcement beam 34 being located at the entrance side of the front and rear carrier frames 31, 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 battery charging rack is greatly improved.

The embodiment also discloses a battery charging station which comprises the battery charging rack. The battery pack is accurately positioned and placed on the battery charging frame, and the accurate alignment of the battery pack and the electric connecting device on the battery charging frame is ensured, so that the charging stability is ensured.

The embodiment also discloses an energy storage station, which comprises the battery charging rack. The battery pack is accurately positioned and placed on the battery charging frame, and the accurate alignment of the battery pack and the electric connecting device on the battery charging frame is ensured, so that the charging stability is ensured.

While specific embodiments of the invention have been described above, it will be appreciated 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 scope of the invention, and these changes and modifications are within the scope of the invention.

Claims (13)

1. The utility model provides a guiding mechanism, its characterized in that, its fastener body including being the fork structure, the fastener body include the installation department and certainly the protruding card portion that stretches of top both sides of installation department, the installation department be used for with this body coupling of fastener is on battery bracket, two the top of card portion has along keeping away from the outside first slip face of leading that turns over the book of battery bracket's direction, two form the draw-in groove that is used for joint battery package location portion between the card portion.

2. The guide mechanism of claim 1, wherein the first slide guide surface is a bevel or a cambered surface.

3. The guide mechanism according to claim 1, wherein a tip end of the opposing face of at least one of the two card portions has a second slide guide face.

4. The guide mechanism of claim 3, wherein the second guide sliding surface is a slope or a cambered surface.

5. A battery charging stand, characterised in that it comprises a plurality of guide means according to any one of claims 1 to 4.

6. The battery charging stand according to claim 5, wherein the battery charging stand includes a frame body and a plurality of battery brackets, the plurality of battery brackets are disposed in the frame body, the plurality of card members are respectively connected to both sides of the battery brackets extending in a length direction of the battery brackets, and the card slots are exposed on an upper surface of the battery brackets.

7. The battery charging stand according to claim 6, further comprising a plurality of guide members, wherein bottom ends of the plurality of guide members are respectively connected to both sides of the battery tray extending in a length direction of the battery tray, a top portion of the guide member is exposed to an upper surface of the battery tray, and the top portion of the guide member has a third sliding guide surface folded outward in a direction away from the battery tray.

8. The battery charging stand of claim 7, wherein the third sliding guide surface is a sloped surface or a curved surface.

9. The battery charging stand of claim 7, wherein the battery cradle comprises a front carrying frame and a rear carrying frame, the front carrying frame and the rear carrying frame are respectively used for carrying two ends of the battery pack in the length direction together, and a frameless space is formed between the front carrying frame and the rear carrying frame.

10. A battery charging stand according to claim 9, wherein a plurality of said card body are respectively attached to both sides of said front load frame, and a plurality of said guide members are respectively attached to both sides of said rear load frame.

11. A battery charging stand according to claim 9, wherein the battery cradle further comprises a reinforcing beam connected at each end to the front and rear load frames, respectively, and located on the entry side of the front and rear load frames remote from the protruding mechanism of the transfer device.

12. A charging station comprising a battery charging stand according to any of claims 5 to 11.

13. An energy storage station, characterized in that it comprises a battery charging stand according to any of claims 5 to 11.

Images