CN210733883U - Fill electric pile and power module install bin charges thereof - Google Patents

Abstract

The utility model provides a fill electric pile and power module install bin charges thereof can solve the problem that the mounting bracket structure that is used for placing power module among the prior art is complicated. The power module install bin that charges includes: the left side plate and the right side plate are arranged at intervals and are used for being connected with a framework of the charging pile or a fixture on the framework; the left side plate and the right side plate are provided with folded edges which are folded inwards, the folded edges on the two side plates are used for supporting two sides of the power module, or the folded edges on the two side plates are provided with bearing bodies used for bearing the power module; after the folded edge is turned over, a heat dissipation port communicated with the spaces on the two sides of the side plate is formed on the left side plate and the right side plate, and air enters and exits the space between the two side plates to dissipate heat of the power module. The operator can realize the support and the heat dissipation of the power module through the processing of forming the folded edge at the time, and the power module has a simple structure and is convenient to process.

Description

Fill electric pile and power module install bin charges thereof

Technical Field

The utility model relates to a fill electric pile and power module install bin charges thereof.

Background

Fill electric pile and install in parking area or charging station, the leading part includes the cabinet body and piles up at the internal power module of cabinet, and operating personnel can adjust power module's quantity according to the voltage class of difference to charge for the electric motor car of different grade type. For example, grant bulletin number CN209096508U, grant bulletin day 2019.07.12's patent document in disclose an intelligence double gun fill electric pile, this intelligence double gun fills electric pile and includes the box, is provided with the mounting bracket in the box, is provided with a plurality of rectification equipment that are used for placing on the mounting bracket, power module's equipment compartment promptly, the both sides of box be provided with respectively with just to the air inlet door and the air-out door in equipment compartment.

In this fill electric pile, the mounting bracket is located between air inlet door and the air-out door, can come to dispel the heat the cooling through the air that flows to the rectifying equipment on the mounting bracket, but wherein also has some problems: the mounting rack is positioned in the box body, and holes or openings for air to pass through need to be processed on the mounting rack in order to ensure that flowing air cools the rectifying equipment; on the other hand, the mounting frame needs to support a plurality of rectifying devices, and structures such as rib plates, supporting beams and the like which increase the overall strength need to be installed on the mounting frame. These requirements for satisfying the heat dissipation requirement or ensuring the support strength make the structure of mounting bracket become complicated, and the requirement of processing technology becomes high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a charging power module mounting box, which can solve the problem that the mounting rack for placing the power module in the prior art has a complex structure; an object of the utility model is to provide an use electric pile that fills of this module install bin that charges, simple structure can satisfy the requirement of heat dissipation, support again simultaneously.

In order to achieve the above object, the utility model provides a power module install bin charges adopts following scheme:

power module install bin charges includes:

the left side plate and the right side plate are arranged at intervals and are used for being connected with a framework of the charging pile or a fixture on the framework;

the left side plate and the right side plate are provided with folded edges which are folded inwards, the folded edges on the two side plates are used for supporting two sides of the power module, or the folded edges on the two side plates are provided with bearing bodies used for bearing the power module;

after the folded edge is turned over, a heat dissipation port communicated with the spaces on the two sides of the side plate is formed on the left side plate and the right side plate, and air enters and exits the space between the two side plates to dissipate heat of the power module.

The beneficial effects are that: and processing inwards-turned folded edges on the left side plate and the right side plate, utilizing the folded edges to bear the power module, and utilizing an opening formed by processing the folded edges as a heat dissipation opening for air circulation. The folded edge and the two side plates are of an integrated structure, so that the power module has higher strength when supporting two sides of the power module or being connected with the bearing body, the requirement for supporting the power module can be met, and the stability of the charging power module installation box in use is ensured; the path of air entering the charging power module installation box is increased through the arranged heat dissipation port, the circulation of the air in the charging power module installation box is improved, a plurality of branch air channels for respectively dissipating heat of the power modules are formed in the charging power module installation box, and the heat dissipation performance of the charging power module installation box is guaranteed. The operator can realize the support and the heat dissipation of the power module through the processing of forming the folded edge at the time, and the power module has a simple structure and is convenient to process.

Further, the folding edge extends in the horizontal direction.

The beneficial effects are that: the hem extends along the horizontal direction and is arranged, when the hem is utilized to support the power module, the hem can be used as a track for the power module to slide into the charging power module installation box, an operator only needs to push and pull to enable the power module to be installed in place, the structure of the charging power module installation box is simplified, and the task load of the operator is reduced.

Further, the folded edge is an upward folded edge formed by folding upwards.

The beneficial effects are that: the hem is the upturning hem to make the hem be located the last mouthful of rim department of thermovent, the power module that is located the hem below is close to the thermovent, and the part that supplies the air current to pass through in the thermovent is close to the top that the heat concentrates in the power module, can further improve the radiating effect. Meanwhile, the folded edge is positioned at the upper opening edge of the heat dissipation opening, the folded edge forms an inward-folded posture under the action of external force during processing, the folded edge has an outward-folded movement trend under the influence of the gravity of the power module during use, and the original inward-folded posture can resist the outward-folded movement trend at the moment, so that the folded edge is kept in a stable inward-folded state to support the power module.

Furthermore, the space for the radiating fan in the charging pile to extend into is arranged at the rear part of the folded edge on the charging power module installation box.

The beneficial effects are that: a space for the radiating fan to extend into is reserved in the charging power module installation box, so that the flow path of cooling air flow can be reduced, the circulation speed is increased, and the radiating effect is improved.

Further, the power module install bin that charges still includes the bottom plate of connection between left side board and right side board, is provided with the bleeder vent of intercommunication bottom plate both sides on the bottom plate.

The beneficial effects are that: the bottom plate arranged in the charging power module installation box can tension the left side plate and the right side plate, so that the integral connection strength of the charging power module installation box is ensured. The air holes formed in the bottom plate increase the circulation of air to the charging power module installation box, and the air holes can avoid rising air flow, so that hot air flow is taken away through cooling air flow for dissipating heat of the power module, accumulation of heat at the bottom of the charging power module installation box is reduced, and the heat dissipation effect is guaranteed.

In order to achieve the above object, the utility model provides a fill electric pile adopts following technical scheme:

fill electric pile, including the cabinet body, the internal power module install bin that charges that is provided with of cabinet, the power module install bin that charges includes:

the left side plate and the right side plate are arranged at intervals and are connected with a framework of the charging pile or a fixture on the framework;

the left side plate and the right side plate are provided with folded edges which are folded inwards, the folded edges on the two side plates are used for supporting two sides of the power module, or the folded edges on the two side plates are provided with bearing bodies used for bearing the power module;

after the folded edge is turned over, a heat dissipation port communicated with the spaces on the two sides of the side plate is formed on the left side plate and the right side plate, and air enters and exits the space between the two side plates to dissipate heat of the power module.

The beneficial effects are that: the left side plate and the right side plate are provided with inwards-turned folded edges, the folded edges are used for bearing the power module, and an opening formed in the process of processing the folded edges is used as a heat dissipation opening for air circulation. The folded edge and the two side plates are of an integrated structure, so that the power module has higher strength when supporting two sides of the power module or being connected with the bearing body, the requirement for supporting the power module can be met, and the stability of the charging power module installation box in use is ensured; the path of air entering the charging power module installation box is increased through the arranged heat dissipation port, the circulation of the air in the charging power module installation box is improved, a plurality of branch air channels for respectively dissipating heat of the power modules are formed in the charging power module installation box, and the heat dissipation performance of the charging power module installation box is guaranteed. The operator can realize the support and the heat dissipation of the power module through the processing of forming the folded edge at the time, and the power module has a simple structure and is convenient to process.

Further, the folding edge extends in the horizontal direction.

The beneficial effects are that: the hem extends along the horizontal direction and is arranged, when the hem is utilized to support the power module, the hem can be used as a track for the power module to slide into the charging power module installation box, an operator only needs to push and pull to enable the power module to be installed in place, the structure of the charging power module installation box is simplified, and the task load of the operator is reduced.

Further, the folded edge is an upward folded edge formed by folding upwards.

The beneficial effects are that: the hem is the upturning hem to make the hem be located the last mouthful of rim department of thermovent, the power module that is located the hem below is close to the thermovent, and the part that supplies the air current to pass through in the thermovent is close to the top that the heat concentrates in the power module, can further improve the radiating effect. Meanwhile, the folded edge is positioned at the upper opening edge of the heat dissipation opening, the folded edge forms an inward-folded posture under the action of external force during processing, the folded edge has an outward-folded movement trend under the influence of the gravity of the power module during use, and the original inward-folded posture can resist the outward-folded movement trend at the moment, so that the folded edge is kept in a stable inward-folded state to support the power module.

Furthermore, the space for the radiating fan in the charging pile to extend into is arranged at the rear part of the folded edge on the charging power module installation box.

The beneficial effects are that: a space for the radiating fan to extend into is reserved in the charging power module installation box, so that the flow path of cooling air flow can be reduced, the circulation speed is increased, and the radiating effect is improved.

Further, the power module install bin that charges still includes the bottom plate of connection between left side board and right side board, is provided with the bleeder vent of intercommunication bottom plate both sides on the bottom plate.

The beneficial effects are that: the bottom plate arranged in the charging power module installation box can tension the left side plate and the right side plate, so that the integral connection strength of the charging power module installation box is ensured. The air holes formed in the bottom plate increase the circulation of air to the charging power module installation box, and the air holes can avoid rising air flow, so that hot air flow is taken away through cooling air flow for dissipating heat of the power module, accumulation of heat at the bottom of the charging power module installation box is reduced, and the heat dissipation effect is guaranteed.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of a charging pile of the present invention;

fig. 2 is a schematic structural view of a side plate of the charging power module installation box of fig. 1 with the side plate hidden;

fig. 3 is a schematic structural view of the charging power module mounting box of the present invention;

fig. 4 is a schematic structural view of the charging power module mounting box shown in fig. 3 with a top plate removed;

fig. 5 is a front side view of the charging power module mounting box of the present invention engaged with a power module;

fig. 6 is a rear side view of the charging power module mounting box of the present invention engaged with a power module;

in the figure: 10-left side plate; 11-flanging the left side; 12-left stationary portion; 20-right side plate; 21-flanging the right side; 22-right fixed part; 30-a top plate; 31-flanging the top plate; 40-a bottom plate; 41-air holes; 42-flanging the bottom plate; 50-folding edges; 60-a heat dissipation port; 70-a connecting terminal; 80-a cabinet body; 81-vertical skeleton; 82-horizontal skeleton; 83-cabinet door; 84-a radiator fan; 85-a filter screen; 86-a direct current output component; 87-ac distribution components; 90-a power module; 91-power module fan.

Detailed Description

Come in connection with the description attached drawing now the utility model discloses well power module install bin and fill electric pile's embodiment and explain.

The utility model discloses in fill an embodiment of electric pile: the utility model provides a fill electric pile includes the cabinet body, as shown in fig. 1 and fig. 2, cabinet body 80 has the skeleton that is located cabinet body 80 to and fix the power module install bin that charges on the skeleton. Power modules 90 are placed in the charging power module installation box, and technicians can adjust the number of the power modules 90 to adapt to different voltage levels.

The charging power module installation box and the power module 90 therein are integrally located in the middle of the cabinet body 80, a direct current output component 86 is arranged above the charging power module installation box, and an alternating current distribution component 87 is arranged below the charging power module installation box. A human-computer interaction device is arranged at the position of a cabinet door 83 of the charging pile.

As shown in fig. 3 and 4, the charging power module installation box is mainly defined by two side plates, i.e., a left side plate 10 and a right side plate 20, which are arranged at intervals, and a top plate 30 and a bottom plate 40 which are positioned at the top and the bottom of the charging power module installation box. The top edge and the bottom edge of the left side plate 10 are provided with a left side flanging 11 which is fixedly connected with the top plate 30 and the bottom plate 40 and extends along the horizontal direction, and the left side flanging 11 is provided with a bolt through hole which can be fixed with the top plate 30 and the bottom plate 40 through bolts. The left side plate 10 is provided with left fixing portions 12 connected to a vertical frame 81 of the cabinet 80 on front and rear sides thereof, that is, the left side plate 10 is provided with a plurality of bolt through holes arranged at intervals in the up-down direction.

In this embodiment, the structure of the right side plate 20 is symmetrical to that of the left side plate 10, the right side plate 20 has a right side turn-up 21 symmetrical to the left side turn-up 11, and the right side turn-up 21 is fixedly connected with the top plate 30 and the bottom plate 40; the right fixing portion 22 connected to the vertical frame 81 of the cabinet 80 is also provided, so that the description of the corresponding structure of the right side plate 20 will not be repeated here.

The front and rear sides of the top plate 30 are provided with upturned top plate flanges 31, and the top plate flanges 31 are provided with bolt through holes for fixedly connecting with an upper horizontal framework 82 in the cabinet 80. The front and back sides of the bottom plate 40 are provided with bottom plate flanges 42 which are turned down, and the bottom plate flanges 42 are provided with bolt through holes for fixedly connecting with a horizontal framework 82 which is arranged at the lower part in the cabinet 80. And the bottom plate 40 is provided with air holes 41 above the ac power distribution components, so that the hot air absorbed by the ac power distribution components and heated during operation can continuously rise through the air holes 41 and be discharged out of the cabinet 80 through the air duct in the charging power module installation box.

The left side plate 10 and the right side plate 20 are provided with a folded edge 50 which is folded towards the space between the two side plates, and after the folded edge 50 is folded upwards, a heat dissipation opening 60 which is communicated with the inner side space and the outer side space of the left side plate 10 or the right side plate 20 is formed on the two side plates. The folded edges 50 on the two side plates can support two corresponding sides of the power module 90, bolt through holes are formed in the folded edges 50, and after the power module 90 slides in place on the folded edges 50, the corresponding bolt through holes can be selected to be fixedly connected with a shell of the power module 90, so that the power module 90 is fixed on the two folded edges 50.

In this embodiment, the plurality of folded edges 50 are formed on the left side plate 10 or the right side plate 20 in the vertical direction, so that the charging power module installation box can support a plurality of groups of power modules 90 at the same time, and the capacity of the charging power module installation box is improved. And each of the flanges 50 is extended and arranged along the horizontal direction, so that the flanges 50 form a rail for the power module 90 to slide in and out in the charging power module installation box, and an operator can install the power module 90 more conveniently.

For any folding edge 50, the folding edge 50 is located at the edge of the heat dissipation opening 60, and by adopting the structure, the top of the power module 90 located below the folding edge 50 can be closer to the heat dissipation opening 60, the top of the power module 90 is generally the position where heat is gathered, so that the top of the power module is closer to the heat dissipation opening 60, the heat exchange path can be shortened, and the heat dissipation efficiency can be improved. Moreover, the positioning of the flap 50 at the upper rim also has the advantages of: the folded edge 50 is formed into an inward-folded posture by external force during processing, the folded edge 50 has an outward-folded movement trend under the influence of the gravity of the power module 90 during use, and the original inward-folded posture can resist the outward-folded movement trend at the moment, so that the folded edge 50 is kept in a stable inward-folded state to support the power module 90.

As shown in fig. 1 and 2, the charging power module installation box is not provided with a front panel and a rear panel, so that the power module 90 is convenient for an operator to install on one hand, and the gas circulation capacity is improved by reducing parts on the other hand. In this embodiment, the front side and the rear side of the charging power module installation box are both in an open structure, an air inlet is formed in the front side of the charging power module installation box in the cabinet body 80, and a filter screen 85 is arranged at the air inlet; an air outlet is formed in the rear side of the charging power module installation box in the cabinet body 80, a heat dissipation fan 84 located in the cabinet body 80 is arranged at the air outlet, hot air in the cabinet body 80 is extracted out by the heat dissipation fan 84 when the heat dissipation fan 84 rotates, a space for the heat dissipation fan 84 to stretch into is reserved in the charging power module installation box directly, and the heat dissipation fan 84 can be made to be closer to the power module 90.

As shown in fig. 5 and fig. 6, when the operator uses the utility model, the operator places the power module 90 on the hem 50 of the left side plate 10 and the right side plate 20, and pushes the power module 90 inwards along the hem 50, so that the power module 90 is electrically connected with the wiring terminal 70 in the charging power module installation box.

When the charging pile works, the power module 90 in the charging power module installation box generates a large amount of heat, when the cooling fan 84 at the air outlet in the cabinet body 80 works, hot air in the cabinet body 80 is discharged outwards, so that a negative pressure environment is formed in the cabinet body 80, and cold air in the external environment enters the cabinet body 80 through the filter screen 85 at the air inlet. The power module 90 is also provided with a power module fan 91 for dissipating heat of the power module 90, the power module fan 91 is arranged at the front side of the power module 90 and close to the air inlet of the cabinet 80, and hot air can be discharged backwards to draw cold air into the cabinet 80 when the power module fan is in operation.

The air inlet and the air outlet in the cabinet body 80 can cover the charging power module installation box in height, the heat dissipation ports 60 arranged on the left side plate 10 and the right side plate 20 increase the path of air entering the charging power module installation box, the circulation of air in the charging power module installation box is improved, a plurality of branch air channels for respectively cooling the power modules 90 are formed in the charging power module installation box, and the air cooling can be utilized to quickly cool the power modules 90.

In other embodiments, the left side plate and the right side plate in the charging power module installation box may be connected to a fixture in the cabinet body connected to the framework, for example, a horizontal fixing plate is disposed on the framework in the cabinet body, the left side plate and the right side plate are directly fixed to the fixing plate, and the charging power module installation box is indirectly connected to the cabinet body through the fixing plate, which is not limited to the scheme that the left side plate and the right side plate are directly connected to the framework.

In other embodiments, the folded edges on the left side plate and the right side plate are connected with a bearing plate for bearing the power module, the power module is fixed on the bearing plate, and two sides of the bearing plate are supported by the folded edges, but the scheme that two folded edges are used for directly supporting two sides of the power module is not limited.

In other embodiments, the flanges may extend in the vertical direction, the bearing plate for supporting the power module is connected between the two flanges, the surface of the bearing plate is perpendicular to the surface of the flange, and fixing structures may be provided on the front and rear sides of the power module case to be fixedly connected to the flanges extending in the vertical direction, without being limited to the arrangement of the flanges extending in the horizontal direction.

In other embodiments, the folded edge may be disposed at the lower edge of the heat dissipation opening, and is not limited to being located at the upper edge of the heat dissipation opening.

In other embodiments, the charging power module installation box may have a size that is the same as or slightly greater than the length of the power module, so that the charging power module installation box no longer has a space for the heat dissipation fan to extend into.

In other embodiments, the structure of the charging power module installation box may also adopt other forms, for example, only two left and right side plates are adopted, a cross beam connecting the two side plates is arranged between the two side plates, and the power module is arranged between the two side plates.

The utility model discloses the structure of well charging power module install bin is the same with the structure of the above-mentioned charging power module install bin that fills in the electric pile embodiment, and the technological effect that can reach is also the same, consequently no longer repetitious explanation about the embodiment of charging power module install bin.

The above-mentioned embodiments further explain the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above-mentioned embodiments are only embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. Power module install bin charges, its characterized in that: comprises that

The left side plate and the right side plate are arranged at intervals and are used for being connected with a framework of the charging pile or a fixture on the framework;

the left side plate and the right side plate are provided with folded edges which are folded inwards, the folded edges on the two side plates are used for supporting two sides of the power module, or the folded edges on the two side plates are provided with bearing bodies used for bearing the power module;

after the folded edge is turned over, a heat dissipation port communicated with the spaces on the two sides of the side plate is formed on the left side plate and the right side plate, and air enters and exits the space between the two side plates to dissipate heat of the power module.

2. The charging power module installation box according to claim 1, wherein: the folded edge extends in the horizontal direction.

3. The charging power module installation box according to claim 2, wherein: the folded edge is an upward folded edge formed by upward folding.

4. The charging power module installation box according to claim 2 or 3, characterized in that: and a space for the radiating fan in the charging pile to extend into is arranged at the rear part of the folded edge on the charging power module installation box.

5. The charging power module installation box according to claim 1, wherein: the charging power module installation box further comprises a bottom plate connected between the left side plate and the right side plate, and air holes communicated with two sides of the bottom plate are formed in the bottom plate.

6. Fill electric pile, including the cabinet body, the internal power module install bin that charges that is provided with of cabinet, its characterized in that:

the power module install bin that charges includes:

the left side plate and the right side plate are arranged at intervals and are connected with a framework of the charging pile or a fixture on the framework;

the left side plate and the right side plate are provided with folded edges which are folded inwards, the folded edges on the two side plates are used for supporting two sides of the power module, or the folded edges on the two side plates are provided with bearing bodies used for bearing the power module;

after the folded edge is turned over, a heat dissipation port communicated with the spaces on the two sides of the side plate is formed on the left side plate and the right side plate, and air enters and exits the space between the two side plates to dissipate heat of the power module.

7. A charging pile according to claim 6, characterized in that: the folded edge extends in the horizontal direction.

8. A charging pile according to claim 7, characterized in that: the folded edge is an upward folded edge formed by upward folding.

9. A charging pile according to claim 7 or 8, characterized in that: and a space for the radiating fan in the charging pile to extend into is arranged at the rear part of the folded edge on the charging power module installation box.

10. A charging pile according to claim 6, characterized in that: the charging power module installation box further comprises a bottom plate connected between the left side plate and the right side plate, and air holes communicated with two sides of the bottom plate are formed in the bottom plate.

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