CN220605244U

CN220605244U - Intelligent power supply cabinet

Info

Publication number: CN220605244U
Application number: CN202322059928.4U
Authority: CN
Inventors: 李桂强; 梁颂晖
Original assignee: Guangdong Digong Intelligent Security Technology Co ltd
Current assignee: Guangdong Digong Intelligent Security Technology Co ltd
Priority date: 2023-08-01
Filing date: 2023-08-01
Publication date: 2024-03-15
Anticipated expiration: 2033-08-01

Abstract

The utility model discloses an intelligent power supply cabinet, in particular to the technical field of power supply cabinets, which comprises a power supply cabinet body, wherein a control module is arranged in the power supply cabinet body, and the input end of the control module is connected with a temperature monitoring module for monitoring the temperature in the power supply cabinet body; the output end of the control module is connected with a fire-fighting device for extinguishing fire when a fire disaster occurs in the power supply cabinet body; the fire-fighting device comprises a dry powder box fixedly arranged at the rear end of a power supply cabinet body, a plurality of spray pipes are arranged at the top end of the power supply cabinet body, and a spray head for spraying dry powder is fixedly arranged at the bottom end of each spray pipe; every spray tube top all is equipped with accomodates the frame, and a plurality of accomodates the frame and all fix and locate the inside top of power supply cabinet. According to the utility model, fire can be extinguished in time through the fire extinguishing device when a fire disaster occurs in the power supply cabinet body, and meanwhile, the spray head is stored when the fire extinguishing device is not used, so that the spray head is prevented from blocking an outlet by impurities in the air when the spray head is not used, and the fire extinguishing effect is prevented from being influenced.

Description

Intelligent power supply cabinet

Technical Field

The utility model relates to the technical field of power supply cabinets, in particular to an intelligent power supply cabinet.

Background

The power supply cabinet is mainly used for power supply operation, is generally a main power supply inlet wire and a power supply inlet wire main cabinet, can be arranged indoors or outdoors, and is provided with a fire extinguishing structure in order to prevent danger and loss caused by fire of the power supply cabinet.

For example, in an automatic fire-extinguishing power distribution cabinet of publication number CN206922240U, when the internal temperature of the power distribution cabinet rises rapidly to the set value of the temperature control switch when the internal temperature of the power distribution cabinet rises rapidly, a circuit forms a passage, the power is supplied to the air cylinder through the storage battery, the air cylinder starts to operate to press down the valve pressing handle, at this time, the valve is opened, carbon dioxide liquid stored in advance in the bottle is pressed out into the connecting pipe along the suction pipe, and finally is sprayed out from the spray head, and the carbon dioxide gas fills the power distribution cabinet rapidly, thereby playing a role of isolating air for fire extinguishment. The spray heads of the fire extinguishing structure in the prior art are exposed in the cabinet body when not in use, and impurities in the air are easy to block the spray heads, so that the fire extinguishing effect is affected.

Disclosure of Invention

In order to overcome the defects in the prior art, the intelligent power supply cabinet provided by the utility model can timely extinguish fire through the fire extinguishing device when a fire disaster occurs in the power supply cabinet body, and meanwhile, the spray heads are stored when the fire extinguishing device is not used, so that the spray heads are prevented from being blocked by impurities in the air when the spray heads are not used, and the fire extinguishing effect is prevented from being influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the intelligent power supply cabinet comprises a power supply cabinet body, wherein a control module is arranged in the power supply cabinet body, and the input end of the control module is connected with a temperature monitoring module for monitoring the temperature in the power supply cabinet body; the output end of the control module is connected with a fire-fighting device for extinguishing fire when a fire disaster occurs in the power supply cabinet body;

the fire-fighting device comprises a dry powder box fixedly arranged at the rear end of a power supply cabinet body, a plurality of spray pipes are arranged at the top end of the power supply cabinet body, and a spray head for spraying dry powder is fixedly arranged at the bottom end of each spray pipe; every spray tube top all is equipped with accomodates the frame, and a plurality of frames of accomodating are all fixed to be located the inside top of power supply cabinet body, and power supply cabinet body one side is fixed to be equipped with and is used for driving many spray tube pivoted actuating mechanism.

Preferably, one side of the power supply cabinet body far away from the driving mechanism is fixedly provided with a plurality of communicating pipes, the plurality of communicating pipes are respectively arranged at one end of the spray pipe far away from the driving mechanism, the communicating pipes are communicated with the spray pipe, and the spray pipe is rotationally connected with the communicating pipes through a sealing bearing.

Preferably, one end of the communicating pipes, which is far away from the spray pipe, is fixedly connected with a first connecting pipe, a second connecting pipe is fixedly communicated between the first connecting pipe and the top end of the dry powder box, the second connecting pipe is arranged on the outer side of the power supply cabinet body and is fixedly connected with the dry powder box, and a dry powder pump for conveying dry powder in the dry powder box into the second connecting pipe is arranged in the dry powder box.

Preferably, the driving mechanism comprises a driving motor arranged at one side of the power supply cabinet body far away from the first connecting pipe, and the output end of the driving motor is fixedly connected with one end of one spray pipe close to the driving mechanism;

one end of each spray pipe, which is close to the driving mechanism, penetrates through the power supply cabinet body and is fixedly provided with gears, and the spray pipes are rotatably connected with one side, which is close to the driving mechanism, of the power supply cabinet body, and the gears are sequentially meshed.

Preferably, a protective shell is fixed on one side of the power supply cabinet body, which is close to the driving mechanism, and a plurality of gears and a driving motor are arranged inside the protective shell.

Preferably, the rubber pad is fixedly arranged at the top end inside each storage frame.

Preferably, the control module comprises a controller, the temperature monitoring module comprises a temperature sensor, the temperature sensor is connected to the input end of the controller, and the dry powder pump and the driving motor are both connected to the output end of the controller.

Preferably, the input end of the control module is further provided with an energy collection module, the energy collection module comprises a solar battery pack, a wind generating set and a water turbine, the solar battery pack generates electricity by utilizing solar energy, the wind generating set generates electricity by utilizing wind energy, the water turbine generates electricity by utilizing water energy, and the energy collection module collects energy by solar energy, wind energy and water energy;

the output end of the controller is connected with an inverter, the output end of the inverter is connected with a storage battery, and electric energy of the solar battery pack, the wind generating set and the water turbine is stored in the storage battery after being converted by the inverter and used for supplying power.

Preferably, the output end of the controller is connected with a smart electric meter, and the smart electric meter is used for monitoring the power consumption.

Preferably, the input end of the control module is provided with a monitoring module, the monitoring module comprises a monitoring camera, the controller is connected with a control host of the monitoring station through a wireless network and used for remote monitoring, and the output end of the control host is provided with a display screen and used for displaying the current electric quantity and the running state of the equipment.

The utility model has the technical effects and advantages that:

1. when the fire extinguishing device is not used, the driving motor drives the spray pipe to rotate, so that the spray head on the spray pipe rotates to be vertical upwards, and at the moment, the spray head is stored in the frame to prevent the spray head from blocking an outlet by impurities in the air when the fire extinguishing device is not used, and the fire extinguishing effect is prevented from being influenced;

2. when a fire disaster occurs in the power supply cabinet body, the controller starts the driving motor to turn over the spray head, meanwhile, the dry powder pump starts to convey the dry powder in the dry powder box into the plurality of spray pipes, and then the dry powder is sprayed into the power supply cabinet body through the spray head to extinguish the fire in time, so that the safety is improved;

3. the solar energy, wind energy, water energy and the like are used for collecting and storing energy, so that the solar energy, wind energy, water energy and the like can supply power to equipment with requirements, and the solar energy, wind energy, water energy and the like are suitable for the field.

Drawings

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a block diagram of the present utility model;

FIG. 3 is a block diagram of the power supply cabinet and the fire extinguishing apparatus of the present utility model;

FIG. 4 is a rear view of FIG. 3;

FIG. 5 is a block diagram of the fire extinguishing apparatus of the present utility model;

FIG. 6 is a front view of the fire extinguishing apparatus of the present utility model;

FIG. 7 is a side view of the fire extinguishing apparatus of the present utility model;

fig. 8 is a schematic view of the nozzle rotated into the housing frame according to the present utility model.

The reference numerals are: 1, a power supply cabinet body;

2 a control module, 21 a controller;

3 a temperature monitoring module and a 31 temperature sensor;

4 a fire extinguishing device, 41 a dry powder box, 42 a spray pipe, 43 a spray head, 44 a storage frame, 45 a driving motor, 46 gears, 47 rubber pads, 48 communicating pipes, 49 first connecting pipes, 410 second connecting pipes, 411 a dry powder pump and 412 a protective shell;

5, controlling a host;

6 energy collection modules, 61 solar battery packs, 62 wind generating sets and 63 water turbines;

7 inverters, 8 storage batteries, 9 intelligent ammeter, 10 display screen, 11 monitoring module, 111 surveillance camera head.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to the accompanying drawings 1-2 of the specification, the utility model provides an intelligent power supply cabinet, which comprises a power supply cabinet body 1, wherein a control module 2 is arranged in the power supply cabinet body 1, the control module 2 comprises a controller 21, the input end of the control module 2 is connected with a temperature monitoring module 3, the temperature monitoring module 3 comprises a temperature sensor 31, the temperature sensor 31 is connected with the input end of the controller 21 and is used for monitoring the temperature in the power supply cabinet body 1, the output end of the control module 2 is connected with a fire extinguishing device 4, and when the temperature in the power supply cabinet body 1 is monitored to exceed a set value, the controller 21 starts the fire extinguishing device 4 to extinguish fire.

Specifically, as shown in fig. 2-5, the fire extinguishing device 4 includes a dry powder tank 41 fixedly disposed at the rear end of the power supply cabinet 1, a plurality of spray pipes 42 are disposed at the top end inside the power supply cabinet 1, spray heads 43 are fixedly disposed at the bottom end of each spray pipe 42, a plurality of communication pipes 48 are fixed at one side of the power supply cabinet 1 far away from the driving mechanism, the plurality of communication pipes 48 are respectively disposed at one end of the spray pipe 42 far away from the driving mechanism, the communication pipes 48 are communicated with the spray pipes 42, a first connecting pipe 49 is fixedly connected to one end of the plurality of communication pipes 48 far away from the spray pipes 42, a second connecting pipe 410 is fixedly connected between the first connecting pipe 49 and the top end of the dry powder tank 41, the second connecting pipe 410 is disposed at the outer side of the power supply cabinet 1 and fixedly connected with the dry powder tank 41, a dry powder pump 411 for conveying dry powder in the dry powder tank 41 into the second connecting pipe 410 is disposed in the dry powder tank 41, and the dry powder pump 411 is connected to the output end of the controller 21.

When a fire disaster occurs in the power supply cabinet 1, the controller 21 starts the dry powder pump 411 to convey the dry powder in the dry powder box 41 into the plurality of spray pipes 42 through the second connecting pipe 410, the first connecting pipe 49 and the connecting pipe 48, and then the dry powder is sprayed into the power supply cabinet 1 through the spray nozzle 43 to extinguish the fire in time, so that the safety is improved.

Next, as shown in fig. 2 and 4-7, a storage frame 44 is disposed at the top of each nozzle 42, the storage frames 44 are fixedly disposed at the top of the power supply cabinet 1, a rubber pad 47 is fixedly disposed at the top of the storage frames 44, a driving mechanism for driving the nozzles 42 to rotate is fixedly disposed at one side of the power supply cabinet 1, the driving mechanism comprises a driving motor 45 disposed at one side of the power supply cabinet 1, which is far away from the first connecting pipe 49, the driving motor 45 is connected to the output end of the controller 21, the output end of the driving motor 45 is fixedly connected with one end of one nozzle 42, which is close to the driving mechanism, of each nozzle 42, a gear 46 is fixedly disposed at one end, which is close to the driving mechanism, of each nozzle 42, which is rotatably connected with one side, which is close to the driving mechanism, of the nozzle 42 is rotatably connected with the communicating pipe 48 through a sealing bearing, so that the nozzles 42 are convenient to rotate.

When fire extinguishing device 4 does not put out a fire, driving motor 45 starts and drives a spray tube 42 rotation for gear 46 on this spray tube 42 rotates, thereby make a plurality of gears 46 that mesh in proper order all rotate, and then make a plurality of spray tubes 42 all rotate, make shower nozzle 43 rotate to vertical upwards, shower nozzle 43 accomodates frame 44 inside this moment, as shown in fig. 8, prevent shower nozzle 43 by the impurity in the air blocking up the export when not using, avoid influencing the fire extinguishing effect.

When the fire is required to be extinguished, the controller starts the driving motor 45 to turn over the spray head 43, so that the spray head 43 sprays dry powder for timely fire extinguishment.

As shown in fig. 4, a protective housing 412 is fixed on a side of the power supply cabinet 1 close to the driving mechanism, and a plurality of gears 46 and a driving motor 45 are all disposed inside the protective housing 412 for protecting the driving motor 45 and the gears 46.

As shown in fig. 1-2, the input end of the control module 2 is further provided with an energy collection module 6, and the energy collection module 6 includes a solar battery 61, a wind generating set 62 and a water turbine 63:

the solar battery 61 generates power by using solar energy, and the solar power generation is a power generation mode in which light energy is directly converted into electric energy;

the wind generating set 62 generates electricity by using wind energy, and when the wind blows to the blades of the wind generating set 62, aerodynamic force is generated on the blades to drive the wind wheel to rotate, so that kinetic energy of the wind is converted into electric energy;

the water turbine 63 generates electricity by utilizing water energy, and utilizes water with potential energy located at high positions such as rivers, lakes and the like to flow to low positions to convert the potential energy into the kinetic energy of the water turbine 63, and then the water turbine 63 is used as motive power to drive the generator to generate electric energy.

The output end of the controller 21 is connected with an inverter 7, the output end of the inverter 7 is connected with a storage battery 8, electric energy of the solar battery pack 61, the wind generating set 62 and the water turbine 63 is stored in the storage battery 8 after being converted by the inverter 7, and the energy collection module 6 collects energy through solar energy, wind energy, water energy and the like and stores the energy into the storage battery 8, so that the energy collection module can supply power to needed equipment and is suitable for the field.

The output of the controller 21 is connected with a smart meter 9, and the smart meter 9 is used for monitoring the power consumption.

In addition, in order to remotely monitor the power supply cabinet 1, a monitoring module 11 is provided at an input end of the control module 2, the monitoring module 11 includes a monitoring camera 111, and the controller 21 is connected with the control host 5 of the monitoring station through a wireless network. The output end of the control host 5 is provided with a display screen 10 for displaying the current electric quantity and the running state of the equipment.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims

1. The intelligent power supply cabinet comprises a power supply cabinet body (1), and is characterized in that: a control module (2) is arranged in the power supply cabinet body (1), and the input end of the control module (2) is connected with a temperature monitoring module (3) for monitoring the temperature in the power supply cabinet body (1);

the output end of the control module (2) is connected with a fire-fighting device (4) for extinguishing fire when a fire disaster occurs in the power supply cabinet body (1);

the fire-fighting device (4) comprises a dry powder box (41) fixedly arranged at the rear end of the power supply cabinet body (1), a plurality of spray pipes (42) are arranged at the top end inside the power supply cabinet body (1), and a spray head (43) for spraying dry powder is fixedly arranged at the bottom end of each spray pipe (42);

each spray pipe (42) top all is equipped with accomodates frame (44), and a plurality of accomodates frame (44) all are fixed to be located power supply cabinet body (1) inside top, and power supply cabinet body (1) one side is fixed to be equipped with and is used for driving many spray pipes (42) pivoted actuating mechanism.

2. The intelligent power cabinet of claim 1, wherein: one side of the power supply cabinet body (1) far away from the driving mechanism is fixedly provided with a plurality of communicating pipes (48), the plurality of communicating pipes (48) are respectively arranged at one end of the spray pipe (42) far away from the driving mechanism, the communicating pipes (48) are communicated with the spray pipe (42), and the spray pipe (42) is rotationally connected with the communicating pipes (48) through a sealing bearing.

3. The intelligent power cabinet of claim 2, wherein: one end fixedly connected with first connecting pipe (49) of spray tube (42) is kept away from to many communicating pipes (48), fixed intercommunication has second connecting pipe (410) between first connecting pipe (49) and dry powder case (41) top, second connecting pipe (410) are located power supply cabinet body (1) outside and with dry powder case (41) fixed connection, be equipped with in dry powder case (41) and be used for carrying dry powder in dry powder case (41) dry powder pump (411) of second connecting pipe (410).

4. An intelligent power cabinet according to claim 3, wherein: the driving mechanism comprises a driving motor (45) arranged at one side of the power supply cabinet body (1) far away from the first connecting pipe (49), and the output end of the driving motor (45) is fixedly connected with one end, close to the driving mechanism, of one spray pipe (42);

one end of each spray pipe (42) close to the driving mechanism penetrates through the power supply cabinet body (1) and is fixedly provided with a gear (46), one side of each spray pipe (42) close to the driving mechanism of the power supply cabinet body (1) is connected with the power supply cabinet body in a rotating mode, and the gears (46) are meshed in sequence.

5. The intelligent power cabinet of claim 4, wherein: a protective shell (412) is fixed on one side of the power supply cabinet body (1) close to the driving mechanism, and a plurality of gears (46) and a driving motor (45) are all arranged inside the protective shell (412).

6. The intelligent power cabinet of claim 1, wherein: a rubber pad (47) is fixedly arranged at the top end inside each containing frame (44).

7. The intelligent power cabinet of claim 4, wherein: the control module (2) comprises a controller (21), the temperature monitoring module (3) comprises a temperature sensor (31), the temperature sensor (31) is connected to the input end of the controller (21), and the dry powder pump (411) and the driving motor (45) are both connected to the output end of the controller (21).

8. The intelligent power cabinet of claim 7, wherein: the input end of the control module (2) is also provided with an energy collection module (6), the energy collection module (6) comprises a solar battery pack (61), a wind generating set (62) and a water turbine (63), the solar battery pack (61) generates electricity by utilizing solar energy, the wind generating set (62) generates electricity by utilizing wind energy, the water turbine (63) generates electricity by utilizing water energy, and the energy collection module (6) collects energy by utilizing solar energy, wind energy and water energy;

the output end of the controller (21) is connected with an inverter (7), the output end of the inverter (7) is connected with a storage battery (8), and electric energy of the solar battery pack (61), the wind generating set (62) and the water turbine (63) is stored in the storage battery (8) after being converted by the inverter (7) and used for power supply.

9. The intelligent power cabinet of claim 8, wherein: the output of controller (21) is connected with smart electric meter (9), smart electric meter (9) are used for monitoring the power consumption.

10. The intelligent power cabinet of claim 7, wherein: the intelligent monitoring system is characterized in that a monitoring module (11) is arranged at the input end of the control module (2), the monitoring module (11) comprises a monitoring camera (111), the controller (21) is connected with a control host (5) of the monitoring station through a wireless network and used for remote monitoring, and a display screen (10) is arranged at the output end of the control host (5) and used for displaying the current electric quantity and the running state of equipment.