CN213959775U

CN213959775U - Charging cabinet

Info

Publication number: CN213959775U
Application number: CN202022509182.9U
Authority: CN
Inventors: 李何兴; 刘文涛
Original assignee: GAC Honda Automobile Co Ltd
Current assignee: GAC Honda Automobile Co Ltd
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-08-13
Anticipated expiration: 2030-11-03

Abstract

The utility model relates to the technical field of electric cabinets, in particular to a charging cabinet, which comprises an accommodating cavity, an indicator light, a charging general control switch and a battery storage cabinet; a charging interface, a charger placing plate, an exhaust fan, a transparent explosion-proof door, a temperature sensing device, a smoke sensing device and an explosion-proof plate are arranged in the accommodating cavity; the exhaust fan is electrically connected with the charger; the charging indicator light is electrically connected with the temperature sensing device and the smoke sensing device. The utility model is provided with the temperature sensing device without the alarm device and the smoke sensing device with the alarm device, and the temperature sensing device and the alarm device are both electrically connected with the abnormal indicating lamp, so that an operator can judge whether the charging fault generates high temperature or smoke or not through the states of the indicating lamp and the alarm device; through setting up charger layering interval to separate the battery that is not in charged state through explosion-proof board and the interface that charges, avoided the chain reaction that produces when the battery charging breaks down.

Description

Charging cabinet

Technical Field

The utility model relates to an electricity cabinet technical field especially relates to a cabinet charges.

Background

The rechargeable battery who uses at present has the potential safety hazard of inflammable and explosive and easy chain reaction, but current battery charging cabinet only has simple and easy explosion-proof design, adopts the translucent glass design of inconvenient observation battery situation moreover, and charging failure is difficult to discover, takes place chain reaction moreover easily, causes bigger loss.

In addition, when current cabinet that charges broke down, operating personnel was difficult to direct detection whether this trouble produced high temperature or produced smog, had increased the degree of difficulty of troubleshooting.

SUMMERY OF THE UTILITY MODEL

Based on this, the to-be-solved technical problem of the utility model is that whether the current cabinet that charges is difficult to direct judgement charging failure when breaking down produces high temperature or smog, still can't avoid the battery to charge the chain reaction that produces when unusual.

The technical scheme of the utility model is that: a charging cabinet is characterized by comprising a shell, wherein an accommodating cavity with an opening at one side is arranged in the shell, and an indicating lamp, a charging master control switch and a battery storage cabinet are arranged on the shell;

the indicator lamp and the charging master control switch are both positioned above the accommodating cavity; the battery storage cabinet is positioned below the accommodating cavity;

the side wall of the accommodating cavity is provided with a plurality of exhaust fans, a plurality of temperature sensing devices and a plurality of smoke sensing devices; the charging interface is electrically connected with the charging master control switch;

a transparent explosion-proof door is arranged at the opening of the accommodating cavity; an explosion-proof plate is arranged between the accommodating cavity and the battery storage cabinet;

the exhaust fan is electrically connected with the charging interface, and the indicator lamp, the exhaust fan, the temperature sensing device, the smoke sensing device and the charging interface are electrically connected with the charging master control switch.

Optionally, the charger placing plates are distributed in the accommodating cavity in a multi-layer structure, the charger placing plates and the charging interfaces are in one-to-one correspondence, and a gap exists between every two charger charging plates on each layer.

Optionally, the indicator light comprises an abnormal indicator light and/or a normal operation light.

Optionally, the smoke sensing device comprises a smoke sensor and an alarm device; the smoke sensor is electrically connected with the alarm device.

Optionally, a buzzer is arranged around the abnormal indicator light, and the buzzer is electrically connected with the abnormal indicator light; the abnormal indicator lamps are electrically connected with the alarm device and the temperature sensing device; and the abnormal indicating lamp is electrically connected with the charging master control switch.

Optionally, the explosion vent is a push-pull explosion vent.

Optionally, the charger placing plate is arranged from the explosion-proof door to the inside of the accommodating cavity in an inclined manner from bottom to top.

Optionally, the charger placing plate is provided with wire receiving cavities corresponding to the charger placing plate one to one.

Optionally, the battery storage cabinet includes a charged battery storage cabinet and a battery storage cabinet to be charged.

Optionally, the charged battery storage area and the to-be-charged battery storage area are both provided with labels with regional function instructions outside.

Implement the embodiment of the utility model provides a, compare with prior art, have following beneficial effect:

the utility model discloses a cabinet charges, it sets up transparent explosion vent on the cabinet body of cabinet to charge, this explosion vent inboard is located to the charger to set up the pilot lamp on the cabinet body, when charging failure takes place, the pilot lamp can change, the staff judges the operating condition of cabinet that charges more easily according to the change of pilot lamp, the charging failure who takes place when can in time discover to charge, and through setting up explosion-proof plate and battery storing compartment, the chain reaction that charging failure arouses has been reduced, reduce the trouble and bring extra loss.

Further, through setting up the pilot lamp that is connected with temperature-sensing device and smog induction system electricity, can judge through the pilot lamp when the charging fault takes place, whether high temperature or smog have been produced.

Drawings

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

Fig. 2 is a front view of the charging cabinet according to the embodiment of the present invention.

Description of reference numerals:

100. charging cabinet, 1, a housing, 11, the holding chamber, 111, charger placing plate, 112, the interface that charges, 113, the air discharge fan, 114, temperature-sensing device, 115, smoke induction system, 1151, smoke transducer, 1152, alarm device, 116, explosion vent, 117, accomodate the chamber, 12, pilot lamp, 121, unusual pilot lamp, 122, normal operating lamp, 13, charge master control switch, 14, battery storing compartment, 141, the battery storing compartment that has charged, 142, treat the battery storing compartment that charges, 143, the label, 15, explosion-proof board, 16, bee calling organ.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, the embodiment provides a charging cabinet 100, which includes a casing 1, an accommodating cavity 11 with an opening on one side is provided in the casing 1, and an indicator lamp 12, a charging master control switch 13 and a battery storage cabinet 14 are provided on the casing;

the indicator light 12 and the charging master control switch 13 are both positioned above the accommodating cavity 11; the battery storage cabinet 14 is positioned below the accommodating cavity 11;

a plurality of charger placing plates 111 and a plurality of charging interfaces 112 are arranged in the accommodating cavity 11, and a plurality of exhaust fans 113, a plurality of temperature sensing devices 114 and a plurality of smoke sensing devices 115 are arranged on the side wall of the accommodating cavity 11; the charging interface 112 is electrically connected with the charging master control switch 13 and is used for connecting an external charger; the external charger is placed on the charger placing plate 111.

A transparent explosion-proof door 116 is arranged at the opening of the accommodating cavity 11; an explosion-proof plate 15 is arranged between the accommodating cavity 11 and the battery storage cabinet 14;

the exhaust fan 113 is electrically connected with the charging interface 112, and the indicator light 12, the exhaust fan 113, the temperature sensing device 114, the smoke sensing device 115 and the charging interface 112 are electrically connected with the charging master switch 13.

After the external charger is connected with the charging interface 112, the charging master switch 13 is turned on, the charger starts to charge, the exhaust fan 113 is turned on, and the temperature of the charging cabinet 100 is kept at a normal level when the charging cabinet operates normally through ventilation of the exhaust fan 113; when the charging cabinet 100 fails to work, high temperature or smoke is generated, the high temperature and smoke generated when the failure occurs can be detected through the temperature sensing device 114 and the smoke sensing device 115, the operator is informed of the failure through the change of the indicator light 12, and meanwhile, the power supply of the charging interface 112 is cut off through the charging master switch 13, so that the influence caused by the failure is reduced, and further expansion is realized; the condition inside the accommodating cavity 11 can be observed through the transparent explosion-proof door 116, and explosion and dispersion caused by charging faults are prevented; the battery storage cabinet 14 can store batteries which do not need to be charged, and the charger is separated from the batteries which do not need to be charged by arranging the explosion-proof plate 15, so that the chain reaction caused by explosion generated by charging faults can be avoided.

Preferably, the charger placing plates 111 are distributed in the accommodating cavity 11 in a multi-layer structure, the charger placing plates 111 correspond to the charging interfaces 112 one by one, and a space is formed between each two charger placing plates 111 on each layer. By layering and arranging the plurality of charger placing plates 111 at intervals, the chargers can be separated from each other, thereby reducing chain reactions caused by charging failures.

Preferably, the indicator light 12 includes an abnormal indicator light 121 and/or a normal operation light 122. The operator can determine the current working state of the charging cabinet 100 through the abnormal indicating lamp 121 and the normal operation lamp 122.

Preferably, the smoke sensing device 115 includes a smoke sensor 1151 and an alarm device 1152; the smoke sensor 1151 is electrically connected to the alarm device 1152. When a fault occurs, an operator can judge whether the current charging fault condition is high temperature or smoke generation through whether the alarm device 1152 in the smoke sensing device 115 acts or not, so that the fault can be better checked.

Preferably, a buzzer 16 is arranged around the abnormal indicator light 121; the abnormal indicator lamps 121 are electrically connected with the alarm device 1152 and the temperature sensing device 114; the abnormality indicator lamp 121 is electrically connected to the charge master switch 13. When the temperature is abnormal or smoke is generated, the abnormal indicating lamp 121 is turned on, and the buzzer 16 works to remind the operator of the abnormality of the charging cabinet: if the buzzer 16 and the alarm 1152 are operated at the same time, the present malfunction generates smoke, and if the buzzer 16 is operated and the alarm 1152 is not operated, the present malfunction generates a high temperature without generating smoke. Finally, the power supply of the charging interface 112 is cut off through the charging master switch 13.

Preferably, the explosion vent 116 is a push-pull explosion vent; compared with an opposite-opening explosion-proof door, the push-pull explosion-proof door effectively saves the space required by opening the door.

Preferably, the charger placing plate 111 is inclined from bottom to top from the explosion-proof door 116 to the inside of the accommodating chamber 11, which is more beneficial for an operator to observe the state of the whole charger from the explosion-proof door.

Preferably, the charger placing plate 111 is provided with wire accommodating cavities 117 corresponding to the charger placing plate 111 one by one around the charger placing plate, so that external electric wires of the charger can be accommodated in the accommodating cavities 117, and the charger is prevented from being disordered in wiring when in use.

Preferably, the battery storage cabinet 14 includes a charged battery storage cabinet 141 and a battery storage cabinet 142 to be charged, so that the batteries to be charged and the batteries not to be charged are separately placed, thereby avoiding the danger caused by the random placement of the batteries.

Preferably, the charged battery storage area 141 and the to-be-charged battery storage area 142 are provided with labels 143 with regional function instructions on the outside, and the charged battery and the to-be-charged battery can be distinguished by the labels 143.

In the charging cabinet provided by this embodiment, when in use, firstly, the charged battery and the battery to be charged are respectively put into the charged battery storage cabinet 141 and the battery storage cabinet 142 with the label 143; after a battery which is being charged is connected with a charger, the charger is connected with a charging interface 112 and then is placed on a charger placing plate 111, and a wire of the charger is received in a wire receiving cavity 117; after the push-pull type explosion door 116 is closed, the charging master control switch 13 is opened, the exhaust fan 113 starts working, the temperature in the accommodating cavity 11 is kept normal in the charging process, and the normal operation lamp 122 is lighted at the same time. When a fault occurs and high temperature is generated, the temperature sensing device 114 acts, the abnormal indicator lamp 121 lights up, the buzzer 16 works to inform an operator, and the charging master switch 13 cuts off the power supply of the charging interface 112; when smoke is generated due to a fault, the smoke sensing device 115 operates, the abnormal indicator lamp 121 lights up, the alarm device 1152 and the buzzer 16 simultaneously notify an operator, and the charging master switch 13 cuts off the power supply of the charging interface 112.

The charging cabinet of this embodiment has following beneficial effect: by arranging the temperature sensing device without the alarm device and the smoke sensing device with the alarm device and electrically connecting the temperature sensing device and the alarm device with the abnormal indicating lamp, an operator can judge whether a charging fault generates high temperature or smoke according to the states of the indicating lamp and the alarm device; the chargers are arranged in a layered and spaced mode, and the batteries which are not in a charging state are separated from the chargers through the explosion-proof plates, so that chain reaction generated when the batteries are charged and break down is avoided.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the principle of the present invention, and these modifications and variations are also considered as the protection scope of the present invention.

Claims

1. A charging cabinet is characterized by comprising a shell, wherein an accommodating cavity with an opening at one side is arranged in the shell, and an indicating lamp, a charging master control switch and a battery storage cabinet are arranged on the shell;

2. The charging cabinet according to claim 1, wherein the charger placing plates are distributed in the accommodating cavity in a multi-layer structure, the charger placing plates correspond to the charging interfaces one by one, and a gap is formed between every two charger placing plates on each layer.

3. The charging cabinet of claim 1, wherein the indicator light comprises an abnormal indicator light and/or a normal operation light.

4. The charging cabinet of claim 3, wherein the smoke sensing device comprises a smoke sensor and an alarm device; the smoke sensor is electrically connected with the alarm device.

5. The charging cabinet according to claim 4, wherein a buzzer is arranged around the abnormal indicator light, and the buzzer is electrically connected with the abnormal indicator light; the abnormal indicator lamps are electrically connected with the alarm device and the temperature sensing device; and the abnormal indicating lamp is electrically connected with the charging master control switch.

6. A charging cabinet according to any one of claims 1 to 5, wherein the explosion vent is a push-pull explosion vent.

7. The charging cabinet according to any one of claims 1 to 5, wherein the charger placement plate is disposed to be inclined from bottom to top from the explosion vent toward the inside of the accommodating chamber.

8. The charging cabinet according to any one of claims 1 to 5, wherein the charger placement plate is provided with wire receiving cavities around the charger placement plate in one-to-one correspondence with the charger placement plate.

9. The charging cabinet according to any one of claims 1 to 5, wherein the battery storage cabinet comprises a charged battery storage cabinet and a battery storage cabinet to be charged.

10. The charging cabinet according to claim 9, wherein the exterior of the charged battery storage area and the battery storage area to be charged are provided with labels with regional function instructions.