CN218956769U

CN218956769U - Monitoring device and power supply equipment

Info

Publication number: CN218956769U
Application number: CN202223162742.3U
Authority: CN
Inventors: 王文锋
Original assignee: Jiangsu Chente Power Co ltd
Current assignee: Jiangsu Chente Power Co ltd
Priority date: 2022-11-28
Filing date: 2022-11-28
Publication date: 2023-05-02
Anticipated expiration: 2032-11-28

Abstract

The utility model discloses a monitoring device and power supply equipment, which are applied to the technical field of electrical equipment and are used for solving the problem that the operation data of the power supply equipment is difficult to acquire under the non-near-field condition in the prior art, and specifically comprise the following steps: the device comprises a communication module, a control module and a display module; the first end of the communication module is connected with an external power supply device through a cable, the second end of the communication module is connected with an external energy supplementing device through a cable, and the third end of the communication module is connected with the first end of the control module; the communication module is used for receiving the operation data of the external power supply device and the external energy supplementing device; the second end of the control module is connected with the display module, and the display module is used for receiving and displaying the operation data of the external power supply device and the external energy supplementing device transmitted by the control module, so that the data is received through the cable under the condition of non-near field, the problem that the monitoring point and the monitoring device for setting the data are inconvenient is avoided, and the realization process does not need complex control, so that the acquisition process is effectively simplified.

Description

Monitoring device and power supply equipment

Technical Field

The present utility model relates to the field of electrical devices, and in particular, to a monitoring device and a power supply device.

Background

The power supply device is widely applied to the fields of electrical equipment, industrial control equipment, electric automobiles, communication equipment, lighting equipment and the like due to the advantages of small size, high efficiency, high integration level and the like. The operation data of the power supply equipment are acquired and processed in real time so as to know the current operation condition of the power supply equipment, and the operation of the power supply equipment is ensured to be safe and reliable.

At present, a plurality of monitoring devices are often required to be arranged at a plurality of monitoring points for acquiring data in the running process of the power supply equipment, and the data are limited to near-field control, so that the running data of the power supply equipment can be obtained. Under the condition of non-near field, the monitoring device of the power supply equipment operation data is inconvenient to set, and the non-near field control of the monitoring device is complex, so that the power supply equipment operation data is difficult to acquire.

Disclosure of Invention

The embodiment of the utility model provides a monitoring device and power supply equipment, which are used for solving the problem that the operation data of the power supply equipment is difficult to acquire under the non-near-field condition in the prior art.

The technical scheme provided by the embodiment of the utility model is as follows:

in one aspect, an embodiment of the present utility model provides a monitoring apparatus, including: the device comprises a communication module, a control module and a display module;

the first end of the communication module is connected with an external power supply device through a cable, the second end of the communication module is connected with an external energy supplementing device through a cable, and the third end of the communication module is connected with the first end of the control module; the communication module is used for receiving the operation data of the external power supply device and the external energy supplementing device;

the second end of the control module is connected with the display module, and the display module is used for receiving and displaying the operation data of the external power supply device and the external energy supplementing device transmitted by the control module.

In one possible embodiment, the monitoring device further comprises: an interface module;

the first end of the interface module is connected with the first end of the communication module, the second end of the interface module is connected with the second end of the communication module, the third end of the interface module is connected with an external power supply device through a cable, and the fourth end of the interface module is connected with an external energy supplementing device through a cable; the interface module is used for connecting the communication module with the external power supply device and the external energy supplementing device respectively.

In one possible implementation, the interface module includes: aviation socket and aviation plug;

one end of the aviation socket is connected with the first end of the communication module, and the other end of the aviation socket is connected with an external power supply device through a cable;

one end of the aviation plug is connected with the second end of the communication module, and the other end of the aviation socket is connected with an external energy supplementing device through a cable.

In one possible embodiment, the monitoring device further comprises: a comparison module;

the comparison module is arranged between the communication module and the control module and is used for comparing the operation data of the external power supply device and the external energy supplementing device with a preset operation value to obtain a comparison result of the external power supply device and the external energy supplementing device.

In one possible embodiment, the monitoring device further comprises: an indicator light module;

the indicator light module is connected with the third end of the control module; the indicator light module is used for displaying a comparison result of the external power supply device and the external energy supplementing device.

In one possible embodiment, the indicator light module includes: at least one light emitting diode;

the at least one light emitting diode is respectively connected with the control module.

In one possible embodiment, the monitoring device further comprises: a button module;

the button module is connected with the fourth end of the control module, and the button module is used for enabling the control module to generate signals for enabling the external power supply device to be connected with or disconnected from the power generation device or the external energy supplementing device through connection or disconnection.

In one possible implementation, the button module includes a power button, a power-off button, and an emergency button;

the power supply button, the power-off button and the emergency button are respectively connected with the control module.

In one possible embodiment, the monitoring device further comprises: a housing;

the shell wraps the communication module, the control module and the comparison module, and a display module, an interface module, an indicator lamp module and a button module are arranged on a side plate of the shell in a penetrating mode.

In another aspect, an embodiment of the present utility model provides a power supply apparatus, including: the embodiment of the utility model provides the monitoring device, the power supply device, the power generation device and the energy supplementing device; the first end of the monitoring device is connected with the first end of the power supply device, the second end of the monitoring device is connected with the first end of the energy supplementing device, the second end of the power supply device is connected with the power generation device, and the third end of the power supply device is connected with the second end of the energy supplementing device.

The embodiment of the utility model has the following beneficial effects:

in the embodiment of the utility model, the communication module receives the operation data of the external power supply device and the external energy supplementing device based on the connected cable, and utilizes the display module to display the operation data of the external power supply device and the external energy supplementing device, and the data is received through the cable under the condition of non-near field, so that the acquisition of the operation data is realized, the problem that the monitoring point and the monitoring device for setting the data under the condition of non-near field are inconvenient is avoided, the realization process does not need to carry out complex control, and the acquisition of the operation data of the power supply device can be realized only by receiving the data sent by the external power supply device and the external energy supplementing device, and the acquisition process is effectively simplified.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic diagram of a first structure of a monitoring device according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second structure of a monitoring device according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a third structure of a monitoring device according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a fourth configuration of a monitoring device according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a fifth configuration of a monitoring device according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of a sixth structure of a monitoring device according to an embodiment of the present utility model;

FIG. 7 is a schematic diagram of a seventh structure of a monitoring device according to an embodiment of the present utility model;

FIG. 8 is a schematic view of an eighth structure of a monitoring device according to an embodiment of the present utility model;

FIG. 9 is a front view of a ninth configuration of a monitoring device according to an embodiment of the present utility model;

FIG. 10 is a rear view of a ninth configuration of a monitoring device in accordance with an embodiment of the present utility model;

fig. 11 is a schematic diagram of a first configuration of a power supply device according to an embodiment of the present utility model.

Detailed Description

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

An embodiment of the present utility model provides a monitoring device, referring to fig. 1, the monitoring device 100 includes: a communication module 110, a control module 120, and a display module 130;

the first end of the communication module 110 is connected with an external power supply device through a cable, the second end of the communication module 110 is connected with an external energy supplementing device through a cable, and the third end of the communication module 110 is connected with the first end of the control module 120; the communication module 110 is used for receiving operation data of the external power supply device and the external energy supplementing device;

the second end of the control module 120 is connected to the display module 130, and the display module 130 is configured to receive and display the operation data of the external power supply device and the external energy supplementing device transmitted by the control module 120.

In practical application, the operation data of the external power supply device mainly includes: the power supply device comprises an output voltage of the power supply device, an output current of the power supply device, a frequency of the power supply device, an output power of the power supply device, a maintenance timing of the power supply device, an input voltage of the power supply device and an input current of the power supply device; the operation data of the external energy supplementing device mainly comprises: the operation data of the external energy supplementing device mainly comprises the output voltage of the energy supplementing device, the output current of the energy supplementing device, the electric quantity of the energy supplementing device, the frequency of the energy supplementing device, the output power of the energy supplementing device and the maintenance timing of the energy supplementing device. The communication module 110 of the monitoring device 100 is connected to the communication module 110 of the external power supply device and the communication module 110 of the external energy supplementing device through cables, receives operation data of the external power supply device and the external energy supplementing device sent by the external power supply device and the external energy supplementing device, inputs the operation data to the control module 120, and the control module 120 controls the display module 130 to display the operation data of the external power supply device and the external energy supplementing device. In this way, the communication module 110 receives the operation data of the external power supply device and the external energy supplementing device based on the connected cable, and displays the operation data of the external power supply device and the external energy supplementing device by using the display module 130, so that the data can be obtained under the condition of non-near field, the problems that the selection of the monitoring point of the data under the condition of non-near field is limited and the wiring and the setting of the monitoring device are inconvenient are avoided, and the complex control is not needed, and the obtaining of the operation data of the power supply device can be realized by only receiving the data sent by the external power supply device and the external energy supplementing device, so that the obtaining process can be simplified.

In specific implementation, the display module 130 may be a display, and the location and the display manner for displaying the operation data of the external power supply device and the external energy supplementing device may be set according to the type, the relationship and the importance degree of the data, which are not limited herein. For example: all the operation data of the external power supply device can be displayed on a first page displayed on the display, and all the operation data of the external power supply device can be displayed on a second page of the display.

In one possible embodiment, referring to fig. 2, the monitoring device 100 further includes: an interface module 140;

the first end of the interface module 140 is connected with the first end of the communication module 110, the second end of the interface module 140 is connected with the second end of the communication module 110, the third end of the interface module 140 is connected with an external power supply device through a cable, and the fourth end of the interface module 140 is connected with an external energy supplementing device through a cable; the interface module 140 is used for connecting the communication module 110 with an external power supply device and an external energy supplementing device, respectively.

In practical applications, the interface module 140 is mainly configured to reliably connect the communication module 110 to an external power supply device and an external energy supplementing device, respectively. The interface module 140 may collect the wires of the monitoring device 100 and the external power supply device and the external energy supplementing device at a unified interface, connect the cable with the interface, and connect the cable to the corresponding external power supply device and external energy supplementing device through the cable, so as to effectively simplify the external wires and ensure reliable connection of the cable.

In one possible implementation, referring to fig. 3, the interface module 140 includes: aviation socket and aviation plug;

one end of the aviation socket is connected with the first end of the communication module 110, and the other end of the aviation socket is connected with an external power supply device through a cable;

one end of the aviation plug is connected with the second end of the communication module 110, and the other end of the aviation socket is connected with an external energy supplementing device through a cable.

In practical application, the communication module 110 is connected to one end of a cable through an aerial socket, and the other end of the cable is connected to an external power device. The communication module 110 and the external power supply device are connected through the aviation socket and the cable, the external power supply device can supply power to the monitoring device 100 through the aviation socket and the cable, the external power supply device can also transmit operation data of the external power supply device to the monitoring device 100 through the aviation socket and the cable, and the monitoring device 100 can also transmit signals of whether the external power supply device works or not and whether the external power supply device is connected with the power generation device of the external power supply device to the external power supply device through the aviation socket and the cable. The communication module 110 connects one end of the cable through the aerial plug, and the other end of the cable is connected to an external energy supplementing device. The communication module 110 and the external energy supplementing device are connected through the aviation plug and the cable, the external energy supplementing device can supply power to the monitoring device 100 through the aviation plug and the cable, the external power supply device can also transmit operation data of the external energy supplementing device to the monitoring device 100 through the aviation plug and the cable, and the monitoring device 100 can also send information whether the external energy supplementing device is connected with the external power supply device or not through whether the external energy supplementing device is in operation or not through the aviation plug and the cable. The core number of aviation socket and aviation plug can be set up according to actual need, does not show again, for example: the aviation plug can be set as an 18-core, wherein a pin A is used as a public end for connecting an external energy supplementing device, a pin B is used as a normally open end for connecting the external energy supplementing device, a pin C is used as a first communication end of the external energy supplementing device, a pin D is used as a second communication end of the external energy supplementing device, a pin E is used as a public end for emergency control, a pin F is used as a normally closed end for emergency control, a pin G is used as a power supply positive end of the external energy supplementing device, and a pin H is used as a power supply negative end of the external energy supplementing device; the aviation socket can be set to 10 cores, wherein the pin A is used as a +12V end for supplying power to an external power supply device, the pin B is used as a grounding end, the pin C is used as a first communication end of the external power supply device, the pin D is used as a second communication end of the external power supply device, the pin E is a public end for switching on the external power supply device, and the pin F is used as a normal end for switching on the external power supply device.

In one possible embodiment, referring to fig. 4, the monitoring device 100 further includes: a comparison module 150;

the comparing module 150 is disposed between the communication module 110 and the control module 120, and the comparing module 150 is configured to compare operation data of the external power supply device and the external energy supplementing device with a preset operation value to obtain a comparison result of the external power supply device and the external energy supplementing device.

In practical applications, the preset operation values in the comparison module 150 include a preset output current value and a preset output voltage value of the external power supply device, and further include a preset output current value and a preset output voltage value of the external energy supplementing device. The comparison module 150 compares the output voltage value and the output current value of the external power supply device with preset output current values and preset output voltage values of the external power supply device to determine whether an abnormal operation state of overload occurs to the external power supply device. When the output voltage value of the external power supply device is smaller than the preset output voltage value of the external power supply device and the output current value of the external power supply device is larger than the preset output current value of the external power supply device, the overload of the external power supply device is judged, and the identification information corresponding to the abnormal operation state is sent to the control module 120, so that the control module 120 controls the display module 130 to display the corresponding information of the overload of the external power supply device. The comparison module 150 compares the output voltage value of the external energy compensating device with a preset output voltage value of the external energy compensating device to determine whether an abnormal operation state of overvoltage or undervoltage occurs in the external energy compensating device. When the output voltage value of the external energy supplementing device is larger than the preset output voltage value of the external energy supplementing device, judging that the external energy supplementing device is in an overvoltage state; when the output voltage value of the external energy supplementing device is smaller than the preset output voltage value of the external energy supplementing device, judging that the external energy supplementing device is in an under-voltage state; the comparison module 150 sends the identification information corresponding to the current abnormal operation state to the control module 120, so that the control module 120 controls the display module 130 to display the corresponding information of the overvoltage or the undervoltage of the external energy supplementing device.

In one possible embodiment, referring to fig. 5, the monitoring device 100 further includes: an indicator light module 160;

the indicator light module 160 is connected with the third end of the control module 120; the indicator light module 160 is used for displaying a comparison result of the external power supply device and the external energy supplementing device.

In practical applications, the control module 120 may control the turn-on or turn-off of the indicator light module 160 according to the comparison result of the external power supply device and the external energy supplementing device sent by the comparison module 150, so as to intuitively display the comparison result of the external power supply device and the external energy supplementing device, and thus, the staff intuitively knows the operation states of the external power supply device and the external energy supplementing device according to the turn-on or turn-off of the indicator light module 160, so as to perform timely adjustment, overhaul and maintenance under the condition that the external power supply device and the external energy supplementing device have abnormal operation states.

In one possible embodiment, referring to fig. 6, the indicator light module 160 includes: at least one light emitting diode;

the at least one light emitting diode is connected with the control module 120, respectively.

In practical applications, the indicator light module 160 may include at least one light emitting diode, and the color and the on/off of the diode are used to display the comparison result between the external power supply device and the external energy supplementing device, for example, a green diode, a red diode and a yellow diode are set, and the lighting of the green diode indicates that the external power supply device is in an overload abnormal operation state; the external energy supplementing device is in an over-voltage abnormal operation state through the lighting of the green diode; the external energy supplementing device is in an abnormal operation state of under-voltage by the illumination of the green diode. The number, color and state of the diodes may be set according to actual needs, but are not limited thereto, and it is necessary to clearly and not be confused to display the comparison result of the external power supply device and the external power supply device.

In one possible embodiment, referring to fig. 7, the monitoring device 100 further includes: a button module 170;

the button module 170 is connected to the fourth end of the control module 120, and the button module 170 is used to make the control module 120 generate a signal for switching on or off the external power supply device and its power generation device or the external energy supplementing device by switching on or off.

In practice, the button module 170 may output different levels by switching on or off, each level corresponding to the control signal generated by the control module 120. By adjusting the button module 170, the control module 120 may generate signals including the external power device being turned on to its power generation device, the external power device being turned off to its power generation device, the external power device being turned on to its power compensation device, the external power device being turned off to its power compensation device, so that the external power device and the external power compensation device perform corresponding adjustment according to the received signals.

In one possible implementation, referring to fig. 8, the button module 170 includes a power button, a power-off button, and an emergency button;

the power button, the power-off button, and the emergency button are respectively connected with the control module 120.

In practical application, a power supply button, a power-off button and an emergency button may be set in the button module 170, where the power supply button includes a power supply button of a power generation device and a power supply button of an external energy supplementing device, and when the corresponding button is pressed, a corresponding level signal may be generated to enable the control module 120 to generate a signal for connecting an external power supply device with a corresponding device; the power-off buttons comprise a power-generating device power-off button and an external energy supplementing device power-off button, and when the corresponding buttons are pressed down, corresponding level signals can be generated to enable the control module 120 to generate signals for disconnecting the external power supply device from corresponding equipment; the pressing of the emergency button means that the control module 120 generates a signal for switching on the external power supply device and the external power supply device to make the external power supply device supply power for emergency when it is known that the electric quantity of the external power supply device is lower than the preset requirement. The button module 170 may further include a page-turning button of the display module 130, and the controller controls the display module 130 to display the contents of the second page by pressing the page-turning button.

In one possible embodiment, referring to fig. 9 and 10, the monitoring device 100 further includes: a housing 180;

the casing 180 wraps the communication module, the control module and the comparison module, and the display module 130, the interface module 140, the indicator light module 160 and the button module 170 are penetratingly disposed on the side plates of the casing 180.

In practical applications, through holes corresponding to the display module 130, the interface module 140, the indicator light module 160 and the button module 170 are respectively disposed on the housing 180, so that the display module 130, the interface module 140, the indicator light module 160 and the button module 170 penetrate through side plates of the housing 180. Specifically, one of the four sides of the housing 180 may be provided with the interface module 140 to connect the interface module 140 with a cable, and the other of the four sides of the housing 180 is provided with the display module 130, the interface module 140 and the indicator light module 160 in a penetrating manner, so that a worker can determine current operation data and operation states of the external power supply device and the external energy supplementing device by observing one side of the housing 180, and operate through the button module 170 in time.

Based on the same concept, the embodiment of the present utility model further provides a power supply apparatus, referring to fig. 11, the power supply apparatus 200 includes: the embodiment of the present utility model provides the above-mentioned monitoring device 100, power supply device 210, power generation device 220 and energy supplementing device 230; the first end of the monitoring device 100 is connected to the first end of the power supply device 210, the second end of the monitoring device 100 is connected to the first end of the energy compensating device 230, the second end of the power supply device 210 is connected to the power generating device 220, and the third end of the power supply device 210 is connected to the second end of the energy compensating device 230, and the functions of the embodiments of the monitoring device are detailed in the above description.

In the power supply equipment provided by the embodiment of the utility model, the monitoring device can solve the problem that the operation data of the power supply equipment is difficult to acquire under the non-near-field condition in the prior art, so that the power supply equipment using the monitoring device also has corresponding advantages.

While preferred embodiments of the present utility model have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the utility model.

It will be apparent to those skilled in the art that various modifications and variations can be made to the embodiments of the present utility model without departing from the spirit or scope of the embodiments of the utility model. Thus, if such modifications and variations of the embodiments of the present utility model fall within the scope of the claims and the equivalents thereof, the present utility model is also intended to include such modifications and variations.

Claims

1. A monitoring device, comprising: the device comprises a communication module, a control module and a display module;

2. The monitoring device of claim 1, further comprising: an interface module;

the first end of the interface module is connected with the first end of the communication module, the second end of the interface module is connected with the second end of the communication module, the third end of the interface module is connected with an external power supply device through a cable, and the fourth end of the interface module is connected with an external energy supplementing device through a cable; the interface module is used for connecting the communication module with an external power supply device and an external energy supplementing device respectively.

3. The monitoring device of claim 2, wherein the interface module comprises: aviation socket and aviation plug;

4. The monitoring device of claim 2, further comprising: a comparison module;

5. The monitoring device of claim 4, further comprising: an indicator light module;

6. The monitoring device of claim 5, wherein the indicator light module comprises: at least one light emitting diode;

7. The monitoring device of claim 5, further comprising: a button module;

the button module is connected with the fourth end of the control module, and is used for enabling the control module to generate signals for enabling the external power supply device to be connected with or disconnected from the power generation device or the external energy supplementing device through connection or disconnection.

8. The monitoring device of claim 7, wherein the button module comprises a power button, a power down button, and an emergency button;

9. The monitoring device of claim 7, further comprising: a housing;

the shell wraps the communication module, the control module and the comparison module, and the display module, the interface module, the indicator light module and the button module are arranged on the side plate of the shell in a penetrating mode.

10. A power supply apparatus, characterized by comprising: the monitoring device, power supply device, power generation device and energy supplementing device of any one of claims 1-9; the first end of the monitoring device is connected with the first end of the power supply device, the second end of the monitoring device is connected with the first end of the energy supplementing device, the second end of the power supply device is connected with the power generation device, and the third end of the power supply device is connected with the second end of the energy supplementing device.