CN210608695U - Integrated controller suitable for skynet monitoring - Google Patents

Abstract

The application discloses integrated control ware suitable for sky net control includes: the circuit breaker is used as a receiving end and receives commercial power input; the input end of the remote reclosing switch is connected with the circuit breaker, and the input end of the remote reclosing switch is connected with a plurality of circuit channels; the voltage acquisition device is connected with the output end of the circuit breaker; and the master control device receives the data of the voltage acquisition device and controls the remote reclosing in an inverse manner. The utility model discloses the beneficial effect who reaches: the remote reclosing system capable of realizing the independence of a plurality of output channels is provided.

Description

Integrated controller suitable for skynet monitoring

Technical Field

The utility model relates to a comprehensive control ware suitable for it net control.

Background

Along with the deep construction of the skynet engineering, tens of thousands of front-end monitoring points are built in each important city and countryside, and the dense monitoring points can effectively improve the case detection rate, reduce the rate of case occurrence and play a role in frightening criminal activities. Meanwhile, the maintenance workload of the equipment is correspondingly increased, and the current maintenance work mainly depends on regular manual inspection. The manual inspection cost is high, and the failure discovery is not timely, so that the video monitoring record is lost, and effective evidence support cannot be provided for emergency events. If the front-end equipment is provided with the corresponding monitoring integrated controller, the monitoring integrated controller can be combined with a centralized management software platform to monitor the running state of the front-end equipment in a centralized manner, process faults in time and solve the problem of monitoring video loss.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model provides a comprehensive controller suitable for it net control, include:

controlling the acquisition device and the master control device;

the control acquisition device is connected with the master control device in a bidirectional way, the input end of the control acquisition device is connected with commercial power, and the output end of the control acquisition device is provided with a plurality of interfaces; the control acquisition device feeds current data and voltage data back to the master control device; the master control device controls a plurality of output end interfaces in the control acquisition device;

wherein, the integrated controller further comprises:

the circuit breaker is used as a receiving end, receives commercial power input and is connected with a commercial power output port;

the input end of the remote reclosing switch is connected with the circuit breaker, and the output end of the remote reclosing switch is connected with the control acquisition device; the control acquisition device is provided with a plurality of independent circuit channels;

and the master control device controls the action of the remote reclosing switch reversely.

Further, each circuit channel includes:

the current acquisition module receives a remote reclosing instruction and acquires current data of an output end;

the electronic switch is connected with the current acquisition module;

and the channel outlet is connected with the electronic switch and serves as an output end.

Further, no more than 8 circuit channels are provided.

Further, a voltage acquisition module is arranged between the master control device and the output end of the circuit breaker.

Furthermore, an internal power supply module is arranged between the master control device and the output end of the circuit breaker, and the power is connected to the master control device from the output end of the circuit breaker.

Further, the general control device comprises:

the control module is used as a control center of the final assembly device;

and the communication module is used for interacting with the outside in an interface mode.

Further, the integrated controller suitable for skynet monitoring further comprises:

the shell is used as a shell of the integrated controller;

the first main control board is used as an integrated circuit board of the master control device;

the second main control board is used as an integrated circuit board for controlling the acquisition device;

the first main control board and the second main control board are stacked up and down in the shell.

Furthermore, the control module adopts a singlechip.

Further, the model STM32F103vct of singlechip.

Further, an interface of the communication module adopts a 485 communication interface.

Further, still include on the first main control board:

and the clock circuit and the temperature acquisition circuit are both independently connected with the control module.

The utility model discloses the beneficial effect who reaches: the remote reclosing system capable of realizing the independence of a plurality of output channels is provided.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of the present apparatus;

FIG. 2 is a perspective view of the interior of the housing of the present device;

fig. 3 is a schematic view of the housing of the device.

The meaning of the reference symbols in the figures:

1-network interface, 2-output channel, 3-PCB board, 4-input interface, 5-remote reclosing interface and 6-other interface.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, the embodiments described below are only some embodiments of the present invention, but 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.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

The application relates to a comprehensive controller suitable for sky net control, including controlling collection system and total controlling means, the casing is as comprehensive controller's shell, and built-in fan unit has, and its control circuit integration realizes the operation of fan in total controlling means through built-in temperature acquisition circuit.

The first main control board is used as an integrated circuit board of the master control device, the second main control board is used as an integrated circuit board for controlling the acquisition device, and the first main control board and the second main control board are vertically stacked in the shell.

The control acquisition device is connected with the master control device in a bidirectional way, the input end of the control acquisition device is connected with commercial power, and the output end of the control acquisition device is provided with a plurality of interfaces; the control acquisition device feeds current data and voltage data back to the master control device; the master control device controls and controls a plurality of output end interfaces in the acquisition device;

as shown in fig. 2, the control acquisition device includes:

the circuit breaker (model: NXB-63-C16) is used as a receiving end and receives the commercial power input;

the input end of a remote reclosing switch (model: NDB2-63/2P + C20+ TM2GQ/2P) is connected with a breaker, the output end of the remote reclosing switch is connected with a plurality of circuit channels, and each circuit channel directly and independently operates.

Each circuit path includes:

the current acquisition module receives a remote reclosing instruction and acquires current data of an output end;

the electronic switch (model: 9013) is connected with the current acquisition module;

and the channel outlet is connected with the electronic switch and serves as an output end.

The master control device controls the action of the remote reclosing switch reversely.

In this embodiment, there are 8 circuit channels. Be provided with the voltage acquisition module between the output of total controlling device and circuit breaker, simultaneously, be provided with inside power module between the output of total controlling device and circuit breaker, connect the electricity from the output of circuit breaker, supply power to total controlling device.

In the technical scheme, a fan and a door magnetic switch (type: KBM-131) can be arranged in the shell, wherein the fan is connected with the singlechip, and the work of the fan is controlled through a feedback result of the temperature acquisition circuit, so that the internal temperature is in a reasonable area. The door magnetic switch is arranged in the shell and used as an alarm unit for placing an external breaker

The integrated controller for monitoring the skynet can provide power supply interfaces for equipment such as an optical transceiver, a camera, a tripod head, a light supplementing lamp and a fan, and monitor the overall power supply voltage and current conditions and the working states of various electric equipment in real time.

The device can monitor the on-off state of the power input circuit breaker in real time, and can realize manual remote or automatic reclosing operation of the device after the circuit breaker trips abnormally, thereby reducing manual on-site closing work. Each output channel is independent, wherein the circuit channels in the embodiment are provided with 8 groups, and the remote independent operation of opening, closing and restarting of the output port of the controller can be realized.

The output end of the breaker is connected with the front end of the remote reclosing switch, and the rear end of the remote reclosing switch is connected with the L/N/PE end of the controller; the equipment supplies power from the front end of the remote reclosing lock, namely the output end of the breaker, the input is used as the basis of automatic reclosing and tripping of the remote reclosing lock, and when overvoltage or undervoltage is detected, the reclosing lock trips; when the voltage is normal, the voltage is automatically superposed. The process can reduce the work of manual on-site closing.

The controller access end L/N/PE and 8 output channels form a 1-in 8-out mode, and are remotely controlled (opened, closed and restarted) by an upper computer through the medium of a single chip microcomputer, and current and voltage data of each path are collected simultaneously.

In the controller, a time controller function is built in, more flexible time setting is realized, and a power supply control plan of each electric device can be set according to actual requirements.

When the voltage of the mains supply is too high, the mains supply automatically trips and uploads over-voltage alarm information; when the commercial power returns to normal, the upper computer can remotely restart the output port; when the mains supply is under-voltage, the alarm does not trip, and the alarm is uploaded to the alarm under-voltage.

The controller monitors the total current in real time, the rated current is 16A, and the single-path rated current is 5A. When the current is overloaded, uploading overload alarm information and tripping protection; when the current is underloaded, underloaded alarm information is uploaded and tripping protection is carried out.

As a specific embodiment, the controller can replace an original temperature controller to realize temperature control starting of the fan, and when the temperature in the box is too high, the fan is started to perform air cooling. And has the function of detecting the rotating speed, and once the rotating speed is found to be reduced to below 70 percent of the rated rotating speed, the controller can remotely set a temperature linkage value.

As a specific embodiment, the controller can be connected with the door magnetic detection module, so that the state of the box door can be detected, and the condition that the box net is abnormally pried open and the equipment in the box is stolen can be prevented. When the box door needs to be opened to carry out normal patrol and inspection work, the time-limited disarming state can be set remotely, and the arming state is automatically recovered after the time-limited time exceeds, and manual intervention is not needed.

The foregoing is only 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 technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims (10)

1. An integrated controller suitable for skynet monitoring, characterized by:

the integrated controller suitable for the skynet monitoring comprises:

controlling the acquisition device and the master control device;

the control acquisition device is connected with the master control device in a bidirectional way, the input end of the control acquisition device is connected with commercial power, and the output end of the control acquisition device is provided with a plurality of interfaces; the control acquisition device feeds current data and voltage data back to the master control device; the master control device controls a plurality of output end interfaces in the control acquisition device;

wherein, the integrated controller further comprises:

the circuit breaker is used as a receiving end, receives commercial power input and is connected with a commercial power output port;

the input end of the remote reclosing switch is connected with the circuit breaker, and the output end of the remote reclosing switch is connected with the control acquisition device; the control acquisition device is provided with a plurality of independent circuit channels;

and the master control device controls the action of the remote reclosing switch reversely.

2. The integrated controller suitable for skynet monitoring of claim 1, wherein:

each of the circuit channels includes:

the current acquisition module receives the command of the remote reclosing lock and acquires current data of an output end;

the electronic switch is connected with the current acquisition module;

and the channel outlet is connected with the electronic switch and serves as an output end.

3. The integrated controller suitable for skynet monitoring of claim 1, wherein:

the number of the circuit channels is not more than 8.

4. The integrated controller suitable for skynet monitoring of claim 1, wherein:

and a voltage acquisition module is arranged between the master control device and the output end of the circuit breaker.

5. The integrated controller suitable for skynet monitoring of claim 1, wherein:

an internal power supply module is arranged between the master control device and the output end of the circuit breaker, and the power supply module is connected with the power supply from the output end of the circuit breaker and supplies power to the master control device.

6. The integrated controller suitable for skynet monitoring of claim 1, wherein:

the master control device comprises:

the control module is used as a control center of the final assembly device;

and the communication module is used for interacting with the outside in an interface mode.

7. The integrated controller suitable for skynet monitoring of claim 1, wherein:

the integrated controller suitable for the skynet monitoring further comprises:

the shell is used as a shell of the integrated controller;

the first main control board is used as an integrated circuit board of the master control device;

the second main control board is used as an integrated circuit board for controlling the acquisition device;

the first main control board and the second main control board are stacked up and down in the shell.

8. The integrated controller suitable for skynet monitoring of claim 6, wherein:

the control module adopts a singlechip.

9. The integrated controller suitable for skynet monitoring of claim 6, wherein:

and the interface of the communication module adopts a 485 communication interface.

10. The integrated controller suitable for skynet monitoring of claim 1, wherein:

still include on the first main control board:

and the clock circuit and the temperature acquisition circuit are both independently connected with the control module.

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