Battery cabinet
Technical Field
The utility model relates to a power cabinet especially relates to a battery cabinet of operation is carried out to battery cabinet to convenience.
Background
The data center comprises a production center, a processing center and a storage center of information and internet services. At present, the construction of data centers in the market is generally divided into traditional centralized and container data centers, the traditional centralized construction generally starts from land planning, large data centers are designed in a targeted planning mode, the planning and construction period is as long as 2-3 years, the initial equipment investment is huge, the construction mode is very inflexible, and the expansion of cabinets and the upgrade of the power load of each server cabinet according to market demands are often unrealistic.
In recent years, with the rapid development of the electronic information industry, container data centers and micro-module data centers enter the field of vision of people. The micromodule data center is characterized in that each module has an independent function and a unified input/output interface, modules in different areas can be backed up, and a complete data center is formed by arranging and combining related modules. With the development of information technology, the development of micro-module data center enters a new stage, such as the "a high-density micro-module data center" of the Chinese utility model with patent number ZL201520547884.2 (No. CN204796024U) provides a micro-module data center which comprises a cabinet, a power distribution cabinet, a UPS power cabinet, a battery cabinet and an even number of air-conditioning cabinets with the same specification and size arranged on the floor of a machine room, the cabinet, the power distribution cabinet, the UPS power cabinet, the battery cabinet and the even number of air-conditioning cabinets are divided into a first group of cabinets and a second group of cabinets with the same number, the battery cabinet is used for providing power for the whole micro-module data center, the battery can generate heat in the discharging process, so the heat dissipation of the battery cabinet is particularly important, and the access of battery is difficult to avoid in the use of battery cabinet, and it has higher requirement to open the door to the lateral wall of battery cabinet for this reason to satisfy and be difficult to receive the interference when opening the lateral wall and opening the door.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the first technical problem that a battery cabinet that the battery can conveniently be accessed to the lateral wall opening door type is provided to above-mentioned prior art current situation.
The utility model aims to solve the second technical problem that to above-mentioned prior art current situation and provide a radiating battery cabinet that can do benefit to battery cabinet.
The utility model provides a technical scheme that above-mentioned technical problem adopted does: this battery cabinet, including the cabinet body, the cabinet body package top-down interval is provided with the baffle, the baffle will the sub-appearance chamber that is used for holding the battery is separated into to the cabinet body, the cabinet body is still including the qianmen, the qianmen articulate in on the stand that the qianmen corresponds, its characterized in that: the front door is limited to be in an open state relative to the corresponding upright post of the front door.
In order to solve the second technical problem, preferably, a battery is placed on the partition plate, the partition plate is provided with heat dissipation holes for dissipating heat of the battery, the bottom of the cabinet body is provided with air inlet holes for introducing outside air to the cabinet body, and the air inlet holes are in fluid communication with the heat dissipation holes. The heat dissipation holes arranged on the partition plates are in fluid communication with the through holes at the bottom of the cabinet body, so that external cold air can be introduced into the cabinet body, and the introduced external cold air can flow into the heat dissipation holes in the partition plates, so that the batteries can be effectively dissipated.
In order to realize that the front door can be limited to be in an opened state in the opened state, preferably, the limiting part comprises a limiting strip hinged to the bottom of the cabinet body and a limiting seat arranged on the front door, the limiting strip can move along the limiting seat, the limiting seat comprises an opened position used for limiting the limiting strip to be positioned so that the front door is in the opened state and a closed position used for limiting the limiting strip to be positioned so that the front door is in the closed state, the opened position is adjacent to the upright post of the cabinet body, and the closed position is far away from the upright post of the cabinet body. Of course, the stopper bar can be restricted to the closed state when it is located at the closed position of the stopper holder.
Furthermore, the cross section of the limiting seat is U-shaped, and comprises a first vertical part connected to the front door, a second vertical part with the height lower than that of the first vertical part, and a third horizontal part connected between the first vertical part and the second vertical part, wherein a through hole for the limiting strip to move is formed in the third horizontal part, the opened position is a first through hole with a peripheral caliber larger than that of the through hole, and the closed position is a second through hole with a peripheral caliber larger than that of the through hole. Because the peripheral caliber of the first through hole or the second through hole is larger than that of the through hole, the limiting strip can move in the through hole when the front door is opened, and can be limited at the opening position when the limiting strip moves to the first through hole, and the limiting strip can be separated from the first through hole when the front door is closed, and continuously moves along the through hole and moves to the second through hole.
In order to enable the limit strip to better realize that the front door can be limited in an opened state when the front door is opened, preferably, a forward-inclined bent part is arranged at the tail end of the limit strip to form a bent pin, the bent pin is positioned on the lower surface of the limit seat, a limit screw is connected to the end part of the bent pin, the head part of the limit screw extends out of the through hole of the third horizontal part, and the tail part of the limit screw is clamped outside the through hole, so that the bent pin is connected to the limit seat.
In order to achieve good heat dissipation performance of the cabinet body, preferably, an air inlet portion is arranged on the front door corresponding to the heat dissipation holes, a cover case is covered at an air inlet position of the air inlet portion, and a ventilation opening communicated with the air inlet portion is formed in the bottom of the cover case. The housing can also prevent dust from falling into the air inlet.
Compared with the prior art, the utility model has the advantages of this battery cabinet is provided with the baffle including the cabinet body, cabinet body package top-down interval, and the baffle becomes the sub-appearance chamber that is used for holding the battery with the cabinet body partition, under the state that the stand that the relative qianmen of front door corresponds was opened, restriction qianmen was in the state of opening to be favorable to the staff to conveniently access the battery, have simple structure's characteristics.
Drawings
Fig. 1 is a schematic structural view of a battery cabinet in an embodiment of the present invention, in which a front door is in an open state;
FIG. 2 is a schematic view of another angle of FIG. 1;
fig. 3 is a schematic structural view of a limiting seat according to an embodiment of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments.
As shown in FIGS. 1 to 3, the preferred embodiment of the present invention is shown. The battery cabinet in the embodiment comprises a cabinet body 1, wherein the cabinet body 1 is provided with partition plates 2 at intervals from top to bottom, the partition plates 2 divide the cabinet body 1 into sub-containing cavities 11 for containing batteries, the cabinet body 1 further comprises a front door 12, the front door 12 is hinged to an upright post corresponding to the front door 12, the battery cabinet further comprises a limiting piece 3, the front door 12 is limited to be in an open state when the front door 12 is opened relative to the upright post corresponding to the front door 12, the battery cabinet comprises the cabinet body 1, the partition plates 2 are arranged at intervals from top to bottom when the cabinet body 1 is provided with the cabinet body 1, the partition plates 2 divide the cabinet body 1 into the sub-containing cavities 11 for containing the batteries, and the front door 12 is limited to be in the open state when the upright post corresponding to the front door 12 is.
Specifically, the battery is placed on the partition board 2, the partition board 2 is provided with heat dissipation holes 21 for dissipating heat of the battery, the bottom of the cabinet 1 is provided with air inlet holes for introducing outside air to the cabinet 1, the air inlet holes are in fluid communication with the heat dissipation holes 21, the heat dissipation holes 21 formed in the partition board 2 are in fluid communication with through holes 3231 formed in the bottom of the cabinet 1, so that outside cold air can be introduced into the cabinet 1, and the introduced outside cold air can flow into the heat dissipation holes 21 formed in the partition boards 2, so that the battery can be effectively dissipated. In order to realize that the front door 12 can be limited to be in an opened state, the limiting member 3 comprises a limiting strip 31 hinged to the bottom of the cabinet body 1 and a limiting seat 32 arranged on the front door 12, the limiting strip 31 can move along the limiting seat 32, the limiting seat 32 comprises an opening position for limiting the limiting strip 31 to be in the opened state so that the front door 12 is in the closed state and a closing position for limiting the limiting strip 31 to be in the closed state so that the front door 12 is in the opened state, the opening position is adjacent to the upright post of the cabinet body 1, and the closing position is far away from the upright post of the cabinet body 1, of course, when the limiting strip 31 is in the closing position of the limiting seat 32, the limiting strip can. In addition, the cross section of the limiting seat 32 is U-shaped, and includes a first vertical portion 321 used for connecting to the front door 12, a second vertical portion 322 having a height lower than that of the first vertical portion 321, and a third horizontal portion 323 connected between the first vertical portion 321 and the second vertical portion 322, the third horizontal portion 323 is provided with a through hole 3231 for the limiting bar 31 to move, the open position is a first through hole 3231 having a peripheral caliber larger than that of the through hole 3231, and the closed position is a second through hole 3231 having a peripheral caliber larger than that of the through hole 3231. Since the peripheral diameter of the first through hole 3231 or the second through hole 3231 is larger than that of the through hole 3231, for this reason, the stopper 31 can move in the through hole 3231 when the front door 12 is opened, and can be stopped in the opened position when the stopper 31 moves to the first through hole 3233, and the stopper 31 can be disengaged from the first through hole 3233 when the front door 12 is closed, and continuously moves along the through hole 3231 and moves to the second through hole 3234. Finally, in order to enable the limiting strip 31 to better limit the front door 12 to be in the opened state when the front door is opened, a forward-inclined bent part is arranged at the tail end of the limiting strip 31 to form a bent pin 311, the bent pin 311 is positioned on the lower surface of the limiting seat 32, a limiting screw 4 is connected to the end part of the bent pin 311, the head part 41 of the limiting screw 4 extends out of the through hole 3231 of the third horizontal part 323, and the tail part 42 of the limiting screw 4 is clamped outside the through hole 3231, so that the bent pin 311 is connected to the limiting seat 32. Meanwhile, in order to realize good heat dissipation of the cabinet body 1, an air inlet portion 121 is provided on the front door 12 at a position corresponding to the heat dissipation hole 21, a cover 5 is covered at an air inlet portion of the air inlet portion 121, and a vent 51 communicated with the air inlet portion 121 is provided at the bottom of the cover 5, wherein the cover 5 can also prevent dust from falling into the air inlet portion.