CN116436955A - Multi-path intelligent control equipment, intelligent control box and control method of multi-path intelligent control equipment - Google Patents

Abstract

The embodiment of the application relates to the technical field of Internet of things and discloses a multi-path intelligent control device, an intelligent control box and a control method of the multi-path intelligent control device. The multi-channel intelligent control device comprises a first input interface, a first output interface and a networking module; the first input interface and the first output interface are connected with the equipment to be tested, and the first output interfaces are several; the multi-channel intelligent control device is used for collecting operation data of the device to be tested through the first input interface, and sending the operation data of the device to be tested to the remote platform through the networking module, so that the remote platform can generate and send a first control signal to the multi-channel intelligent control device according to the operation data; the multi-channel intelligent control device is also used for receiving the first control signal through the networking module and sending the first control signal to the device to be tested through the first output interface. The multichannel intelligent control equipment of this application embodiment can gather multichannel equipment information simultaneously to realize the centralized management and control to different equipment, easy and simple to handle and the cost is lower.

Description

Multi-path intelligent control equipment, intelligent control box and control method of multi-path intelligent control equipment

Technical Field

The embodiment of the application relates to the technical field of the Internet of things, in particular to a multi-path intelligent control device, an intelligent control box and a control method of the multi-path intelligent control device.

Background

Along with the continuous development of the internet of things technology, the intelligent control box gradually plays an important role in the construction of smart cities. The intelligent control box is widely applied to security monitoring, intelligent home, industrial production, scientific experiments, traffic guidance and other application scenes, and can acquire operation data and state information of external equipment through an interface equipped by the intelligent control box so as to realize control and operation maintenance of the external equipment.

However, the inventor of the present application found that, in actual use, the intelligent control box often needs to connect several, even tens, of different devices, but for these different devices, the intelligent control box needs to provide interfaces matched with the different devices respectively to collect the operation data and the state information, if the device which is not matched with the existing interface of the intelligent control box needs to be accessed, a new interface matched with the new access device needs to be added to the intelligent control box, or a new intelligent control box with an interface matched with the device needs to be replaced, which is inconvenient to operate and has high cost.

Disclosure of Invention

An object of the embodiment of the application is to provide a multichannel intelligent control device, an intelligent control box and a control method of the multichannel intelligent control device, which can collect information of the multichannel device at the same time so as to realize centralized control of different devices, and the method is simple and convenient to operate and has lower cost.

In order to solve the technical problems, embodiments of the present application provide a multi-path intelligent control device, where the multi-path intelligent control device includes a first input interface, a first output interface, and a networking module; the first input interface and the first output interface are both connected with equipment to be tested, and the first output interfaces are a plurality of; the multi-channel intelligent control device is used for collecting the operation data of the device to be tested through the first input interface, and sending the operation data of the device to be tested to a remote platform through the networking module, so that the remote platform can generate and send a first control signal to the multi-channel intelligent control device according to the operation data; the multi-channel intelligent control device is further used for receiving the first control signal through the networking module and sending the first control signal to the device to be tested through the first output interface.

For solving the technical problem, the embodiment of the application also provides an intelligent control box, which comprises a box body and the multi-path intelligent control equipment.

In order to solve the technical problem, the embodiment of the application also provides a control method of the multi-path intelligent control device, which is applied to the multi-path intelligent control device and comprises the following steps: acquiring operation data of equipment to be detected through a first input interface, and sending the operation data of the equipment to be detected to a remote platform, so that the remote platform can generate and send a first control signal to the multi-channel intelligent control equipment according to the operation data; receiving the first control signal and sending the first control signal to the equipment to be tested through the first output interface; the first input interface and the first output interface are both connected with the device to be tested, and the first output interface is provided with a plurality of first output interfaces.

In the embodiment of the application, multichannel intelligent control equipment includes first input interface, first output interface and networking module, first input interface and first output interface all are connected with equipment that awaits measuring, and first output interface has a plurality of, consequently, multichannel intelligent control equipment can gather the operation data of a plurality of different equipment that awaits measuring simultaneously through first input interface, and send the operation data of each equipment that awaits measuring to remote platform through networking module, make remote platform can carry out the analysis to the operation data, monitor the running condition of each equipment that awaits measuring through the operation data, in order to generate and send first control signal to multichannel intelligent control equipment, and multichannel intelligent control equipment can receive first control signal, and send first control signal to each equipment that awaits measuring through first output interface, realize the control of remote platform to each equipment that awaits measuring. Therefore, the first input interface of the multi-channel intelligent control device can collect the operation data of the multi-channel intelligent control device at the same time so as to realize the remote control of the multi-channel intelligent control device, different types of interfaces are not required to be adopted for different devices, and an intelligent control box is not required to be specially configured for controlling one device, so that the operation is simple and convenient, and the cost is low.

In addition, the number of the first output interfaces is the same as that of the devices to be tested, and one first output interface is connected with one device to be tested. In the application, if the multi-path intelligent control device is simultaneously connected with a plurality of devices to be tested, each device to be tested can be independently controlled, so that the high-efficiency control of the devices to be tested is realized.

In addition, the first input interface is an analog input interface, the first input interface is specifically connected with a sensor, the sensor is connected with the equipment to be tested, and the sensor is a sensor corresponding to the type of the operation data; the sensor is used for collecting the operation data of the device to be tested and sending the operation data to the multi-path intelligent control device through the first input interface. The method and the device can send the specific operation data of the equipment to be tested to the multi-path intelligent control equipment through the sensor through the analog input interface so as to take specific control on the equipment to be tested.

In addition, the first input interface is an RS485 interface. The method and the device can collect the operation data of the device to be tested through the RS485 interface, and additional hardware is not required to be added, so that the cost is reduced.

In addition, the number of the RS485 interfaces is the same as that of the devices to be tested, and one RS485 interface is connected with one device to be tested. According to the method, the operation data of the equipment to be tested of the multipath equipment can be collected simultaneously by adding the RS485 interfaces with the corresponding quantity, and the operation is easy.

In addition, the intelligent control equipment further comprises a second input interface and a second output interface, wherein the second input interface and the second output interface are both connected with the box body of the intelligent control box; the multi-path intelligent control device is further used for collecting state information of the intelligent control box through the second input interface, sending the state information of the intelligent control box to the remote platform through the networking module, and generating and sending a second control signal to the multi-path intelligent control device by the remote platform according to the state information; the multi-path intelligent control device is further used for receiving the second control signal through the networking module and sending the second control signal to the intelligent control box through the second output interface. The state information of the intelligent control box body can be acquired through the second input interface, so that remote control of the intelligent control box body is realized.

In addition, the multichannel intelligent control equipment set up in the inside of the box of intelligent control case. The utility model discloses a can set up multichannel intelligent control equipment in the inside of intelligent control box, the application of being convenient for.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

Fig. 1 is a schematic structural diagram of a multi-channel intelligent control device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a multi-channel intelligent control device according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a smart box according to one embodiment of the present invention;

FIG. 4 is a flowchart showing a control method of a multi-path intelligent control device according to an embodiment of the present invention;

fig. 5 is a specific flowchart second of a control method of a multi-path intelligent control device according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the embodiments of the present application will be described in detail below with reference to the accompanying drawings. However, as will be appreciated by those of ordinary skill in the art, in the various embodiments of the present application, numerous technical details have been set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments. The following embodiments are divided for convenience of description, and should not be construed as limiting the specific implementation of the present application, and the embodiments may be mutually combined and referred to without contradiction.

One embodiment of the present application relates to a multi-way intelligent control device, specifically comprising: the system comprises a first input interface, a first output interface and a networking module; the first input interface and the first output interface are connected with the equipment to be tested, and the first output interfaces are several; the multi-channel intelligent control device is used for collecting operation data of the device to be tested through the first input interface, and sending the operation data of the device to be tested to the remote platform through the networking module, so that the remote platform can generate and send a first control signal to the multi-channel intelligent control device according to the operation data; the multi-channel intelligent control device is also used for receiving the first control signal through the networking module and sending the first control signal to the device to be tested through the first output interface. The multichannel intelligent control equipment of this application embodiment can gather multichannel equipment information simultaneously to realize the centralized management and control to different equipment, easy and simple to handle and the cost is lower.

The implementation details of the multi-channel intelligent control device of the present embodiment are specifically described below, and the following details are provided only for facilitating understanding, and are not necessary for implementing the present embodiment.

Referring to fig. 1, a schematic structural diagram of a multi-path intelligent control device in this embodiment specifically includes: a first input interface 10, a first output interface 11 and a networking module 12. The first input interface 10 and the first output interface 11 are both connected to the device under test, and the first input interface 10 and the first output interface 11 are both provided with a plurality of interfaces (only one input interface 10 and one first output interface 11 are shown in the figure). Because the first output interfaces 11 are all provided with a plurality of first output interfaces, a plurality of intelligent control devices can be connected with a plurality of devices to be tested at the same time, and the devices to be tested can be specifically devices controlled by the intelligent control box in life, such as road camera devices, street lamps, landscape lighting devices and the like.

In a specific implementation, since the first input interface 10 of the multi-path intelligent control device is connected with the device to be tested, the multi-path intelligent control device can collect the operation data of the device to be tested through the first input interface 10, and send the operation data of the device to be tested to the remote platform through the networking module 12, so that the remote platform can generate and send the first control signal to the multi-path intelligent control device according to the operation data. Meanwhile, the multi-path intelligent control device is further used for receiving the first control signal through the networking module 12, and because the first output interface 11 of the multi-path intelligent control device is connected with the device to be tested, the multi-path intelligent control device is further used for sending the received first control signal to the device to be tested through the first output interface 11.

In one example, the number of the first output interfaces 11 is the same as the number of the devices to be tested, and one first output interface 11 is connected with one device to be tested, that is, the multi-path intelligent control device outputs the first control signals to different devices to be tested through different first output interfaces 11, so as to realize the remote centralized control of the remote platform on different devices to be tested. In addition, in the application, if the multi-path intelligent control device is connected with a plurality of devices to be tested at the same time, each device to be tested can be independently controlled, so that the high-efficiency control of the devices to be tested is realized. The first output interface 11 may be a relay output interface, where the relay output interface supports normally open and normally closed, inching pulse, and sequential actions.

In one example, the networking module 12 may be a communication module in the multi-path intelligent control device for communicating with the remote platform, and may interact with the remote platform to send the collected operation data of the device to be tested to the remote platform, and receive the first control signal sent by the remote platform. For example, if the voltage of the device to be tested is unstable, so that the device is blocked and has no signal transmission, the remote platform can restart the power-off device to restore the operation of the device, and operation and maintenance manpower and cost are saved. The networking module 12 may communicate with the remote platform through various types of networks, such as wireless communication through a 4G network, while the networking module 12 supports iterative upgrade of 5G digital communication based on existing wireless communication transmissions to enable 5G communication with the remote platform. Therefore, the multipath intelligent control device can realize millisecond transmission delay and has the advantages of high speed and low power consumption.

It may be understood that the remote platform may be an AEB terminal, or a mobile APP, or an applet, or a cloud platform, which generates and sends the first control signal to the multi-path intelligent control device according to the operation data of the device to be tested, which is not limited in this embodiment.

In one example, the power supply of the multi-channel intelligent control device of the present embodiment adopts a dual power supply mode.

In this embodiment, the multichannel intelligent control device includes first input interface, first output interface and networking module, first input interface and first output interface all are connected with the equipment that awaits measuring, and first output interface has a plurality of, therefore, multichannel intelligent control device can gather the operation data of a plurality of different equipment that awaits measuring through first input interface simultaneously, and send the operation data of each equipment that awaits measuring to remote platform through networking module, make remote platform can carry out the analysis to the operation data, monitor the running condition of each equipment that awaits measuring through the operation data, in order to generate and send first control signal to multichannel intelligent control device, and multichannel intelligent control device can receive first control signal, and send first control signal to each equipment that awaits measuring through first output interface, realize the control of remote platform to each equipment that awaits measuring. Therefore, the first input interface of the multi-channel intelligent control device can collect the operation data of the multi-channel intelligent control device at the same time so as to realize the remote control of the multi-channel intelligent control device, different types of interfaces are not required to be adopted for different devices, and an intelligent control box is not required to be specially configured for controlling one device, so that the operation is simple and convenient, and the cost is low.

In addition, through remote control to the equipment to be tested, whether the equipment to be tested breaks down or not can be analyzed in time and the equipment is dispatched to operation and maintenance personnel, so that the after-sale cost of the equipment is greatly reduced, and meanwhile, the available realization degree of the functions and the application of the equipment is improved.

In one embodiment, the first input interface 10 is an analog input interface, and the first input interface 10 is specifically connected to a sensor, where the sensor is connected to a device under test, and the sensor is a sensor corresponding to a type of operation data. Specifically, the sensor is configured to collect operation data of the device under test, and send the operation data to the multi-path intelligent control device through the first input interface 10, that is, the analog input interface, where after the multi-path intelligent control device receives the operation data of the device under test, the multi-path intelligent control device sends the operation data to the remote platform through the networking module 12, so that the remote platform generates and sends a first control signal to the multi-path intelligent control device according to the operation data.

Therefore, in this embodiment, only the sensor may collect the specific type of operation data of the device under test, so that the remote platform may take specific control over the device under test according to the specific type of operation data. For example, the sensor is a current coil, and a current signal of the device to be tested is adopted through the current coil, so that the remote platform remotely controls the current of the device to be tested by sending a first control signal; or the sensor is a voltage coil, and the voltage signal of the equipment to be tested is adopted through the voltage coil, so that the remote platform remotely controls the voltage of the equipment to be tested by sending the first control signal.

It may be understood that in this embodiment, an analog input interface may be further added to connect multiple sensors, where different sensors collect different operation data of the device to be tested, for example, the multi-path intelligent control device includes two analog input interfaces, where one analog input interface is connected to a current coil, and another analog input interface is connected to a voltage coil, where the current coil and the voltage coil are respectively connected to the device to be tested, so as to collect current signals and voltage signals of the device to be tested, and send the collected signals to the multi-path intelligent control device through corresponding analog input interfaces.

In one embodiment, the first input interface 10 is an RS485 interface. The multichannel intelligent control equipment can directly acquire operation data through the RS485 interface without additional hardware equipment such as sensor equipment, thereby reducing hardware cost.

In one example, the number of RS485 interfaces is the same as the number of devices under test, and one RS485 interface is connected to one device under test. Therefore, if a plurality of devices to be tested are needed to collect the operation data of multiple paths of devices at the same time, the number of the RS485 interfaces is correspondingly increased only according to the number of the devices to be tested, and the multiple paths of intelligent control devices collect the operation data of different devices to be tested through different RS485 interfaces.

In one embodiment, the multiple intelligent control devices may be disposed within the interior of the enclosure of the intelligent control box. Referring to fig. 2, a schematic structural diagram of a multi-path intelligent control device of the present embodiment specifically includes: a second input interface 13 and a second output interface 14. Wherein, the second input interface 13 and the second output interface 14 are both connected with the box body of the intelligent control box.

In a specific implementation, since the second input interfaces 13 of the multi-path intelligent control device are connected with the box body of the intelligent control box, the multi-path intelligent control device can collect the state information of the intelligent control box through the second input interfaces 13 and send the state information of the intelligent control box to the remote platform through the networking module 12, so that the remote platform can generate and send the second control signal to the multi-path intelligent control device according to the state information. Meanwhile, the multi-path intelligent control device is further used for receiving a second control signal through the networking module 12 and sending the second control signal to the intelligent control box through the second output interface 14. The second input interface 13 is a switching value input interface, supports connection of a dry contact, a wet contact, and a Plug-and-Play (PNP) node, and the second output interface 14 may be a relay output interface.

In one example, a limiter is further disposed in the box body of the intelligent control box, and the second input interface 13 is connected to the limiter to collect state information of the intelligent control box.

In this embodiment, the intelligent control box is affected by the outside, and the door may be in an open state and not be closed correctly, or the intelligent control box is inclined, so that the multi-channel intelligent control device collects the current state information of the intelligent control box through the second input interface and sends the current state information to the remote platform, the remote platform can confirm whether the current state of the intelligent control box is normal, and if not, the intelligent control box can adjust the state of the intelligent control box by generating and sending a second control signal to the multi-channel intelligent control device. And the multipath intelligent control equipment is arranged in the box body of the intelligent control box, so that the intelligent control box is convenient to apply.

In one embodiment, the multi-channel intelligent control device can be used in smart city construction, for example, applied to a monitoring intelligent box, and is used for realizing power supply health monitoring of a camera, remote reading of voltage data, remote alarming of video abnormal conditions and the like by remotely controlling the monitoring camera; or, the street lamp, the LED lamp plate, the landscape lighting, the lighting of the electronic plate of the bus station and the like are simultaneously and intensively controlled through the multi-path intelligent control equipment.

It should be noted that, each example in the foregoing embodiments is an illustration for easy understanding and is not limited to the technical solution of the present invention.

Another embodiment of the present application relates to a smart control box, and a schematic structural diagram of the smart control box of the present embodiment is shown in fig. 3, and specifically includes: a box 301 and a multi-way intelligent control device 302. The multi-path intelligent control device 302 is any one of the multi-path intelligent control devices described in the above embodiments.

It is to be appreciated that this embodiment is a smart box embodiment corresponding to the multi-channel smart device embodiment described above, and that this embodiment may be implemented in conjunction with the multi-channel smart device embodiment described above. The related technical details mentioned in the above multi-path intelligent control device embodiment are still valid in this embodiment, and in order to reduce repetition, details are not repeated here. Accordingly, the related technical details mentioned in the present embodiment may also be applied to the above-described multi-channel intelligent control device embodiment.

Another embodiment of the present application relates to a control method of a multi-path intelligent control device, which is applied to the multi-path intelligent control device, where the multi-path intelligent control device is a multi-path intelligent control device according to any one of the foregoing embodiments. The implementation details of the control method of the multi-channel intelligent control device of the present embodiment are specifically described below, and the following details are provided only for facilitating understanding, and are not necessary for implementing the present embodiment.

Referring to fig. 4, a flowchart of a specific implementation of a control method of the multi-path intelligent control device in this embodiment includes:

step 401, collecting operation data of a device to be tested through a first input interface, and sending the operation data of the device to be tested to a remote platform, so that the remote platform can generate and send a first control signal to a multi-channel intelligent control device according to the operation data.

Step 402, receiving a first control signal, and sending the first control signal to a device under test through a first output interface.

The first input interface and the first output interface are both connected with the device to be tested, and the first output interface is provided with a plurality of first output interfaces.

In one embodiment, referring to fig. 5, a flowchart for specifically implementing a control method of a multi-path intelligent control device includes:

step 501, collecting state information of the intelligent control box through a second input interface, and sending the state information of the intelligent control box to a remote platform for the remote platform to generate and send a second control signal to the multi-path intelligent control device according to the state information.

Step 502, receiving the second control signal, and sending the second control signal to the intelligent control box through the second output interface.

Wherein, the second input interface and the second output interface are both connected with the intelligent control box;

the above steps of the methods are divided, for clarity of description, and may be combined into one step or split into multiple steps when implemented, so long as they include the same logic relationship, and they are all within the protection scope of this patent; it is within the scope of this patent to add insignificant modifications to the algorithm or flow or introduce insignificant designs, but not to alter the core design of its algorithm and flow.

It is to be appreciated that this embodiment is a method embodiment corresponding to the multi-channel smart device embodiment described above, and that this embodiment may be implemented in conjunction with the multi-channel smart device embodiment. The related technical details mentioned in the multi-path intelligent control device embodiment are still valid in this embodiment, and in order to reduce repetition, they are not described here again. Accordingly, the related technical details mentioned in the present embodiment may also be applied to the multi-channel intelligent control device embodiment.

The embodiments described hereinabove are intended to provide those of ordinary skill in the art with a variety of modifications and variations to the embodiments described above without departing from the inventive concepts of the present application, and thus the scope of the invention is not limited by the embodiments described hereinabove, but is to be accorded the broadest scope of the innovative features recited in the claims.

Claims (10)

1. The multi-channel intelligent control device is characterized by comprising a first input interface, a first output interface and a networking module; the first input interface and the first output interface are both connected with equipment to be tested, and the first output interfaces are a plurality of;

the multi-channel intelligent control device is used for collecting the operation data of the device to be tested through the first input interface, and sending the operation data of the device to be tested to a remote platform through the networking module, so that the remote platform can generate and send a first control signal to the multi-channel intelligent control device according to the operation data;

the multi-channel intelligent control device is further used for receiving the first control signal through the networking module and sending the first control signal to the device to be tested through the first output interface.

2. The multi-way intelligent control device of claim 1, wherein the number of first output interfaces is the same as the number of devices under test, one first output interface being connected to one device under test.

3. The multi-path intelligent control device according to claim 2, wherein the first input interface is an analog input interface, the first input interface is specifically connected with a sensor, the sensor is connected with the device to be tested, and the sensor is a sensor corresponding to the type of the operation data;

the sensor is used for collecting the operation data of the device to be tested and sending the operation data to the multi-path intelligent control device through the first input interface.

4. The multi-way intelligent control device of claim 2, wherein the first input interface is an RS485 interface.

5. The multi-way intelligent control device according to claim 4, wherein the number of the RS485 interfaces is the same as the number of the devices to be tested, and one RS485 interface is connected to one device to be tested.

6. The multi-way intelligent control device of claim 1, further comprising a second input interface and a second output interface, wherein the second input interface and the second output interface are both connected with a box body of an intelligent control box;

the multi-path intelligent control device is further used for collecting state information of the intelligent control box through the second input interface, sending the state information of the intelligent control box to the remote platform through the networking module, and generating and sending a second control signal to the multi-path intelligent control device by the remote platform according to the state information;

the multi-path intelligent control device is further used for receiving the second control signal through the networking module and sending the second control signal to the intelligent control box through the second output interface.

7. The multi-path smart control device of any one of claims 1 to 6, wherein the multi-path smart control device is disposed inside a housing of the smart control box.

8. A smart box comprising a box body and a plurality of smart devices as claimed in any one of claims 1 to 7.

9. A control method of a multi-path smart control apparatus, characterized by being applied to the multi-path smart control apparatus as claimed in any one of claims 1 to 7, the method comprising:

acquiring operation data of equipment to be detected through a first input interface, and sending the operation data of the equipment to be detected to a remote platform, so that the remote platform can generate and send a first control signal to the multi-channel intelligent control equipment according to the operation data;

receiving the first control signal and sending the first control signal to the equipment to be tested through the first output interface; the first input interface and the first output interface are both connected with the device to be tested, and the first output interface is provided with a plurality of first output interfaces.

10. The control method according to claim 9, characterized in that the method further comprises:

acquiring state information of the intelligent control box through a second input interface, and sending the state information of the intelligent control box to the remote platform for the remote platform to generate and send a second control signal to the multi-path intelligent control equipment according to the state information;

receiving the second control signal and sending the second control signal to the intelligent control box through a second output interface; the second input interface and the second output interface are both connected with the intelligent control box.

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