CN216545825U - Charging frame, charging bin, battery changing station or energy storage station capable of improving mounting precision - Google Patents

Abstract

The utility model provides a charging rack capable of improving mounting accuracy, which comprises a rack body and a battery bearing frame, wherein the battery bearing frame is mounted on the rack body, and a mounting adjusting part is arranged on the battery bearing frame and/or the rack body and used for positioning the position of the battery bearing frame relative to the rack body along the vertical direction and adjusting the position of the battery bearing frame relative to the rack body along the horizontal direction. Through setting up the position that installation regulation portion location battery bore relative support body along vertical direction to the adjustment battery bears the relative support body of frame and follows the position of horizontal direction, in order to improve the installation accuracy of battery carrier on the charging frame, and conveniently bears the frame setting on the support body at the battery after, adjusts corresponding to the position of battery transportation equipment, satisfies the purpose that makes the battery transportation equipment bear the accurate battery of putting of getting from this battery and put. Through this structure setting, battery transportation equipment need not to possess the motion degree of freedom along the horizontal direction again, consequently can reduce holistic cost to promote the reliability.

Description

Charging frame, charging bin, battery changing station or energy storage station capable of improving mounting precision

Technical Field

The utility model relates to the field of vehicle battery replacement, in particular to a charging rack, a charging bin, a battery replacement station or an energy storage station, which can improve the installation accuracy.

Background

At present, electric automobiles are more and more popular with consumers, energy used by the electric automobiles is basically electric energy, the electric automobiles need to be charged after the electric energy is used up, and due to the limitation of the existing battery technology and charging technology, the electric automobiles need to spend a long time when being fully charged, and the electric automobiles are not as simple and rapid as fuel automobiles directly refuel. Therefore, in order to reduce the waiting time of the user, it is an effective means to replace the battery when the electric power of the electric vehicle is rapidly exhausted. In order to change batteries for electric automobiles conveniently, the battery changing requirements of the electric automobiles are met, the battery changing stations need to be built, and along with the rapid popularization of the electric automobiles, more battery changing stations need to be built to meet the requirements.

At present, be equipped with charging frame and battery transportation equipment in the storehouse of charging of trading the power station, the charging frame is used for bearing the battery to charge to the battery, battery transportation equipment is used for relatively the charging frame to deposit in or take out the battery. The battery transfer equipment needs to be horizontally moved relative to the charging frames so as to compensate the size deviation of the charging bin in the horizontal direction caused by insufficient installation precision of each charging frame, and the purpose of accurately storing and taking batteries from each charging bin is achieved. In this case, the degree of freedom of movement of the battery transfer apparatus is high, but the cost of the corresponding replacement station is also high.

In the updating process of the battery replacement station, some measures for reducing cost can be taken to facilitate the comprehensive spreading of the battery replacement station and reduce the use cost of users, on the basis, the battery transfer equipment of some battery replacement stations can cancel the corresponding horizontal movement function, and therefore the installation precision of the charging rack is required to be improved to meet the requirement of accurate positioning between the battery transfer equipment and the charging rack so as to facilitate the taking and placing of the battery.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects that the charging frame of a battery changing station in the prior art is low in installation precision and batteries cannot be accurately taken and placed once a battery transfer device cancels a horizontal movement function, and provides a charging frame, a charging bin, a battery changing station or an energy storage station which can improve the installation precision.

The utility model solves the technical problems through the following technical scheme:

the utility model provides a can improve charging frame of installation accuracy, its includes that support body and battery bear the frame, the battery bear the frame install in on the support body, the battery bear the frame and/or be provided with installation regulation portion on the support body, installation regulation portion is used for the location the battery bears the frame relatively the support body is along the position of vertical direction, and the adjustment the battery bears the frame relatively the support body is along the position of horizontal direction.

This charging frame bears the frame through setting up the position that installation regulation portion location battery bore relative support body along vertical direction to the adjustment battery bears the frame and bears the frame relative support body along horizontal direction's position, with the installation accuracy of improvement battery carrier on charging frame, and conveniently bears the frame setting on the support body after at the battery, adjusts corresponding to the position of battery transfer equipment, satisfies battery transfer equipment under the condition of cancellation horizontal migration function, bears the accurate purpose of getting the battery of putting from this battery. Through this structure setting, battery transportation equipment need not to possess the motion degree of freedom along the horizontal direction again, consequently can reduce holistic cost to promote the reliability.

Preferably, the mounting adjustment parts are distributed on both sides of the battery carrier in the width direction of the battery carrier.

By adopting the structure, the installation adjusting parts are arranged on two sides of the battery bearing frame, so that the battery bearing frame is prevented from being occupied in the upper side space or the lower side space, and the intervals between the charging bin positions in the charging frame can be more compact.

Preferably, the installation adjusting part includes: relative independent location portion and installation department, location portion is used for the restriction the battery bears the frame relatively the position of vertical direction is followed to the support body, the installation department is used for the adjustment the battery bears the frame relatively the position of horizontal direction is followed to the support body, and will the battery bears the frame to be fixed in on the support body.

By adopting the structure, the purposes of bearing the battery bearing frame and adjusting the horizontal position of the battery bearing frame are respectively realized through the positioning part and the mounting part which are relatively independently arranged, so that the positioning and position adjusting effects of the mounting adjusting part are improved.

Preferably, the positioning portion includes:

the battery pack comprises a support member arranged on the frame body and a support surface arranged on the battery carrier, wherein the support member is formed below the battery carrier, and the battery carrier is supported on the support member through the support surface along the vertical direction.

Adopt above-mentioned structure, provide a comparatively simple structure setting scheme, realize bearing the reliable purpose of supporting on the support body with the battery to the better implementation of horizontal position adjustment of battery bearing frame.

Preferably, the battery bearing frame is further provided with limiting structures, and the limiting structures are distributed on two sides of the supporting surface along the horizontal direction and protrude downwards from the supporting surface;

the length of the support surface in the horizontal direction is greater than the length of the support member.

Through setting up relative convex limit structure in the both sides of holding surface to provide a spacing means, make the battery bear the frame and set up on the support body but when not fixed, guarantee that the relative support body of battery bears the frame and be in reasonable position range on the horizontal direction, reduce the battery and bear the position of frame corresponding to battery transportation equipment and carry out the degree of difficulty of adjusting. And the size of the limiting support piece relative to the supporting surface is used for adjusting the position of the battery bearing frame relative to the frame body along the horizontal direction, so that the battery bearing frame is convenient to be matched with the mounting part to adjust the position of the battery bearing frame and then fixed.

Preferably, the movable range of the positioning part between the two limiting structures is larger than or equal to the position adjusting range of the mounting part.

The positioning part has enough moving range, so that the mounting part also has enough adjusting range, and the mounting part can be fixed with the frame body at the optimal position conveniently.

Preferably, the mounting portion includes:

a through hole formed on the frame body;

a mounting hole formed on the battery carrier, one of the mounting hole and the through hole being long-waisted in a horizontal direction;

the retaining member, the screwed end of retaining member wears to establish simultaneously the through-hole with in the mounting hole.

Adopt above-mentioned structure, provide a comparatively simple structure setting scheme, make the installation department realize adjusting the battery and bear the purpose of a horizontal position of frame, simultaneously, the battery bears the frame and also conveniently dismantles relative support body, is convenient for maintain and adjust.

Preferably, the through holes and the mounting holes are arranged in pairs and distributed on both sides of the battery carrier at least in the width direction of the battery carrier.

By adopting the structure, the two sides of the battery bearing frame are ensured to have the horizontal position adjusting capability, and the horizontal position adjusting precision of the battery bearing frame can be improved.

A charging bin comprises the charging frame capable of improving mounting accuracy.

This storehouse of charging through set up installation regulating part adjustment battery on charging frame and bear the relative support body along the position of horizontal direction for the battery transfer equipment that sets up in its inside need not to possess again along the motion degree of freedom of horizontal direction, consequently can reduce holistic cost, and promote the reliability.

A power conversion station or an energy storage station comprises the charging bin.

This trade power station or energy storage station through set up installation regulating part adjustment battery on the charging frame and bear the relative support body and follow the position of horizontal direction for the battery transfer equipment that sets up in its inside need not to possess again along the motion degree of freedom of horizontal direction, consequently can reduce holistic cost, and promote the operational reliability who trades power station or energy storage station.

The positive progress effects of the utility model are as follows:

this can improve charging frame of installation accuracy, the storehouse of charging, in trading power station or the energy storage station, the charging frame bears the relative support body of frame and follows the position of vertical direction through setting up installation regulation portion location battery, and the adjustment battery bears the relative support body of frame and follows the position of horizontal direction, in order to improve the installation accuracy of battery carrier frame on the charging frame, and conveniently bear the frame setting at the battery after on the support body, adjust corresponding to the position of battery transfer equipment, satisfy and make battery transfer equipment under the condition of cancellation horizontal migration function, bear the accurate purpose of putting the battery of putting from this battery. Through this structure setting, battery transportation equipment need not to possess the motion degree of freedom along the horizontal direction again, consequently can reduce holistic cost to promote the reliability.

Drawings

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

Fig. 2 is a top view of the structure according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a U-shaped steel member in a battery carrier according to an embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 1.

Fig. 5 is a schematic structural diagram of a positioning portion according to an embodiment of the utility model.

Fig. 6 is a schematic structural view of the installation adjustment part on the side of the support beam according to an embodiment of the present invention.

Fig. 7 is a schematic structural view of the installation adjustment part on the battery carrier side according to an embodiment of the utility model.

Fig. 8 is a schematic cross-sectional view of a support beam according to an embodiment of the present invention.

Description of the reference numerals

Charging bin 100

Charging stand 200

Frame body 1

Cross member 2

Supporting beam 21

Non-supporting cross beam 22, supporting plate 221

Oblique beam 23

Column 3

Battery carrier 4, steel member 4a, moving plate 401

Mounting adjustment part 5

Positioning part 51

Support 511

Bearing surface 512

Limiting structure 513

Mounting portion 52

Through hole 521

Mounting hole 522

Locking bolt 523

Bolt hole 524

Detailed Description

The present invention will be more clearly and completely described in the following description of preferred embodiments, taken in conjunction with the accompanying drawings.

The present invention provides a charging bin 100 that can be disposed in a charging station or an energy storage station. Such a charging magazine 100 includes a charging stand 200 and a charging device (not shown in the drawings) provided on the charging stand 200. As shown in fig. 1, the charging stand 200 in the present embodiment provides three charging bays in the vertical direction into which the batteries can be placed. Each charging bin is provided with a charging device, and the charging device is used for being in butt joint with a battery placed on the charging rack 200 to achieve the purpose of charging the battery.

The specific structure and layout of the charging stand 200 are shown in fig. 1 and 2, and the charging stand 200 in this embodiment is mainly composed of a stand body 1 and a battery carrier 4. The frame body 1 is in a vertical state and is installed on the horizontal ground where the charging bin 100 is located (for example, on an installation bottom plate of a charging station or an energy storage station), in order to improve the firmness of installation, the top end of the frame body 1 can also be fixed with the top structure of the charging bin 100 (for example, on an installation top plate of the charging station or the energy storage station), the frame body 1 is used for supporting and fixing each battery bearing frame 4, and a charging device is placed on each battery bearing frame 4 to be used for fixedly bearing the battery. In this embodiment, the battery bearing frame 4 is formed by combining an upper frame body and a lower frame body, the lower frame body at least comprises two steel members 4a (the shape is shown in fig. 3) with a U-shaped cross section, the two steel members 4a are arranged in parallel relatively and are respectively connected to the frame body 1, and the upper frame body is mounted on the lower frame body and used for mounting a charging device and directly bearing a battery. The specific structure and principle of the battery carrier 4 is within the scope of the prior art and therefore will not be described in detail herein.

The shelf body 1 specifically comprises a vertical column 3 and a cross beam 2. The upright column 3 is perpendicular to the horizontal ground where the charging bin 100 is located, and is used for fixing and supporting the whole charging rack 200 from the periphery. At different height positions of the upright 3, a plurality of cross beams 2 are provided. The cross beam 2 is parallel to the ground inside the charging bin 100. The two ends of the beam 2 are connected and fixed with the upright posts 3 to form a basic frame structure of the charging stand 200. Crossbeam 2 and stand 3 be connected the mode realization of accessible bayonet socket draw-in groove and can dismantle the connection, convenient equipment and decomposition realize the accessory modularization simultaneously. In order to make the charging rack 200 more firm, the charging rack 200 is further provided with an oblique beam 23, and two ends of the oblique beam 23 are connected with the upright posts 3, so that the stability of the charging rack 200 is further enhanced. In particular, the cross beam 2 may comprise a supporting cross beam 21 and other non-supporting cross beams 22. The supporting cross beams 21 are arranged in pairs and used for connecting, adjusting and fixing the battery bearing frame 4, and the requirement on structural strength is high; while the non-supporting cross member 22 is not used for connection with the battery carrier 4. As shown in fig. 2, two support beams 21 for fixing the same battery carrier 4 are located in the same horizontal plane and are arranged parallel to each other.

In the present embodiment, the two steel members 4a of the battery carrier 4 are fixed and fixed to the pair of support beams 21 by the mounting adjustment portions 5. The battery carrier 4 is connected and fixed to the support beams 21 of the rack body 1 by the mounting adjustment parts 5, thereby carrying the battery device. The mounting adjustment portions 5 are located on both sides of the battery carrier 4 in the width direction, and adjust and fix the horizontal position of the battery carrier 4 relative to the support cross members 21 in the width direction of the battery carrier 4, and the mounting adjustment portions 5 are also capable of positioning the position of the battery carrier 4 relative to the rack body 1 in the vertical direction and adjusting the position of the battery carrier 4 relative to the rack body 1 in the horizontal direction. In addition, since the installation adjusting parts 5 are disposed at both sides of the battery carrier 4, the occupation of the upper space or the lower space of the battery carrier 4 is avoided, so that the space between the charging compartments in the charging stand 200 can be more compact.

Realize the relative support body 1 of location battery through setting up this installation regulating part 5 and follow the position of vertical direction to the adjustment battery bears the relative support body 1 of frame 4 and follows the position of horizontal direction, with the position installation precision that improves battery and bears frame 4 on charging frame 200.

Therefore, after the frame body 1 is fixed relative to the charging station or the battery replacement station and the battery carrying frame 4 is placed on the frame body 1, the mounting and adjusting portion 5 can conveniently adjust the horizontal position of the battery carrying frame 4 based on the actual taking and placing position of the battery transferring device (not shown in the figure) relative to the battery, so as to achieve the purpose of accurately taking and placing the battery from the battery carrying frame 4 by the battery transferring device.

Through the structural arrangement, the horizontal position of the battery bearing frame 4 relative to the battery transferring equipment is adjusted accurately in the installation process of the battery bearing frame 4, so that the protruding mechanism of the battery transferring equipment is accurately matched with the position of the battery bearing frame 4, and batteries can be taken and placed accurately. Therefore, the battery transfer equipment does not need to have the freedom of movement in the horizontal direction, the overall cost can be reduced, and the operation reliability of the battery transfer equipment is improved.

Of course, in other embodiments, the mounting adjustment portions 5 may be provided at other positions of the battery carrier 4 to achieve the same purpose of adjusting the horizontal position of the battery carrier 4 relative to the support beams 21 along the length direction of the battery carrier 4.

Specifically, as shown in fig. 4 and 5, the installation adjustment portion 5 in the present embodiment specifically includes a positioning portion 51 and an installation portion 52 that are relatively provided separately. Wherein the positioning portion 51 functions to define the position of the battery carrier 4 in the vertical direction with respect to the support cross member 21. The mounting portion 52 functions to adjust and fix the position of the battery carrier 4 in the horizontal direction with respect to the support cross member 21. The arrangement scheme of carrying the battery carrier frame 4 and adjusting the horizontal position of the battery carrier frame 4 by the positioning part 51 and the mounting part 52 which are independently arranged can improve the positioning and position adjusting effects of the mounting adjusting part 5. As can be seen by comparing fig. 4 and 5: the positioning portion 51 is disposed below the mounting portion 52, which arrangement can make the positioning portion 51 better carry the battery carrier 4, and at the same time, provides more operation space for the operator to adjust the horizontal position of the battery carrier 4 through the mounting portion 52. In the present embodiment, the relative positions of the battery carrier 4 and the support cross member 21 are connected, adjusted, and fixed by the cooperation of the positioning portion 51 and the mounting portion 52 in the mounting adjustment portion 5.

As shown in fig. 4, in the present embodiment, the cross-sectional shape of the main body structure of the support beam 21 is U-shaped, and the U-shaped opening of the support beam 21 is disposed toward the inner side of the charging stand 200. The supporting beam 21 is provided near the position where the adjusting part 5 is installed, and further includes a square supporting plate 221 provided in the vertical direction. The upper and lower ends of the supporting plate 221 are fixedly connected to the ends of the upper and lower side plates of the supporting beam 21, respectively. The mounting adjustment portion 5 is connected to the support beam 21 through a support plate 221. In some embodiments, the support plate 221 may not be provided, and the mounting adjustment portion 5 is directly connected to the support beam 21, for example, the side wall of the support beam 21 facing the U-shaped opening is directly connected to the mounting adjustment portion 5. In other embodiments, the supporting beam 21 may also be a structural member with other cross-sectional shapes, and at the position where the supporting beam 21 is close to the installation adjusting part 5, the direction, position or shape according to which the supporting plate 221 is arranged is selected according to the actual shape and orientation of the structural member, so as to achieve the purpose of connecting the supporting beam 21 and the installation adjusting part 5. For example, when the cross-sectional shape of the supporting beam 21 is square, one side surface of the square structural member may be directly used as the supporting plate 221. Wherein, along the length direction of the supporting beam 21, the length of the supporting plate 221 may be greater than the width of the battery carrier 4, so that the supporting plate 221 is more firmly fixed on the supporting beam 21, increasing the stability of the connection between the installation adjusting part 5 and the supporting beam 21.

As shown in fig. 5 and 6, in the present embodiment, the positioning portion 51 specifically includes a support piece 511 and a support surface 512. The support member 511 is fixedly attached to the outer side of the support plate 221 at or near the center of the lower part thereof and is positioned at or near the center of the lower part of the support surface 512. The support 511 is an elongated protruding block of sufficient strength and may also be square or otherwise shaped in other embodiments. The support 511 is vertically supported by its upper surface by a support surface 512, so that the support beam 21 is vertically positioned and supported by the battery carrier 4. The support surface 512 is provided at the center of the lower side of the moving plate 401 or in the vicinity of the center, and is located above the support 511. The upper surface of the support 511 and the support surface 512 are both disposed parallel to the horizontal plane so as to be able to cooperate with the mounting portions 52 to facilitate adjustment of the battery carrier 4 in the horizontal direction with respect to the support cross member 21. In other embodiments, the upper surface of the support 511 and the support surface 512 may also be disposed at an angle to the horizontal. The length of the support surface 512 in the horizontal direction does not exceed the length of the moving plate 401 in the horizontal direction, and the length of the support surface 512 in the horizontal direction is greater than the length of the support 511 in the horizontal direction. The two ends of the supporting surface 512 are respectively provided with a limiting structure 513. The position-limiting structures 513 protrude downward from the supporting surface 512, and the supporting member 511 is located between the two position-limiting structures 513, so that when the battery carrier 4 is adjusted in the horizontal direction relative to the supporting beam 21, the supporting member 511 fixed to the supporting plate 221 does not exceed the range between the two position-limiting structures 513, and further limits the range of adjustment in the horizontal direction, and the battery carrier 4 does not fall off when adjusted in position on the supporting beam 21. In this embodiment, the limiting structure 513 extends in a downward direction at the supporting surface 512 to limit the horizontal extent of the supporting member 511. Meanwhile, the arrangement of the limiting structure 513 enables the battery bearing frame 4 to be arranged on the frame body but not fixed, so that the battery bearing frame 4 is ensured to be in a reasonable position range in the horizontal direction relative to the frame body 1, and the difficulty of adjusting the position of the battery bearing frame 4 corresponding to the battery transfer equipment is reduced. And the restriction support 511 is sized relative to the support surface 512 so as to adjust the position of the battery carrier 4 relative to the frame body 1 in the horizontal direction, so that the battery carrier 4 can be conveniently fixed after adjusting the position thereof in cooperation with the mounting portion 52.

As shown in fig. 5, the supporting surface 512, the supporting member 511 and the position limiting structure 513 are located at the end of the steel member 4a of the battery carrier 4, specifically, at the inner side of the U-shaped opening, so that the space occupied by these structures around the battery carrier 4 is saved, the space utilization rate in the charging bin is improved, and the purpose of carrying a battery with a larger size is achieved. In other embodiments, the stop structure 513 may also be located outside the battery carrier 4. The bearing surface 512, the support 511 and the stop 513 can also be located on the underside of the battery carrier 4, irrespective of the compactness of the charging compartment.

As shown in fig. 5, 6 and 7, the specific implementation structure of the mounting portion 52 in this embodiment includes a through hole 521, a mounting hole 522 and a locking member. The through holes 521 and the mounting holes 522 are arranged in pairs and distributed on two sides of the battery bearing frame 4 at least along the width direction of the battery bearing frame 4, so that the two sides of the battery bearing frame 4 are ensured to have the capability of adjusting the horizontal position, and the accuracy of adjusting the horizontal position of the battery bearing frame 4 can be improved. Wherein, the through hole 521 is opened on the surface of the supporting plate 221 of the supporting beam 21. The mounting hole 522 is opened on the surface of the moving plate 401 of the battery carrier 4, and referring to fig. 7 in particular, the mounting hole 522 is a horizontally extending long kidney-shaped hole, and the hole position of the mounting hole 522 is arranged corresponding to the through hole 521. In this embodiment, the locking member is specifically a locking bolt 523 and a locking cap with threads on the inner side, and the locking bolt 523 includes a bolt head structure and a rod structure with threads on the surface. The internal thread on the locking cap and the external thread on the rod part structure are matched with each other and used for rotatably locking an object, the rod part structure of the locking bolt 523 penetrates through the through hole 521 and the mounting hole 522 respectively, and the rod part structure is locked by the locking cap on the other side relative to the bolt head structure, so that the locking part realizes the position fixation of the battery bearing frame 4 relative to the supporting beam 21. When the locking cap is locked on the locking bolt 523, the battery carrier 4 can horizontally move relative to the support beam 21 by using the mounting hole 522 shaped like a long waist, so as to finely adjust the horizontal position of the battery carrier 4 before the position of the battery carrier 4 is fixed. Specifically, the width of the long kidney-shaped corresponding to the mounting hole 522 is the same as the diameter of the circular hole of the through hole 521, and should be set slightly larger than the diameter of the rod structure of the locking pin 523 to facilitate the insertion and mounting of the rod structure of the locking pin 523.

In other embodiments, the locking member may be other connecting members that can be screwed to fix the position, as will be apparent to those skilled in the art.

In this embodiment, the mounting portions 52 are distributed on both sides of the battery carrier 4, and each mounting portion 52 includes two through holes 521 and two mounting holes 522. Of course, in other embodiments, the number of the mounting holes 522 and the number of the through holes 521 provided in the mounting portion 52 on one side may be three or more, so as to be set according to the actual situation of the width of the battery carrier 4 and the load weight of the rechargeable battery, and meet the requirement of reliably carrying the battery.

In addition, in the present embodiment, the through hole 521 and the mounting hole 522 of the mounting portion 52 on each side are located at the same vertical height, specifically, between the upper and lower housings. Through set up through-hole 521 and mounting hole 522 in this position department of battery carrier 4, provide operating space for locking cap and lock bolt 523 with the position of battery carrier 4, reduce the installation degree of difficulty. Of course, in other embodiments, the through-holes 521 and the mounting holes 522 may also be provided at other positions of the steel member 4a of the lower body of the battery carrier 4.

In this embodiment, in order to facilitate the locking bolt 523 of the locking member to penetrate into the through hole 521 of the supporting beam 21 when the battery carrier 4 is installed, a bolt hole 524 (see fig. 8) may be formed in the supporting beam 21 on the other side surface relative to the through hole 521, the bolt hole 524 corresponds to the through hole 521, and the diameter of the bolt hole 524 should be larger than the bolt head of the locking bolt 523, so that the whole locking bolt 523 can enter the supporting beam 21 from the outside of the supporting beam 21 along the direction indicated by the arrow in fig. 8 through the bolt hole 524, so that the rod structure of the locking bolt 523 can smoothly penetrate into the through hole 521.

In other embodiments, the bolt hole 524 may be correspondingly configured as a long kidney-shaped hole parallel to the through hole 521, provided that the shape of the mounting hole 522 is a circular hole and the shape of the through hole 521 is configured as a long kidney-shaped hole extending in the horizontal direction. Of course, in this structural arrangement, the bolt holes 524 should not be oversized to avoid compromising the structural strength of the support beam 21.

In the present embodiment, when mounting the battery carrier, the battery carrier 4 is first placed on the support cross member 21 via the positioning portions 51, and at this time, the horizontal movable range of the battery carrier 4 with respect to the support cross member 21 is defined between the two position restricting structures 513 of the positioning portions 51. And the size of the horizontally long kidney-shaped structure of the mounting hole 522 of the mounting portion 52 after the locking pin 523 is inserted into the through hole 521 and the mounting hole 522 defines the horizontal movable range of the battery carrier 4 with respect to the support beam 21.

Therefore, it is more preferable that the movable range provided by the distance between the two position-limiting structures 513 should be larger than the movable range provided by the waist-shaped structure size of the mounting hole 522, so that the battery carrier 4 can have a relatively large horizontal movable range when temporarily placed and positioned on the supporting cross beam 21 by the positioning portion 51, and after the locking bolt 523 is mounted, the movable range of the battery carrier 4 relative to the supporting cross beam 21 is reduced, so as to perform fine adjustment on the horizontal position of the battery carrier 4, and after the fine adjustment of the position is completed, the position of the battery carrier 4 is fixed by means of the locking cap, so as to adjust and fix the battery carrier 4 at the optimal position.

While specific embodiments of the utility model 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 utility model 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 utility model, and these changes and modifications are within the scope of the utility model.

Claims (10)

1. The utility model provides a can improve charging frame of installation accuracy sets up in trading power station or energy storage station in order to deposit the battery, its characterized in that, and it includes that support body and battery bear the frame, the battery bear the frame install in on the support body, the battery bear the frame and/or be provided with installation regulating part on the support body, installation regulating part is used for the location the battery bears the frame relatively the support body is along the position of vertical direction, and the adjustment the battery bears the frame relatively the support body is along the position of horizontal direction.

2. The charging stand capable of improving the mounting accuracy according to claim 1, wherein the mounting adjustment portions are distributed on both sides of the battery carrier in a width direction of the battery carrier.

3. A charging stand capable of improving mounting accuracy according to claim 1, wherein said mounting adjustment portion comprises: relative independent location portion and installation department, location portion is used for the restriction the battery bears the frame relatively the position of vertical direction is followed to the support body, the installation department is used for the adjustment the battery bears the frame relatively the position of horizontal direction is followed to the support body, and will the battery bears the frame to be fixed in on the support body.

4. A charging stand capable of improving mounting accuracy according to claim 3, wherein said positioning portion comprises:

the battery support device comprises a support member arranged on the frame body and a support surface arranged on the battery carrier, wherein the support member is formed below the battery carrier, and the battery carrier is supported on the support member through the support surface along the vertical direction.

5. The charging rack capable of improving the installation accuracy as claimed in claim 4, wherein the battery carrier is further provided with limiting structures, the limiting structures are distributed on two sides of the supporting surface along the horizontal direction and protrude downwards from the supporting surface;

the length of the support surface in the horizontal direction is greater than the length of the support member.

6. The charging rack capable of improving the mounting accuracy according to claim 5, wherein the movable range of the positioning part between the two limiting structures is larger than or equal to the position adjustment range of the mounting part.

7. A charging stand with improved mounting accuracy as defined in claim 3, wherein said mounting portion comprises:

a through hole formed on the frame body;

a mounting hole formed on the battery carrier, one of the mounting hole and the through hole being long-waisted in a horizontal direction;

retaining member, the thread end of retaining member wears to establish simultaneously the through-hole with in the mounting hole.

8. The charging stand capable of improving the mounting accuracy according to claim 7, wherein the through holes and the mounting holes are provided in pairs and distributed on both sides of the battery carrier at least in the width direction of the battery carrier.

9. A charging magazine comprising a charging stand according to any of claims 1 to 8 for improved mounting accuracy.

10. A charging or energy storage station, characterized in that it comprises a charging magazine according to claim 9.

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