CN218273130U - Monitoring device of industrial equipment - Google Patents

Abstract

A monitoring device of industrial equipment belongs to the technical field of industry, and comprises: the socket assembly is provided with a power output interface which supplies power to the industrial equipment when being connected with the industrial equipment; the socket assembly is also provided with a position sensor arranged at the corresponding position of the power output interface, and the position sensor is connected with the control assembly; the control assembly detects the connection state between the industrial equipment and the power output interface through the position sensor and sends state information to the terminal equipment. The control assembly can detect the connection state between the industrial equipment and the socket assembly, and a user can acquire corresponding state information from the control assembly through the terminal equipment, so that the user can conveniently monitor the connection state between the industrial equipment and the socket assembly.

Description

Monitoring device of industrial equipment

Technical Field

The application belongs to the technical field of industry, especially relates to a monitoring device of industrial equipment.

Background

Most industrial equipment has a power input connector that is connected to a power output interface in a receptacle from which the industrial equipment can draw power.

At present, a mechanical power switch is not arranged in part of industrial equipment, when a power input connector of the industrial equipment is in a connection state with a power output interface in a socket, even if the industrial equipment stops running, the industrial equipment is not completely powered off, certain power consumption can be generated, and when the industrial equipment is aged or the environmental temperature is higher, certain heat can be generated, so that certain potential safety hazards exist. Therefore, the user needs to know the connection state between the industrial equipment and the socket in time so as to perform further processing according to the requirement, avoid unnecessary power consumption and eliminate potential safety hazards.

Because the socket and the industrial equipment belong to two different devices, and the connection between the power input connector and the power output interface is mechanical connection, there is no effective method in the prior art for monitoring the connection state between the industrial equipment and the socket.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a monitoring device of industrial equipment, aim at solving the problem that can't monitor the connection state between industrial equipment and the socket.

The embodiment of the application provides a monitoring device of industrial equipment, includes: a control assembly and a socket assembly;

the socket assembly is provided with a power output interface, and when the power output interface is connected with industrial equipment, the power output interface supplies power to the industrial equipment;

the socket assembly is also provided with a position sensor arranged at a corresponding position of the power output interface, and the position sensor is connected with the control assembly;

and the control component detects the connection state between the industrial equipment and the power output interface through the position sensor and sends the state information to the terminal equipment.

Compared with the prior art, the embodiment of the utility model beneficial effect who exists is: the monitoring device of the industrial equipment comprises a control component and a socket component, wherein the socket component is provided with a power output interface which supplies power to the industrial equipment when being connected with the industrial equipment; the socket assembly is also provided with a position sensor arranged at the corresponding position of the power output interface, and the position sensor is connected with the control assembly; the control assembly detects the connection state between the industrial equipment and the power output interface through the position sensor and sends state information to the terminal equipment. The control assembly can detect the connection state between the industrial equipment and the socket assembly, and a user can acquire corresponding state information from the control assembly through the terminal equipment, so that the user can conveniently monitor the connection state between the industrial equipment and the socket assembly.

Drawings

Fig. 1 is a schematic structural diagram of a monitoring device for industrial equipment according to an embodiment of the present disclosure;

FIG. 2 illustrates a cross-sectional view of a receptacle assembly provided by an embodiment of the present application;

fig. 3 shows a schematic usage diagram of a monitoring device of an industrial device according to an embodiment of the present application.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship illustrated in the drawings for convenience in describing the present application and to simplify description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "plurality" means two or more unless specifically limited otherwise

Fig. 1 is a schematic structural diagram of a monitoring apparatus of an industrial device according to an embodiment of the present disclosure, where the monitoring apparatus of the industrial device includes a control component and a socket component.

The socket assembly is provided with a power output interface, and the power output interface supplies power to the industrial equipment when being connected with the industrial equipment; the socket assembly is also provided with a position sensor arranged at the corresponding position of the power output interface, and the position sensor is connected with the control assembly; the control assembly detects the connection state between the industrial equipment and the power output interface through the position sensor and sends state information to the terminal equipment.

In this embodiment, the monitoring device of the industrial device includes one or more socket assemblies, the socket assemblies supply power to the connected industrial device through the power output interface, and the control assembly detects the connection state between the power output interface and the industrial device through the position sensor and sends corresponding state information to the terminal device of the user, so that the user can monitor the connection state between the industrial device and the socket through the state information in the terminal device.

Illustratively, the receptacle assembly has a power input connector, such as a plug, that receives power from the receptacle when inserted into a receptacle of the receptacle. Alternatively, the power input connector of the receptacle assembly may be a wire that, when connected to a power terminal of the power supply device, may draw power from the power supply device. In the socket assembly shown in fig. 1, the socket assembly 101 may include a housing, and two insertion holes 1011 are disposed on the housing, the two insertion holes constitute a power output interface of the socket assembly, and the power input interface of the socket assembly is connected to the power output interface and can supply power to the power output interface. Conductors are provided inside the jacks and connect to power input connections in the receptacle assembly 101. The power input connector of the industrial equipment is a plug matched with the jack, and when the plug is inserted into the jack, the industrial equipment can obtain power from the socket assembly. The socket assembly may include one or more power output interfaces, which may also be other types of interfaces, such as a Universal Serial Bus (USB) interface, and a power input connector of the industrial device, such as a USB connector that mates with the USB interface. The specific type of the power output interface may be set according to requirements, which is not limited in this embodiment.

In this embodiment, the socket assembly includes a position sensor corresponding to the power output interface, and the position sensor may be disposed at a corresponding position of the power output interface to detect whether the power output interface is connected to the power input connector of the industrial device. Fig. 2 isbase:Sub>A cross-sectional view ofbase:Sub>A jack assembly provided by an embodiment of the present application, fig. 2 isbase:Sub>A cross-sectional view of the jack assembly 101 inbase:Sub>A directionbase:Sub>A-base:Sub>A in fig. 1,base:Sub>A position sensor is composed ofbase:Sub>A pressing rod 1012,base:Sub>A spring 1013, andbase:Sub>A trigger 1014, the trigger is disposed inbase:Sub>A housing of the jack assembly 101 and is located at the bottom of the housing, one end of the pressing rod 1012 is located in the housing, and the other end of the pressing rod 1012 extends out of the housing and is located between two jacks; a spring 1013 is disposed between the strut 1012 and the trigger 1014, one end of the spring 1013 being connected to the trigger 1014 and the other end being connected to the end of the strut 1012 within the housing. The trigger 1014 is connected with the control component, when the plug of the industrial equipment is input into the jack, the plug presses the pressure rod 1012 to the inside of the shell, and the spring 1013 is pressed by the pressure rod 1012 to apply certain pressure to the trigger 1014, so that the trigger 1014 can output a first trigger signal to the control component; when the plug is pulled out of the jack, the pressure applied to the strut 1012 disappears, and the spring 1013 exerts no pressure on the trigger 1014, so that the trigger 1014 can output a second trigger signal to the control component. Correspondingly, when receiving the first trigger signal, the control component 102 determines that the industrial device and the power output interface are in a connected state, and when receiving the second trigger signal, the control component 102 determines that the industrial device and the power output interface are in a disconnected state. Wherein, position sensor also can be other types of position sensor, for example travel switch, proximity switch and infrared sensor, and position sensor's specific type can set up according to the demand, and when position sensor was travel switch, travel switch can set up in the jack, and when position sensor proximity switch, proximity switch can set up in the position that housing face and power input interface are adjacent. The position of the position sensor in the socket assembly can be specifically determined according to the type of the position sensor, and only the connection state between the industrial equipment and the power output interface can be detected.

Illustratively, the control component may include a controller such as a single chip microcomputer, and peripheral circuits such as a power supply circuit, a clock circuit, a reset circuit, and the like of the single chip microcomputer. The control component may further include a communication unit, such as a Wireless Fidelity (WIFI) unit and a bluetooth unit, and the control component may connect to a network device (such as a router or a gateway) through the communication unit, connect to the internet through the network device, establish a communication connection with a terminal device used by a user through the internet, and send status information to the terminal device. As shown in fig. 1, the control assembly 102 and the receptacle assembly 101 are mechanically separated and are two separate modules from the receptacle assembly 101. When the control assembly is an independent module, the control assembly may include a housing, and the controller, the power supply circuit, the clock circuit, the reset circuit, the communication unit, and the like in the control assembly may be disposed in the housing. Alternatively, the control assembly may be disposed within the housing of the receptacle assembly. As shown in fig. 1, the controller in the control assembly 102 and the position sensor in the receptacle assembly may be communicatively coupled via a communication cable 1015. Alternatively, the controller in the control assembly and the position sensor in the receptacle assembly may be communicatively coupled by wireless communication.

Fig. 3 is a schematic usage diagram of a monitoring apparatus for industrial equipment according to an embodiment of the present disclosure, where the control component 102 may be connected to an internet of things platform 401, and is communicatively connected to the terminal device 501 through the internet of things platform 401. The control component 102 may send the status information to the internet of things platform 401, and the user may log in the internet of things platform 401 using a terminal device 501 such as a mobile phone, a tablet, a computer, or the like, and obtain the status information from the internet of things platform 401. In conjunction with the above example, the control component 102 may obtain the first trigger signal from the position sensor when the power input connector 302 of the industrial device 301 is plugged into the power output interface 1011 of the socket assembly 101, and the control component 102 may obtain the second trigger signal from the position sensor when the power input connector 302 of the industrial device 301 is unplugged from the power output interface of the socket assembly 101. When the control component 102 receives the first trigger signal, the state information sent to the internet of things platform 401 is, for example, symbol 1, where symbol 1 represents that the industrial equipment is connected to a power output interface in the socket component; when the control component receives the second trigger signal, the status information sent to the internet of things platform 401 is, for example, symbol 0, where symbol 0 indicates that the industrial device and the power output interface in the socket component are in the disconnected state. The terminal device 501 can acquire the state information from the internet of things platform 401, and the user can know the connection state between the industrial device and the socket assembly through the state information displayed by the terminal device to monitor the industrial device. The specific form of the status information may be set according to the requirement, and this embodiment does not limit this.

It should be noted that the control component may also be connected to the terminal device in other manners to send the state information to the terminal device, and a specific method for the control component to send the state information to the terminal device may be set according to requirements, which is not limited in this embodiment.

Optionally, the control assembly is mechanically separated from the socket assembly, and the position sensor is communicatively connected with the control assembly in a wireless communication manner.

In one embodiment, the control component and the socket component may be two independent modules, and the control component and the socket component are mechanically separated, and the control component and the position sensor may be in communication connection by wireless communication. For example, the control component may be in communication connection with the position sensor in a bluetooth communication manner, and a specific method of wireless communication may be set according to a requirement, which is not limited in this embodiment. When the control assembly is mechanically separated from the position sensor, the positions of the socket assembly and the control assembly can be flexibly set so as to monitor industrial equipment at different positions.

To sum up, in the embodiment of the present application, the monitoring apparatus for an industrial device includes a control component and a socket component, where the socket component has a power output interface, and the power output interface supplies power to the industrial device when being connected to the industrial device; the socket assembly is also provided with a position sensor arranged at the corresponding position of the power output interface, and the position sensor is connected with the control assembly; the control assembly detects the connection state between the industrial equipment and the power output interface through the position sensor and sends state information to the terminal equipment. The control assembly can detect the connection state between the industrial equipment and the socket assembly, and a user can acquire corresponding state information from the control assembly through the terminal equipment, so that the user can conveniently monitor the connection state between the industrial equipment and the socket assembly. Furthermore, when the user monitors the connection state between the industrial equipment and the socket assembly, the connection between the industrial equipment and the socket assembly can be timely disconnected, electric energy is saved, the long-time connection between the industrial equipment and the socket assembly can be avoided, and potential safety hazards caused by the long-time connection between the industrial equipment and the socket assembly can be eliminated.

Optionally, the monitoring device of the industrial equipment may further include a temperature detection component; the temperature detection assembly is connected with the control assembly, and when the detection module is arranged on the industrial equipment, the detection module detects the heating temperature of the industrial equipment and sends the heating temperature to the control assembly; the control component sends the heating temperature to the terminal device to inform the user of the heating status of the industrial device.

In one embodiment, the monitoring device of the industrial equipment may further include a temperature detection component, and the temperature detection component may be used to detect the heat generation temperature of the industrial equipment. As shown in fig. 3, the temperature detection component 201 and the control component 102 are two independent modules, the temperature detection component 201 and the control component 102 are connected by a communication cable, and a temperature sensor is disposed in the temperature detection component 201. In use, the temperature detecting component 201 can be fixed on the housing of the industrial device 301 in a certain manner, and the fixed position of the temperature detecting component 201 can be a position on the industrial device 301 close to the power supply of the industrial device. When the user uses the industrial device, the power input connector 302 of the industrial device is first inserted into the power output interface of the socket assembly 101, and then the temperature detection assembly 201 is fixed on the housing of the industrial device 201. At this time, the temperature detection component 201 can collect the heat generation temperature of the industrial equipment and send the generated temperature to the control component 102. The control component 102 can send the occurrence temperature to the terminal device, and the user can know the heating temperature of the industrial device through the terminal device to monitor the heating state of the industrial device.

In this application, including temperature detect assembly in industrial equipment's the monitoring device, can gather industrial equipment's the temperature that generates heat through temperature detect assembly, send the temperature that generates heat to user's terminal equipment, can be convenient for the user to monitor industrial equipment's the state that generates heat.

Optionally, the temperature detection component is mechanically separated from the control component, and the temperature detection component is in communication connection with the control component in a wireless communication manner.

In one embodiment, the temperature detection assembly is mechanically separated from the control assembly, the temperature detection assembly and the control assembly are two mutually independent modules, and when the temperature detection assembly is mechanically separated from the control assembly, the temperature detection assembly and the control assembly can be wirelessly connected in a wireless communication mode. For example, a bluetooth communication connection or a WIFI communication connection may be used. The specific manner of wireless communication may be set according to requirements, and this embodiment does not limit this. When the temperature detection assembly is mechanically separated from the control assembly and is in wireless communication connection, the temperature detection assembly can be conveniently arranged at any position of the industrial equipment, so that the heating temperature of the industrial equipment can be conveniently detected.

Optionally, the control component sends a high-temperature alarm signal to the terminal device when the heating temperature is greater than a preset temperature threshold.

In an implementation mode, the control component can monitor the heating temperature of the industrial equipment, a user can input a preset temperature threshold value in the control component in advance, the control component compares the heating temperature with the preset temperature threshold value after acquiring the heating temperature of the industrial equipment from the temperature detection component, when the heating temperature is greater than the preset temperature threshold value, the control component sends a high-temperature alarm signal to the terminal equipment, and the terminal equipment can output the high-temperature alarm signal to remind the user that the industrial equipment is too high in temperature. Or, a temperature comparator can be arranged in the temperature detection assembly, after the temperature detection assembly collects the heating temperature of the industrial equipment, the heating temperature is compared with a preset temperature threshold value, if the heating temperature is greater than the preset temperature threshold value, a high-temperature alarm signal is sent to the control assembly, and the control assembly forwards the high-temperature alarm signal to the terminal equipment.

In this application, control assembly can monitor the temperature that generates heat of industrial equipment, when the temperature that generates heat of industrial equipment was too high, to terminal equipment output alarm signal, can be convenient for the user to monitor the temperature that generates heat of industrial equipment.

Optionally, the control component is further configured to obtain a connection duration between the industrial device and the power output interface, and send the connection duration to the terminal device.

Optionally, a timer is arranged in the socket assembly, and the timer is connected with the position sensor and the control assembly; when detecting that the industrial equipment is connected with the power output interface, the position sensor sends a timing starting signal to the timer; and when the timer receives the timing starting signal, the timer starts timing to obtain and send connection duration to the control assembly.

In one embodiment, the control component can acquire connection duration between the industrial device and a power output interface of the socket component and send the connection duration to the terminal device, and a user can monitor the connection duration between the industrial device and the socket component through the terminal device. As shown in fig. 2, a timer may be disposed in the socket assembly, the timer is connected to the control assembly, and the trigger is connected to the control assembly and the timer. The trigger can send a first trigger signal and a second trigger signal to the control component and the timer at the same time, wherein the first trigger signal is a timing starting signal, and the second trigger signal is a timing stopping signal. The timer starts timing after receiving the first trigger signal and sends timing duration to the control component, wherein the timing duration is connection duration. The timer stops timing after receiving the second trigger signal. And after receiving the connection duration, the control component forwards the connection duration to the terminal equipment. The user can know the connection duration from the terminal equipment, and when the connection duration is longer, the connection between the industrial equipment and the socket assembly can be disconnected, so that resources are saved.

Optionally, the control component starts timing to obtain a connection duration when detecting, by the position sensor, that the industrial device is connected to the power output interface.

In one embodiment, the timing operation may be performed by the control component. By combining the above example, after receiving the first trigger signal, the control component determines that the industrial device is connected to the power output interface of the socket component, may start timing, obtains a timing duration, and sends the connection duration to the terminal device, where the timing duration is a connection duration. And the control component stops timing after receiving the second trigger signal.

In the application, the control assembly can acquire the connection duration between the industrial equipment and the power output interface and send the connection duration to the terminal equipment. The user can be through the long time of being connected between terminal equipment monitoring industrial equipment and the socket subassembly, and when the long time of being connected is great, manual disconnection industrial equipment and socket subassembly can save the resource.

Optionally, the control component sends an overtime alarm signal to the terminal device when the connection duration is greater than a preset duration threshold.

In one embodiment, the control component may monitor the connection duration after obtaining the connection duration. The user can set a preset time threshold in the control component in advance, and after the control component acquires the timing time, if the timing time is greater than the preset time threshold, the control component can send an overtime alarm signal to the terminal device. The terminal equipment can output overtime alarm signals to inform users that the connection time between the industrial equipment and the power output interface is long, and at the moment, the users can manually disconnect the industrial equipment from the socket assembly.

Optionally, the socket assembly further comprises a switching element; the input connecting end of the switch element is connected with a power supply of the socket assembly, the output connecting end of the switch element is connected with the power supply output interface, and the control end of the switch element is connected with the control assembly; when the control component receives a disconnection signal sent by the terminal equipment, the control component controls the switch element to be disconnected so as to stop supplying power to the industrial equipment; and the control component controls the switch element to be closed to start supplying power to the industrial equipment when receiving the closing signal sent by the terminal equipment.

In one embodiment, a switch element can be arranged in the socket assembly, and a user can remotely control the switch element to be switched on or switched off through a terminal device so as to control the power output interface to supply power to the industrial device. In combination with the above examples, the switch element may be disposed in the housing of the socket assembly, the input connection end of the switch element is connected to the power input connector of the socket assembly, the output connection end of the switch element is connected to the power output interface of the socket assembly, when the switch element is disconnected, the connection between the power input connector of the socket assembly and the power output interface is disconnected, and the power output interface is without power; when the switch element is closed, the power input connector of the socket assembly is connected with the power output interface, and the power output interface is electrified to supply power to the industrial equipment. The control end of the switch element is connected with the control component, and the control component can send an opening signal to the control end of the switch element to control the switch element to be opened, and send a closing signal to the control end of the switch element to control the switch element to be closed. When a user monitors that the connection time between the industrial equipment and the power output interface of the socket assembly is long or the heating temperature of the industrial equipment is too high through the terminal equipment, the terminal equipment can be operated to send a disconnection signal to the control assembly, and the control assembly can send the disconnection signal to the switch element. The switching element opens in response to the open signal, which may cause the receptacle assembly to cease providing power to the industrial equipment. Meanwhile, after the control switch element is disconnected, if the user needs to supply power to the industrial equipment again, the terminal equipment can be operated to send a closing signal to the control assembly, after the control assembly receives the closing signal, the closing signal is sent to the switch element, and the switch element is closed in response to the closing signal, so that the socket assembly can continuously supply power to the industrial equipment. The specific type and setting method of the switching element may be set according to the requirement, and this embodiment does not limit this.

In the application, the switch element is arranged in the socket assembly, so that a user can stop supplying power to the industrial equipment or start supplying power to the industrial equipment through the terminal equipment remote socket assembly, and the user can conveniently control the power utilization condition of the industrial equipment.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (9)

1. A monitoring device for industrial equipment, comprising: a control assembly and a socket assembly;

the socket assembly is provided with a power output interface, and when the power output interface is connected with industrial equipment, the power output interface supplies power to the industrial equipment;

the socket assembly is also provided with a position sensor arranged at a corresponding position of the power output interface, and the position sensor is connected with the control assembly;

the control assembly detects the connection state between the industrial equipment and the power output interface through the position sensor and sends state information to the terminal equipment.

2. The monitoring device of industrial equipment according to claim 1, further comprising: a temperature detection assembly;

the temperature detection component is connected with the control component, and when the temperature detection component is arranged on the industrial equipment, the temperature detection component detects the heating temperature of the industrial equipment and sends the heating temperature to the control component;

the control component sends the heating temperature to the terminal equipment so as to inform a user of the heating state of the industrial equipment.

3. The monitoring device of industrial equipment, according to claim 2, wherein the temperature detecting component is mechanically separated from the control component, and the temperature detecting component is in communication connection with the control component by means of wireless communication.

4. The industrial equipment monitoring device of claim 1, wherein the socket assembly further comprises a switching element;

the input connecting end of the switch element is connected with the power supply of the socket assembly, the output connecting end of the switch element is connected with the power supply output interface, and the control end of the switch element is connected with the control assembly;

the control component controls the switch element to be switched off to stop supplying power to the industrial equipment when receiving a switching-off signal sent by the terminal equipment;

and the control component controls the switch element to be closed to start supplying power to the industrial equipment when receiving a closing signal sent by the terminal equipment.

5. The monitoring device of industrial equipment according to claim 1, wherein the control component is further configured to obtain a connection duration between the industrial equipment and the power output interface, and send the connection duration to the terminal device.

6. The monitoring device of industrial equipment, according to claim 5, wherein a timer is provided in the socket assembly, the timer being connected to the position sensor and to the control assembly;

when the position sensor detects that the industrial equipment is connected with the power output interface, a timing starting signal is sent to the timer;

and when the timer receives the timing starting signal, the timer starts timing to obtain and send the connection duration to the control component.

7. The monitoring device of industrial equipment, according to claim 5, wherein the control component starts timing to obtain the connection duration when the connection between the industrial equipment and the power output interface is detected by the position sensor.

8. The monitoring device of industrial equipment according to claim 5, wherein the control component sends a timeout alarm signal to the terminal device when the connection duration is greater than a preset duration threshold.

9. The monitoring device of any one of claims 1-8, wherein the control component is mechanically decoupled from the receptacle component, and the position sensor is communicatively coupled to the control component via wireless communication.

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