TWM555498U - Externally attached remote motoring and off-line recording device - Google Patents

Abstract

The present invention relates to an external remote monitoring and offline recording device. The plug-in remote monitoring and offline recording device comprises at least one on-site monitoring device and a remote monitoring computer. The at least one on-site monitoring device is configured to monitor at least one status light of the at least one system device, and the at least one on-site monitoring device comprises a single-chip microcomputer, an isolated sensing component, a sensing component shielding body, and an isolated output action Components and a repeatable read and write memory. The isolation sensing component is configured to detect the at least one status light. The sensing element shielding body is used to block external interference light sources. The isolated output action component is configured to manipulate the at least one system device. The repeatable read/write memory is configured to record a change of the at least one status light. The remote monitoring computer is configured to connect the at least one field monitoring device to monitor the at least one status light number, and determine whether the at least one system device is faulty according to the change of the at least one status light number.

Description

External remote monitoring and offline recording device

The present invention relates to a monitoring and recording device and, more particularly, to an external remote monitoring and offline recording device.

The remote monitoring method is generally designed to complete the required functions when the original system is designed. Therefore, if the system equipment is used for a period of time or during the warranty period, additional monitoring methods or another set of backups are required. The rescue mechanism will require huge design change costs and must be designed to be internal and external to the original system equipment. In addition, the maintenance of the conventional system equipment is performed by the maintenance personnel to the site to check the status of the system equipment to determine the cause of the failure, and to take the corresponding maintenance method. However, the above maintenance procedures are subject to the maintenance personnel's travel time and maintenance speed, and if the maintenance personnel are not at the system equipment site, the recovery time of the system equipment will be greatly delayed. Therefore, it is necessary to provide an innovative and progressive external remote monitoring and offline recording device to solve the above problems.

In an embodiment, an external remote monitoring and offline recording device includes at least one on-site monitoring device and a remote monitoring computer. The at least one on-site monitoring device is configured to monitor at least one status light of the at least one system device, and the at least one on-site monitoring device comprises a single-chip microcomputer, an isolated sensing component, a sensing component shielding body, and an isolated output action Components and a repeatable read and write memory. The isolation sensing component is electrically connected to the single-chip microcomputer for detecting the at least one status light. The sensing element shielding body should isolate the sensing element to block external interference light sources. The isolated output action component is electrically connected to the single-chip microcomputer for controlling the at least one system device. The re-readable memory is electrically connected to the single-chip microcomputer for recording a change of the at least one status light. The remote monitoring computer is configured to connect the at least one field monitoring device to monitor the at least one status light number, and determine whether the at least one system device is faulty according to the change of the at least one status light number.

Referring to Figure 1, there is shown a system architecture diagram of an external remote monitoring and offline recording device in accordance with an embodiment of the present invention. The novel external remote monitoring and offline recording device 10 includes at least one on-site monitoring device 11 and a remote monitoring computer 12. The at least one on-site monitoring device 11 is configured to monitor at least one status light M1 of at least one system device M, and preferably, the number of the at least one field monitoring device 11 is the same as the number of the at least one system device M. In this embodiment, the at least one on-site monitoring device 11 includes a single-chip microcomputer 111, an isolation sensing component 112, a sensing component shielding body 113, an isolated output operating component 114, an instant clock component 115, and a The memory 116 can be read and written repeatedly. The isolation sensing component 112 is electrically connected to the single-chip microcomputer 111 for detecting the at least one status light M1. The sensing element shielding body 113 corresponds to the isolation sensing element 112 for blocking external interference light sources. In this embodiment, the isolation sensing component 112 and the sensing component shielding body 113 detect the isolation mode of the at least one state light M1 of the at least one system device M, so as to avoid the change. The risk of the original system. The isolated output action component 114 is electrically connected to the single-chip microcomputer 111 for controlling the at least one system device M. In this embodiment, the isolated output action element 114 corresponds to at least one reset element M2 of at least one system device M, and the at least one reset element M2 can be a reset button or a reset switch. The instant clock component 115 is electrically connected to the single-chip microcomputer 111 for outputting actual time. The re-readable memory 116 is electrically connected to the single-chip microcomputer 111 for recording the change of the at least one status light M1. In this embodiment, the at least one on-site monitoring device 11 can include at least one copy sensing component light number 117 to facilitate field personnel to view and perform maintenance actions. The at least one copy sensing component light 117 is electrically connected to the single-chip microcomputer 111 and corresponds to at least one state light number M1. Preferably, the number of the at least one copy sensing component light number 117 is the same as the number of the at least one state light signal M1. The remote monitoring computer 12 is configured to connect the at least one field monitoring device 11 for monitoring the at least one status light number M1, and determining whether the at least one system device M is faulty according to the change of the at least one status light number M1. In this embodiment, the manner in which the remote monitoring computer 12 connects the at least one on-site monitoring device 11 includes an internet, an optical fiber, and the like. In addition, in order for the remote monitoring computer 12 to successfully connect the at least one on-site monitoring device 11, the at least one on-site monitoring device 11 can include a serial port communication component 118, and the serial port communication component 118 is electrically connected to the The remote monitoring computer 12 can have a network serial port module 121 for connecting the serial port communication device 118 by the network serial port module 121. In addition, the remote monitoring computer 12 can communicate with the at least one on-site monitoring device 11 through the application software to achieve remote monitoring. The present invention can know the change of the at least one status light M1 in advance at the remote end, and further remotely control the at least one system device M by using the isolated output action component 114 of the at least one on-site monitoring device 11 to cause a fault. The at least one system device M can resume normal operation as soon as possible. The remote monitoring computer 12 can periodically poll the status of each monitoring point, and record for a long time at the remote end (including the record of the command action and the record of the live action) and display the status of the monitoring, and the status changes to the state requiring the alarm. When the category or the discontinuous ratio, the computer automatically displays the location status icon, and the remote monitor determines whether to issue the command for initial fault repair. If there are already maintenance personnel on site, the repair command can be issued by the site through the at least one on-site monitoring device 11, and all processes can be recorded as the basis for the device fault check judgment. If the at least one on-site monitoring device 11 and the remote monitoring computer 12 are offline, the at least one on-site monitoring device 11 can function as an offline status recorder. The invention can remotely identify and control the status light of the field system equipment in the condition of not changing the original system equipment, and can remotely control the system signal of the field system equipment before the maintenance personnel has arrived at the scene, Reduce the time pressure of maintenance personnel, and even set up in a dangerous environment to repair the system equipment by remote control, reducing the situation of personnel damage. The above embodiments are merely illustrative of the principles and functions of the present invention, and are not intended to limit the present invention. Therefore, those skilled in the art can make modifications and changes to the above embodiments without departing from the spirit of the present invention. The scope of the claims of the present invention should be as set forth in the appended claims.

10‧‧‧External remote monitoring and offline recording device
11‧‧‧ on-site monitoring device
12‧‧‧ Remote monitoring computer
111‧‧‧Single chip microcomputer
112‧‧‧Isolation sensing components
113‧‧‧Sensor component shielding
114‧‧‧Isolated output action components
115‧‧‧ Instant Clock Components
116‧‧‧Rereadable read and write memory
117‧‧‧Copy sensor element lights
118‧‧‧ tandem communication components
121‧‧‧Network Serialization Module
M‧‧‧System equipment
M1‧‧‧ Status Light
M2‧‧‧Reset components

1 shows a system architecture diagram of an external remote monitoring and offline recording device in accordance with an embodiment of the present invention. The drawings and the common reference numbers are used herein to refer to the same or the like. The present invention will be more apparent from the following detailed description.

10‧‧‧External remote monitoring and offline recording device

11‧‧‧ on-site monitoring device

12‧‧‧ Remote monitoring computer

111‧‧‧Single chip microcomputer

112‧‧‧Isolation sensing components

113‧‧‧Sensor component shielding

114‧‧‧Isolated output action components

115‧‧‧ Instant Clock Components

116‧‧‧Rereadable read and write memory

117‧‧‧Copy sensor element lights

118‧‧‧ tandem communication components

121‧‧‧Network Serialization Module

M‧‧‧System equipment

M1‧‧‧ Status Light

M2‧‧‧Reset components

Claims (9)

An external remote monitoring and offline recording device includes: at least one on-site monitoring device for monitoring at least one status light of at least one system device, the at least one on-site monitoring device comprising: a single-chip microcomputer; The component is electrically connected to the single-chip microcomputer for detecting the at least one state light number; a sensing component shielding body corresponding to the isolation sensing component for blocking external interference light source; and an isolated output action component, electrical Connecting the single-chip microcomputer for controlling the at least one system device; and re-reading and writing the memory, electrically connecting the single-chip microcomputer to record the change of the at least one status light; and remote monitoring The computer is configured to connect the at least one on-site monitoring device to monitor the at least one status light number, and determine whether the at least one system device is faulty according to the change of the at least one status light number. The remote monitoring and offline recording device of claim 1 , wherein the at least one on-site monitoring device further comprises at least one copy sensing component light, the at least one copy sensing component light electrically connected to the single-chip microcomputer. And corresponds to at least one status light. The remote monitoring and offline recording device of claim 2, wherein the number of the at least one copy sensing component light is the same as the number of the at least one state light. The remote monitoring and offline recording device of claim 1, wherein the at least one on-site monitoring device further comprises a serial communication device, wherein the serial communication device is electrically connected to the single-chip microcomputer. The remote monitoring and offline recording device of claim 4, wherein the remote monitoring computer has a network serial port module, and the network serial port module connects the serial port communication component. The remote monitoring and offline recording device of claim 1, wherein the at least one on-site monitoring device further comprises an instant clock component, the instant clock component being electrically connected to the single-chip microcomputer. And the off-line remote monitoring and offline recording device of claim 1, wherein the isolated output action component corresponds to at least one reset component of at least one system device. The remote monitoring and offline recording device of claim 7, wherein the at least one reset component is a reset button or a reset switch. The remote monitoring and offline recording device of claim 1 is, wherein the number of the at least one on-site monitoring device is the same as the number of the at least one system device.