CN219007645U - Power exchange station - Google Patents

Abstract

The utility model discloses a power exchange station, comprising: two guide rails, a top shell, two end shells, a movable wing door and a water collecting piece. The two guide rails are arranged at intervals. The top shell covers the two guide rails. The two end shells are respectively connected to two ends of the top shell, and a battery cavity is formed between the top shell and the end shells. The movable wing door is hinged to the guide rail and used for closing or opening the battery cavity, and a gap is reserved between the movable wing door and the top shell. The water collecting piece is arranged on the guide rail, is communicated with the gap and is used for collecting water permeated into the gap. Through setting up the water collector can collect infiltration and trade the water of power station in this application, prevent that the rainwater from getting into and trade the power station inside when the wing door is opened.

Description

Power exchange station

Technical Field

The utility model relates to the technical field of new energy equipment, in particular to a power exchange station.

Background

With the development of new energy automobiles, the electric automobile has more and more urgent requirements for electric energy, and mobile charging and electricity changing become a necessary trend of development. However, the environmental change test is inevitably subjected to rain and snow weather during traveling, for example, in the process of carrying out power conversion in the wild, the rain and snow in the environment can influence the health state of a mechanism, such as the fact that rainwater is embedded into a battery box, short circuit is easily caused, safety accidents are caused, and power conversion faults are generated. For this, a cover body is designed for covering each battery box, but in order to facilitate the battery changing mechanism to execute battery changing operation, the cover body is provided with a movable wing door, and the battery changing station can be opened or closed, but a gap is formed between the top shell of the cover body and the movable wing door, and in the rainy day, when the movable wing door is opened, rainwater can infiltrate into the gap between the top shell and the movable wing door, enter the inside of the battery changing station, and potential safety hazards exist.

In view of this, the present utility model has been made.

Disclosure of Invention

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a power exchange station which can collect permeated rainwater. And rainwater is prevented from entering the inside of the power exchange station when the wing door is opened.

In order to achieve the above object, the present application provides the following technical solutions:

the application provides a power exchange station, comprising:

the two guide rails are arranged at intervals;

the top shell covers the two guide rails;

the two end shells are respectively connected to two ends of the top shell, and a battery cavity is formed between the top shell and the end shells;

the movable wing door is hinged to the guide rail and used for closing or opening the battery cavity, and a gap is formed between the movable wing door and the top shell;

the water collecting piece is arranged on the guide rail and used for collecting water penetrating into the gap.

Optionally, the water collecting piece extends along the length direction of the guide rail, a water collecting cavity is formed between the water collecting piece and the guide rail, and water penetrating into the gap is collected into the water collecting cavity.

Optionally, the water collecting piece is provided with a connecting plate and a water baffle, the connecting plate is connected with the guide rail, and the water collecting cavity is formed between the water baffle and the guide rail.

Optionally, the power exchange station further comprises a drain pipe, wherein the drain pipe is connected to the water collecting piece, and the drain pipe is communicated with the water collecting cavity.

Optionally, the water collecting piece comprises a connecting plate, a water baffle and a transition plate, wherein the transition plate is connected with the connecting plate and the water baffle, the connecting plate is connected with the guide rail, and the water collecting cavity is formed between the water baffle and the guide rail;

the drain pipe is connected to the transition plate.

Optionally, the two sides of the water collecting piece along the length direction are respectively connected with a drain pipe, and the drain pipes are connected with the end part shell.

Optionally, the end housing has a pillar and a skin connected to the pillar, the pillar having an inner sidewall located inside the battery cavity and an outer sidewall located outside the battery cavity;

the drain pipe extends from the water collecting piece to the inner side wall and is fixed on the inner side wall through a fastener.

Optionally, a vent hole communicated with the battery cavity is formed in the end part shell, and a fan assembly is arranged on the vent hole.

Optionally, a hoisting matching part is arranged on the power exchange station.

Optionally, the power exchange station further comprises an industrial personal computer and a charger, wherein the charger and the industrial personal computer are both arranged in the battery cavity, and the charger and the industrial personal computer are respectively arranged at two ends of the battery cavity along the length direction.

By adopting the technical scheme, the utility model has the following beneficial effects:

through setting up the water collector can collect infiltration and trade the water of power station in this application, prevent that the rainwater from getting into and trade the power station inside when the wing door is opened. The rainwater is prevented from entering the battery box in the power exchange station to cause short circuit, and safety accidents are caused.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and together with the description serve to explain the utility model, without limitation to the utility model. It is evident that the drawings in the following description are only examples, from which other drawings can be obtained by a person skilled in the art without the inventive effort. In the drawings:

fig. 1 shows a schematic diagram of a power exchange station according to an embodiment of the present application for performing a power exchange operation;

FIG. 2 shows another schematic view of a power exchange station provided by an embodiment of the present application;

fig. 3 shows an enlarged view of a portion a of fig. 2;

fig. 4 shows a cross-sectional view of the guide rail and the water collector.

In the figure, 1, a guide rail; 2. a top housing; 21. hoisting the matching part; 3. an end housing; 31. a vent; 4. a movable wing door; 5. a water collecting member; 51. a connecting plate; 52. a water baffle; 53. a transition plate; 6, draining pipe; 7. a column; 8. an industrial personal computer; 9. a charger; a. a battery box base; b. a battery box; c. and the electricity exchanging mechanism.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or component referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 4, an embodiment of the present application provides a power exchange station, including: two guide rails 1, a top housing 2, two end housings 3, a movable wing door 4 and a water collecting piece 5. The two guide rails 1 are arranged at intervals. The top housing 2 covers the two guide rails 1. Two end housings 3 are respectively connected to both ends of the top housing 2, and a battery chamber is formed between the top housing 2 and the end housings 3. The movable wing door 4 is hinged to the guide rail 1 and is used for closing or opening the battery cavity, and a gap is formed between the movable wing door 4 and the top shell 2. The water collecting piece 5 is arranged on the guide rail 1, and the water collecting piece 5 is communicated with the gap and is used for collecting water permeated into the gap. In rainy days, the water that stretches into in the clearance can flow down along the outside surface of guide rail 1, and this application can collect the water that flows down along guide rail 1 surface through setting up water collector 5 on the outside surface of guide rail 1. The term "outer side surface" as defined in the present application is understood to mean the side of the guide rail 1 facing away from the interior of the station, i.e. the side facing towards the movable wing door 4.

Through setting up water collector 5 can collect infiltration and trade the water of power station in this application, prevent that the rainwater from getting into and trade the power station inside when the wing door is opened. The rainwater is prevented from entering the battery box in the power exchange station to cause short circuit, and safety accidents are caused.

The utility model provides a be provided with a plurality of battery box bases a along length direction in the power conversion station 1, can install battery box b on the battery box base a, guide rail 1 position is higher than each battery box b, and power conversion mechanism c then slidably connects guide rail 1, and power conversion mechanism c has longitudinal movement frame, connects in the telescopic boom subassembly of longitudinal movement frame and the hoist of connecting telescopic boom subassembly, and the hoist is used for hoisting or below battery box b, and telescopic boom subassembly then can stretch out or withdraw the power conversion station inside along the direction of perpendicular guide rail 1. When the power exchanging task is executed, the telescopic part component firstly stretches out of the power exchanging station, so that the lifting appliance is positioned at the top of the battery box b of the electric machine, and then the lifting appliance descends to grab the battery box b of the electric machine and then can further lift up to lift the battery box b. At this time, the telescopic boom component retracts to transfer the battery box b with the electricity shortage to the inside of the power exchange station, and is placed on the battery box base a of the power exchange station. Then, the battery replacing mechanism c also needs to perform the operation of transferring the full-charge battery in the battery replacing station to the electric machine, and the specific operation process is opposite to the operation of taking out the battery box b on the electric machine, which is not described herein. The movable wing door 4 can open or close the power exchange station, and when the movable wing door is opened, the power exchange mechanism c can avoid to execute power exchange operation.

In one possible embodiment, as shown in fig. 3, the water collecting member 5 is extended along the length direction of the guide rail 1, a water collecting cavity is formed between the water collecting member 5 and the guide rail 1, and the water penetrating into the gap is collected into the water collecting cavity. The extension of the water collecting member 5 along the length direction of the guide rail 1 can increase the range of collecting rainwater. The water collecting piece 5 may be the same length as the guide rail 1.

In one possible embodiment, see fig. 3 and 4, the water collecting member 5 has a connection plate 51 and a water baffle plate 52, the connection plate 51 being connected to the guide rail 1, the water baffle plate 52 and the guide rail 1 forming the water collecting chamber therebetween. The connection plate 51 is attached to the outer surface of the guide rail 1 and is connected to the guide rail 1 in a sealing manner.

In a possible embodiment, the station further comprises a drain pipe 6, said drain pipe 6 being connected to said water collecting member 5, and said drain pipe 6 being in communication with said water collecting chamber. By arranging the drain pipe 6, the collected water can be discharged out of the power exchange station, and rainwater in the water collecting piece 5 is prevented from overflowing.

In one possible embodiment, the water collecting member 5 includes a connection plate 51, a water blocking plate 52 and a transition plate 53, the transition plate 53 connects the connection plate 51 and the water blocking plate 52, the connection plate 51 is connected with the guide rail 1, and the water collecting chamber is formed between the water blocking plate 52 and the guide rail 1. The drain pipe 6 is connected to the transition plate 53. The transition plate 53 is located at the lowest position of the water collecting member 5, and the drain pipe 6 is connected at this position to facilitate drainage of rainwater.

In one possible embodiment, the water collecting member 5 is connected to one of the water discharging pipes 6 at both sides in the length direction, the water discharging pipe 6 communicates with the water collecting chamber, and the water discharging pipe 6 is fixedly connected to the end housing 3. In this embodiment, the drain pipes 6 are provided at both ends of the power exchanging station, and the drainage efficiency is improved.

In one possible embodiment, the end housing 3 has a post 7 and a skin connected to the post 7, the post 7 having an inner side wall located inside the battery cavity and an outer side wall located outside the battery cavity. The drain pipe 6 extends from the water collecting piece 5 to the inner side wall and is fixed to the inner side wall through a fastener.

In this embodiment, the drain pipe 6 is connected to the inner wall of the column 7, and serves as a shielding protection. And the upright post 7 has high structural strength, so that the stable installation of the drain pipe 6 is facilitated.

In one possible embodiment, as shown in fig. 1, a vent 31 is provided in the end housing 3 to communicate with the battery chamber, and a fan assembly is provided in the vent 31. The ventilation opening 31 and the fan assembly can be used for ventilating the interior of the power exchange station, and the regulation is stable, so that the battery box can be in a proper temperature environment.

In one possible embodiment, a lifting fit 21 is provided on the station. The lifting fit portion 21 may include a lifting hole, and a lifting appliance of the lifting device is conveniently inserted into the lifting hole and rotationally clamped. The hoisting equipment can hoist the power exchange station, thereby facilitating the construction operation.

In a possible implementation manner, the power exchange station further comprises an industrial personal computer 8 and a charger 9, wherein the charger 9 and the industrial personal computer 8 are both arranged in the battery cavity, and the charger 9 and the industrial personal computer 8 are respectively arranged at two ends of the battery cavity along the length direction.

The battery replacing station is provided with a charging socket, can be externally connected with a charging pile to charge the battery box of the station, and can also be externally connected with a 380V power supply to charge the battery box of the station through a charger 9 carried by the charging station. The charger 9 is arranged inside the power exchange station and can be used for adjusting the internal temperature of the power exchange station when charging to generate heat. The industrial control station is a command center of the whole operation, and comprises: high and low voltage control boxes, program control cabinets, hydraulic stations, electric converters, low voltage power batteries, and the like. In this application, industrial computer 8 and charger 9 divide to locate the both ends at the power station that trades, correspond the tip casing 3 at both ends respectively, can set up the access door on the tip casing 3, conveniently open and carry out maintenance operation.

The foregoing description is only illustrative of the preferred embodiment of the present utility model, and is not to be construed as limiting the utility model, but is to be construed as limiting the utility model to any simple modification, equivalent variation and variation of the above embodiments according to the technical matter of the present utility model without departing from the scope of the utility model.

Claims (10)

1. A power exchange station, comprising:

the two guide rails are arranged at intervals;

the top shell covers the two guide rails;

the two end shells are respectively connected to two ends of the top shell, and a battery cavity is formed between the top shell and the end shells;

the movable wing door is hinged to the guide rail and used for closing or opening the battery cavity, and a gap is formed between the movable wing door and the top shell;

the water collecting piece is arranged on the guide rail and used for collecting water penetrating into the gap.

2. The power exchange station of claim 1, wherein the water collecting member is disposed to extend along a length direction of the guide rail, a water collecting cavity is formed between the water collecting member and the guide rail, and water penetrating into the gap is collected into the water collecting cavity.

3. The power exchange station of claim 2, wherein the water collection member has a connection plate and a water deflector, the connection plate being connected to the rail, the water deflector and the rail forming the water collection chamber therebetween.

4. The power exchange station of claim 2, further comprising a drain pipe connected to the water collection member, and wherein the drain pipe is in communication with the water collection chamber.

5. The power exchange station of claim 4, wherein the water collection member comprises a connection plate, a water baffle and a transition plate, the transition plate connecting the connection plate and the water baffle, the connection plate being connected to the guide rail, the water baffle and the guide rail forming the water collection chamber therebetween;

the drain pipe is connected to the transition plate.

6. The power exchange station of claim 4, wherein the water collecting members are connected to the drain pipes on both sides in a longitudinal direction, respectively, and the drain pipes are connected to the end housings.

7. The power exchange station of claim 6 wherein said end housing has a post and a skin connected to the post, said post having an inner sidewall inside said cell cavity and an outer sidewall outside said cell cavity;

the drain pipe extends from the water collecting piece to the inner side wall and is fixed on the inner side wall through a fastener.

8. The power exchange station of claim 1 wherein a vent opening is provided in the end housing in communication with the battery cavity, the vent opening having a fan assembly disposed thereon.

9. A plant according to claim 1, characterized in that a lifting fit is provided on the plant.

10. The power exchange station of claim 1, further comprising an industrial personal computer and a charger, wherein the charger and the industrial personal computer are both arranged in the battery cavity, and the charger and the industrial personal computer are respectively arranged at two ends of the battery cavity along the length direction.

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