CN215705731U

CN215705731U - A cabinet that charges for shuttle battery charges

Info

Publication number: CN215705731U
Application number: CN202121114802.7U
Authority: CN
Inventors: 卞宏建; 刘冀
Original assignee: Nanjing Inform Storage Equipment Group Co ltd
Current assignee: Nanjing Inform Storage Equipment Group Co ltd
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2022-02-01
Anticipated expiration: 2031-05-24

Abstract

The utility model discloses a charging cabinet for charging shuttle car batteries, which comprises a cabinet body and drawers, wherein the cabinet body is internally provided with the drawers, the drawers are connected with the cabinet body in a sliding manner, the cabinet body is internally provided with a power supply module, the power supply module is used for converting and outputting input voltage, each drawer is internally provided with at least one first Anderson plug for charging the shuttle car batteries, the side surface of each drawer is provided with a second Anderson plug connected with the first Anderson plug through a lead, the inner side surface of the cabinet body is provided with a third Anderson plug connected with the output end of the power supply module, when the drawers are closed, the third Anderson plug is spliced with the second Anderson plug in a head-to-tail manner, and at the moment, the power supply module is electrically connected with the first Anderson plug. Adopt the cabinet that charges to charge for a plurality of shuttle batteries, effectively reduce the shuttle occupation space that charges, set up the Anderson plug between the electricity of drawer and cabinet body, the charging circuit of physics automatic disconnection battery when the drawer pulls open guarantees the charging safety when the drawer is opened.

Description

A cabinet that charges for shuttle battery charges

Technical Field

The utility model relates to the field of charging cabinets, in particular to a charging cabinet for charging a battery of a shuttle car.

Background

With the continuous development of logistics technology, the modernization and automation degree of storage equipment is greatly improved, and particularly the shuttle type goods shelf with high-density storage and high warehouse utilization rate is concerned, a large number of shuttle cars are operated in the shuttle type goods shelf, and the large number of shuttle cars are often required to be charged. At present, the shuttle cars are charged by placing the shuttle cars on the ground, so that a large amount of space is occupied, and potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in view of the above disadvantages, the present invention provides a charging cabinet for safely charging a shuttle battery.

The technical scheme is as follows: in order to solve the problems, the charging cabinet for charging the shuttle car battery comprises a cabinet body and drawers, wherein at least one drawer is arranged in the cabinet body, the drawer is connected with the cabinet body in a sliding mode, a power supply module is arranged in the cabinet body and used for converting input voltage and outputting the converted voltage, at least one first plug used for charging the shuttle car battery is arranged in each drawer, a second plug connected with a first plug through a lead is arranged on the side face of the drawer, a third plug is arranged on the inner side face of the cabinet body, one end of the third plug is connected with the output end of the power supply module, when the drawer is closed, the other end of the third plug is spliced with one end of the second plug end to end, and the power supply module is electrically connected with the first plug.

Has the advantages that: compared with the prior art, the charging cabinet has the advantages that the charging cabinet is adopted to charge a plurality of shuttle car batteries, the occupied space for charging the shuttle cars is effectively reduced, the plug connection is arranged between the drawer and the cabinet body, the connection can be disconnected through the plug when the drawer is pulled open, the charging circuit of the batteries is physically and automatically disconnected, and the charging safety when the drawer is opened is ensured.

Furthermore, the first plug, the second plug and the third plug are all Anderson plugs.

The drawer is connected with the cabinet body in a sliding mode through the sliding rail assembly, the sliding rail assembly comprises sliding rails arranged on two sides of the drawer and sliding grooves arranged on two sides of the cabinet body, the sliding rails move in the sliding grooves, the extending direction of the sliding rails is along the push-pull direction of the drawer, the second plug is arranged below the sliding rails on one side of the drawer, and the third plug is arranged on the sliding grooves.

Further, the power supply module comprises an indicator light, and when the second plug and the third plug are spliced end to end and the first plug charges the battery, the indicator light displays green; when the second plug and the third plug are spliced end to end and the battery is fully charged, the indicator lamp displays red; when the second plug is disconnected from the third plug, the indicator lamp is turned off.

Furthermore, two drawers are arranged in the cabinet body.

Furthermore, every the drawer sets up two check that charge, every the check that charge sets up a first plug, and two second plugs of being connected with two first plugs are located the drawer both sides respectively.

Drawings

FIG. 1 is a schematic drawing showing the drawer of the charging cabinet according to the present invention;

FIG. 2 is a schematic view of a charging cabinet with a drawer closed and a right side plate removed;

FIG. 3 is a right side view of the charging cabinet of the present invention with the drawer and the right side panel of the cabinet removed;

FIG. 4 is a top view of the charging cabinet drawer of the present invention;

fig. 5 is a schematic diagram of the circuit connection of the present invention.

Detailed Description

As shown in fig. 1 to 3, in this embodiment, a charging cabinet for charging a battery of a shuttle car includes a cabinet body 100 and drawers 200, at least one drawer 200 is disposed in the cabinet body 100, in this embodiment, two drawers 200 are disposed in the cabinet body 100, the two drawers 200 are slidably connected to the cabinet body 100 through a sliding rail assembly, a power supply module 102 is disposed inside the lower portion of the cabinet body 100, the power supply module 102 includes a power adapter and the like for converting an input voltage of an external power supply into a voltage capable of charging the battery, and outputting the converted voltage, the power supply module 102 connects an output end of the voltage output to a third anderson plug 303, the third anderson plug 303 is mounted on the sliding rail assembly inside a side plate of the cabinet body, in this embodiment, the power supply module 102 has 4 voltage output ends, and is respectively connected to 4 third anderson plugs 303.

For two drawers 200 in this embodiment, as shown in fig. 4, each drawer 200 is provided with two charging compartments 201 for placing shuttle batteries 500, each charging compartment 201 is provided with a first anderson plug 301 for charging shuttle batteries 500, one end of the first anderson plug 301 is directly connected to a charging port of shuttle batteries 500, the other end is connected to a second anderson plug 302 through a conducting wire, the second anderson plug 302 is arranged on a sliding rail assembly on the side of the drawer 200, two second anderson plugs 302 respectively connected to the two first anderson plugs 301 in one drawer 200 are respectively arranged on sliding rail assemblies on both sides of the drawer 200, when the drawer 200 is closed, one end of the second anderson plug 302 and one end of the third anderson plug 303 on the same sliding rail assembly are spliced end to end, at this time, the power supply module 102 is electrically connected to the first anderson plug 301, when the drawer 200 is pulled open, one end of the second anderson plug 302 and one end of the third anderson plug 303 on the same slide rail assembly are disconnected, and at this time, the power supply module 102 is electrically disconnected from the first anderson plug 301. When the drawer is pulled open, the charging safety of the battery is effectively ensured.

The sliding rail assembly comprises sliding rails 401 arranged on two sides of the drawer 200 and sliding grooves 402 arranged on two sides of the cabinet body 100, the sliding rails 401 move in the sliding grooves 402, the extending direction of the sliding rails 401 is along the pushing and pulling direction of the drawer 200, in the embodiment, two second anderson plugs 302 of one drawer 200 are respectively arranged below the sliding rails 401 on two sides of the drawer, two third anderson plugs 303 in pairing connection with the two second anderson plugs 302 are respectively arranged on the sliding grooves 402 of the sliding rail assembly, the drawer 200 is pulled open, the sliding rails 401 move outwards relative to the sliding grooves 402, and the second anderson plugs 302 and the third anderson plugs 303 respectively arranged on the sliding rails 401 and the sliding grooves 402 are disconnected along with the outward movement of the sliding rails; when the drawer 200 is closed, the sliding rail 401 moves inwards relative to the sliding groove 402, and the second anderson plug 302 and the third anderson plug 303 which are respectively arranged on the sliding rail 401 and the sliding groove 402 are matched with each other to be connected end to end along with the inward movement of the sliding rail, so that the electric connection is formed.

The power supply module 102 comprises indicator lights 600, one indicator light 600 is correspondingly arranged on one charging grid 201, in the embodiment, 4 indicator lights 600 are arranged, and when a second anderson plug 302 and a third anderson plug 303 corresponding to the indicator lights 600 are spliced end to end, and the first anderson plug 301 charges the shuttle car battery 500, the indicator lights 600 display green; when the second anderson plug 302 and the third anderson plug 303 are spliced end to end and the shuttle car battery 500 is fully charged, the indicator light 600 displays red; when the second anderson plug 302 is disconnected from the third anderson plug 303, the indicator light is turned off, and the staff can effectively judge the charging condition of the battery in the charging cabinet according to the display condition of the indicator light 600.

Claims

1. The utility model provides a cabinet that charges for shuttle battery charges, includes the cabinet body, drawer, the internal at least one drawer that sets up of cabinet, drawer and cabinet body sliding connection, its characterized in that, the internal power module that is equipped with of cabinet, power module are used for converting input voltage to with the voltage output of conversion, every be equipped with at least one first plug that is used for charging for the shuttle battery in the drawer, the drawer side is provided with the second plug of being connected with first plug wire, the third plug is installed to cabinet body medial surface, and third plug one end is connected with the power module output, and when the drawer was closed, the third plug other end splices end to end with second plug one end, and power module is connected with first plug electricity this moment.

2. The charging cabinet of claim 1, wherein the first plug, the second plug, and the third plug are all Anderson plugs.

3. The charging cabinet according to claim 1, further comprising a sliding rail assembly, wherein the drawer is slidably connected to the cabinet body through the sliding rail assembly, the sliding rail assembly comprises sliding rails disposed on two sides of the drawer and sliding grooves disposed on two sides of the cabinet body, the sliding rails move in the sliding grooves, the extending direction of the sliding rails is along the pushing and pulling direction of the drawer, the second plug is disposed below the sliding rail on one side of the drawer, and the third plug is disposed on the sliding grooves.

4. The charging cabinet of claim 2, wherein the power supply module comprises an indicator light, and when the second plug and the third plug are spliced end to end and the first plug charges the battery, the indicator light displays green; when the second plug and the third plug are spliced end to end and the battery is fully charged, the indicator lamp displays red; when the second plug is disconnected from the third plug, the indicator lamp is turned off.

5. The charging cabinet according to claim 1, wherein two drawers are provided in the cabinet body.

6. The charging cabinet according to claim 4, wherein two charging grids are arranged in each drawer, a first plug is arranged in each charging grid, and two second plugs connected with the two first plugs are respectively arranged on two sides of the drawer.