CN109905938B - Signal lamp display control system and method for detecting cabinet - Google Patents

Abstract

The invention discloses a signal lamp display control system of a detection cabinet and a method thereof.A processing server receives detection information of a device to be detected from a data generation and transmission device of the detection cabinet, generates a corresponding signal lamp control instruction according to the detection information of the device to be detected, and sends the signal lamp control instruction to the corresponding signal lamp control device through a signal lamp concentrator, and the signal lamp control device can generate a signal lamp control instruction sequence corresponding to the signal lamp device in a corresponding whole row of detection areas according to the signal lamp control instruction so as to control the signal lamp color and the signal lamp continuous opening state or the flashing state display of the signal lamp device in the corresponding detection areas, thereby achieving the technical effect of controlling a large number of full-color light-emitting diodes.

Description

Signal lamp display control system and method for detecting cabinet

Technical Field

The invention relates to a control system and a method thereof, in particular to a control system and a method thereof which are used for receiving detection information through a server, generating signal lamp control information according to the detection information and displaying the color of a signal lamp and the continuous opening state or the flashing state of the signal lamp on a corresponding signal lamp device through a signal lamp concentrator and a signal lamp control device.

Background

Early Light Emitting Diodes (LEDs) were designed for a single color, and the LEDs can be switched on and off to achieve various display modes of a single color, for example: the continuous light emitting manner, the continuous non-light emitting manner, the flashing light emitting manner, etc. are only examples, and the application scope of the present invention is not limited thereto.

In addition, the colors displayed by the leds are fixed, and if the colors need to be changed, only the leds with the corresponding colors can be used as replacements.

In summary, it is known that there is a problem in the prior art that it is not convenient to expand the control of leds with single color to control leds one by one, and therefore, there is a need for an improved technical solution to solve the problem.

Disclosure of Invention

In view of the problem of the prior art that the existing single-color led control is inconvenient to expand and can only control leds one-to-one, the present invention discloses a signal light display control system for detecting a cabinet and a method thereof, wherein:

the invention discloses a signal light display control system of a detection cabinet, which comprises: the system comprises a detection cabinet, a processing server, a signal lamp concentrator and a signal lamp control device.

Each detection cabinet is provided with a plurality of detection areas, detection information of the device to be detected is generated and transmitted through the data generation and transmission device of each detection area, each detection area corresponds to a signal lamp device, the signal lamp devices corresponding to a whole row of detection areas are connected in series, and the detection information comprises a detection cabinet serial number, a detection area serial number and a detection result.

The processing server receives detection information of the device to be detected from the data generating and transmitting device, and generates a corresponding signal lamp control instruction according to the detection information of the device to be detected, wherein the signal lamp control instruction comprises a signal lamp control device serial number, a signal lamp output port, signal lamp device information, signal lamp colors and a signal lamp state.

The signal lamp concentrator receives the signal lamp control instruction from the processing server and sends the signal lamp control instruction to the corresponding signal lamp control device according to the signal lamp control instruction; and the signal lamp control device is electrically connected with the signal lamp concentrator and other signal lamp control devices or the signal lamp control devices are electrically connected with other two signal lamp control devices, the signal lamp output port of the signal lamp control device is electrically connected with the signal lamp device corresponding to the whole row of detection areas in the detection cabinet, a signal lamp control command is obtained from the signal lamp concentrator or other signal lamp control devices, a signal lamp control command sequence corresponding to the signal lamp device in the corresponding whole row of detection areas is generated according to the signal lamp control command, and the signal lamp device signal lamp color and the signal lamp continuous opening state or the flickering state display control in the corresponding detection areas are carried out.

The invention discloses a signal light display control method for a detection cabinet, which comprises the following steps:

firstly, providing a detection cabinet with a plurality of detection areas, wherein each detection area corresponds to a signal lamp device, the signal lamp devices corresponding to a whole row of detection areas are mutually connected in series, and detection information of a device to be detected is generated and transmitted through a data generation and transmission device of each detection area, wherein the detection information comprises a detection cabinet serial number, a detection area serial number and a detection result; then, providing a processing server, receiving detection information of the device to be detected from the data generating and transmitting device by the processing server, and generating a corresponding signal lamp control instruction according to the detection information of the device to be detected, wherein the signal lamp control instruction comprises a signal lamp control device serial number, a signal lamp output port, signal lamp device information, signal lamp color and a signal lamp state; then, providing a signal lamp concentrator, receiving a signal lamp control instruction from the processing server by the signal lamp concentrator, and sending the signal lamp control instruction to a corresponding signal lamp control device according to the signal lamp control instruction; finally, a signal lamp control device is provided, the signal lamp control device is electrically connected with a signal lamp concentrator and other signal lamp control devices or the signal lamp control device is electrically connected with other two signal lamp control devices, a signal lamp output port of the signal lamp control device is electrically connected with a signal lamp device corresponding to an entire row of detection areas in the detection cabinet, a signal lamp control command is obtained from the signal lamp concentrator or other signal lamp control devices, a signal lamp control command sequence corresponding to the signal lamp device in the corresponding entire row of detection areas is generated according to the signal lamp control command, and the signal lamp color and the signal lamp continuous opening state or the flickering state display in the corresponding detection areas are controlled.

The system and the method disclosed by the invention are different from the prior art in that the data generation and transmission device of the processing server self-detection cabinet receives the detection information of the device to be detected, the corresponding signal lamp control instruction is generated according to the detection information of the device to be detected, the processing server sends the signal lamp control instruction to the corresponding signal lamp control device through the signal lamp concentrator, and the signal lamp control device can generate a signal lamp control instruction sequence corresponding to the signal lamp devices in the corresponding detection area in a whole row according to the signal lamp control instruction so as to control the display of the signal lamp color and the signal lamp continuous opening state or the flickering state of the signal lamp devices in the corresponding detection area.

Through the technical means, the invention can achieve the technical effect of controlling a large number of full-color light-emitting diodes.

Drawings

Fig. 1 is a system block diagram of a signal light display control system of a detection cabinet according to the present invention.

Fig. 2 is a flowchart of a method for controlling the display of a signal lamp of a detection cabinet according to the present invention.

Fig. 3 is a schematic diagram of the signal light display control of the inspection cabinet according to the present invention.

Description of the symbols:

10 detect rack

11 detection area

12 data generating and transmitting device

20 processing server

30 signal lamp concentrator

40 signal lamp control device

50 device to be detected

60 signal lamp device

71 detection information

72 signal lamp control instruction

80 beacon signal lamp device

Step 101, providing a detection cabinet with a plurality of detection areas, wherein each detection area corresponds to a signal lamp device, the signal lamp devices corresponding to a whole row of detection areas are connected in series, and detection information of the device to be detected is generated and transmitted through a data generation and transmission device of each detection area, wherein the detection information comprises a detection cabinet serial number, a detection area serial number and a detection result

Step 102 provides a processing server, the processing server receives detection information of the device to be detected from the data generating and transmitting device, and generates a corresponding signal lamp control instruction according to the detection information of the device to be detected, wherein the signal lamp control instruction comprises a signal lamp control device serial number, a signal lamp output port, signal lamp device information, a signal lamp color and a signal lamp state

Step 103, providing a signal light concentrator, wherein the signal light concentrator receives the signal light control instruction from the processing server and sends the signal light control instruction to the corresponding signal light control device according to the signal light control instruction

Step 104 provides signal lamp control devices, the signal lamp control devices are electrically connected with the signal lamp concentrator and other signal lamp control devices or the signal lamp control devices are electrically connected with other two signal lamp control devices, the signal lamp output ports of the signal lamp control devices are electrically connected with the signal lamp devices corresponding to a whole row of detection areas in the detection cabinet, signal lamp control instructions are obtained from the signal lamp concentrator or other signal lamp control devices, signal lamp control instruction sequences corresponding to the signal lamp devices in the corresponding whole row of detection areas are generated according to the signal lamp control instructions, and control of display of signal lamp device signal lamp colors and signal lamp continuous opening states or flashing states in the corresponding detection areas is carried out

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the accompanying drawings and examples, so that how to implement the embodiments of the present invention by using technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented.

An embodiment of an operating system and method according to the present invention will be described below with reference to fig. 1, fig. 2 and fig. 3, in which fig. 1 is a system block diagram of a signal light display control system of a detection cabinet according to the present invention; FIG. 2 is a flowchart illustrating a method for controlling signal light display of the inspection cabinet according to the present invention; fig. 3 is a schematic diagram illustrating an architecture of signal light display control of the inspection cabinet according to the present invention.

The invention discloses a signal light display control system of a detection cabinet, which comprises: a detection cabinet 10, a processing server 20, a signal light hub 30 and a signal light control device 40.

Each detection cabinet 10 has a plurality of detection areas 11, the data generating and transmitting device 12 of each detection area 11 generates and transmits detection information 71 of the devices 50 to be detected, each detection area 11 corresponds to a signal lamp device 60, the signal lamp devices 60 corresponding to an entire row of detection areas 11 are connected in series, and the detection information 71 includes a detection cabinet serial number, a detection area serial number and a detection result (step 101).

The data generating and transmitting device 12 in the detecting cabinet 10 is connected to the processing server 20 through a wired transmission method such as a coaxial cable network, an optical fiber cable network, etc. or a wireless transmission method such as Wi-Fi, mobile communication network, etc. by way of example only, and the data generating and transmitting device 12 can transmit the detecting information 71 to the processing server 20.

After the processing server 20 receives the detection information 71 from the data generating and transmitting device 12, the processing server 20 generates a corresponding traffic light control command 72 according to the detection information 71 of the device 50 to be detected, the traffic light control command 72 includes a traffic light control device serial number for designating a specific traffic light control device, a traffic light output port for designating an output port of the designated traffic light control device for outputting the traffic light control command, traffic light device information for designating a controlled traffic light device, a traffic light color for designating the traffic light color of the traffic light device, and a traffic light state for designating a traffic light continuous on state or a blinking state of the controlled traffic light device (step 102), this is for illustration only and is not intended to limit the scope of the invention.

The signal light concentrator 30 receives the signal light control command 72 from the processing server 20, and sends the signal light control command 72 to the corresponding signal light control device 40 according to the signal light control device serial number of the signal light control command 72 (step 103), the signal light control device 40 can be electrically connected to the signal light concentrator 30 and other signal light control devices 40, and the signal light control device 40 can also be electrically connected to other two signal light control devices 40, and the signal light output port of the signal light control device 40 is electrically connected to the signal light device 60 corresponding to the entire row of the inspection area 11 in the inspection cabinet 10.

After the signal lamp control device 40 obtains the signal lamp control command 72 from the signal lamp hub 30 or the adjacent signal lamp control device 40 through the signal lamp control device serial number of the signal lamp control command 72, the signal lamp control device 40 can generate a signal lamp control command sequence corresponding to the signal lamp devices 60 in the corresponding whole row of the detection area 11 according to the signal lamp control command 72 to control the signal lamp color and the signal lamp continuous on state or blinking state display of the signal lamp devices 60 in the corresponding detection area 11 (step 104).

The signal lamp apparatus 60 acquires the instruction information of the first 24 bits of the signal lamp control instruction sequence when receiving the signal lamp control instruction sequence, so as to control the signal lamp device 60 in the corresponding detection area 11 to display the signal lamp color and the signal lamp continuous opening state or the flashing state according to the instruction information of the first 24bit of the signal lamp control instruction sequence, when the signal lamp device 60 receives the signal lamp control command sequence, the signal lamp control chip in the signal lamp device 60 is switched from the reception mode to the forwarding mode, and converts the signal lamp control command sequence into a subsequent signal lamp control command sequence to be transmitted to the next-stage adjacent signal lamp control device 60, whereby the signal lamp color and the signal lamp continuous on state or blinking state display control of the signal lamp control device 60 can be performed with the signal lamp output port of the single signal lamp control device 40.

Specifically, it is assumed that the traffic light control command sequence received by the traffic light device 60 is "0 x00FF0000FF 00", the traffic light device 60 obtains command information of "0 x00FF 00" of 24 bits before the traffic light control command sequence to perform control of displaying a traffic light color (green in the embodiment) with the traffic light device 60 in the corresponding one entire row of the detection area 11, the traffic light control chip in the traffic light device 60 switches from the reception mode to the forwarding mode, and switches the traffic light control command sequence "0 x00FF0000FF 00" to a subsequent traffic light control command sequence "0 x00FF0000FF 00" to transmit to the next adjacent traffic light control device 60; the traffic light control command sequence received by the traffic light control device 60 is "0 x00FF0000FF 00", the traffic light device 60 obtains command information of "0 x00FF 00" of the first 24 bits of the traffic light control command sequence to perform control of displaying a traffic light color (green in the embodiment) with the traffic light device 60 in the corresponding whole row detection area 11, the traffic light control chip in the traffic light device 60 switches from the receiving mode to the forwarding mode, and switches the traffic light control command sequence "0 x00FF0000FF 00" to a subsequent traffic light control command sequence "0 x00FF 00" to transmit to the next adjacent traffic light control device 60, and so on, the traffic light output port of the single traffic light control device 40 performs control of displaying a traffic light color of the traffic light control device 60.

Beacon control device 40 further includes means for generating beacon signal control information based on beacon control commands 72, beacon control device 40 sending beacon signal control information to beacon signal device 80 via the beacon control port for controlling the display of beacon color and the continuous on or flashing status of the beacon, said beacon signal device 80 having a cylindrical shape, the beacon signal device 80 has at least two signal lights with different colors, and it should be noted that the color displayed by the signal light device 60 corresponds to the color displayed by the beacon signal device 80, that is, it is assumed that the three colors displayed by the signal light device 60 are blue, red and green, respectively, and the three colors displayed by the beacon signal device 80 are blue, red and green, respectively, which is only an example and is not intended to limit the application scope of the present invention.

In summary, it can be seen that the difference between the present invention and the prior art is that the data generating and transmitting device of the processing server self-testing cabinet receives the testing information of the device to be tested, generates a corresponding signal lamp control instruction according to the testing information of the device to be tested, the processing server sends the signal lamp control instruction to the corresponding signal lamp control device through the signal lamp concentrator, and the signal lamp control device can generate a signal lamp control instruction sequence corresponding to the signal lamp devices in the corresponding whole row of testing area according to the signal lamp control instruction, so as to control the signal lamp color and the signal lamp continuous on state or flashing state display of the signal lamp devices in the corresponding testing area.

The technical means can solve the problem that the control of the single-color light-emitting diode is inconvenient to expand and only the light-emitting diodes can be controlled one by one in the prior art, thereby achieving the technical effect of controlling a large number of full-color light-emitting diodes.

Although the embodiments of the present invention have been described, the description is not intended to limit the scope of the invention. Workers skilled in the art to which this invention pertains will appreciate that changes may be made in form and detail without departing from the spirit and scope of the invention as disclosed. The scope of the present invention is defined by the appended claims.

Claims (8)

1. A signal light display control system for detecting cabinets, comprising:

the system comprises a plurality of detection cabinets, a data generating and transmitting device, a signal lamp device and a signal lamp device, wherein each detection cabinet is provided with a plurality of detection areas, the data generating and transmitting device of each detection area generates and transmits detection information of a device to be detected, each detection area corresponds to the signal lamp device, the signal lamp devices corresponding to a whole row of detection areas are connected in series, and the detection information comprises a detection cabinet serial number, a detection area serial number and a detection result;

the processing server receives the detection information of the device to be detected from the data generating and transmitting device, and generates a corresponding signal lamp control instruction according to the detection information of the device to be detected, wherein the signal lamp control instruction comprises a signal lamp control device serial number, a signal lamp output port, signal lamp device information, signal lamp color and a signal lamp state;

the signal lamp concentrator receives the signal lamp control instruction from the processing server and sends the signal lamp control instruction to a corresponding signal lamp control device according to the signal lamp control instruction; and

signal lamp controlling means, signal lamp controlling means with signal lamp concentrator other signal lamp controlling means electric connection or with other two signal lamp controlling means electric connection, signal lamp controlling means's signal lamp output port with detect in the rack a whole line detection area correspond signal lamp device electric connection, and certainly signal lamp concentrator or other signal lamp controlling means obtain signal lamp control instruction, and according to signal lamp control instruction generate with a corresponding whole line detection area in the signal lamp device control instruction sequence that corresponds to carry out and correspond in the detection area signal lamp device signal lamp color and the control that signal lamp lasts on-state or scintillation state demonstration.

2. The signaling light display control system for inspection cabinets of claim 1, the signal lamp device obtains the signal lamp control instruction sequence from the signal lamp control device or the adjacent signal lamp control device, after the signal lamp device obtains the signal lamp control information, the signal lamp device obtains the instruction information of the first 24 bits of the signal lamp control instruction sequence, the signal lamp device in the corresponding detection area is controlled to display the signal lamp color and the signal lamp continuous opening state or the flashing state according to the instruction information of the first 24 bits of the signal lamp control instruction sequence, when the signal lamp device receives a signal lamp control command sequence, a signal lamp control chip in the signal lamp device is switched from a receiving mode to a forwarding mode, and the signal lamp control instruction sequence is converted into a subsequent signal lamp control instruction sequence to be sent to the next adjacent signal lamp control device.

3. The signaling light display control system for inspection cabinets of claim 1, wherein the signaling light control device further comprises a beacon light control message generated in accordance with the signaling light control command, the signaling light control device sending the beacon light control message to the beacon light device through the beacon control port for controlling the display of the color of the signaling light and the continuous on state or flashing state of the signaling light.

4. The signaling control system of inspection cabinets of claim 3, wherein the color displayed by said signaling light assembly corresponds to the color displayed by said beacon light assembly.

5. A method of inspecting a cabinet, comprising the steps of:

providing a plurality of detection cabinets, wherein each detection cabinet is provided with a plurality of detection areas, a signal lamp device corresponds to each detection area, the signal lamp devices corresponding to a whole row of detection areas are mutually connected in series, detection information of a device to be detected is generated and transmitted through a data generation and transmission device of each detection area, and the detection information comprises a detection cabinet serial number, a detection area serial number and a detection result;

providing a processing server, wherein the processing server receives detection information of the device to be detected from the data generating and transmitting device, and generates a corresponding signal lamp control instruction according to the detection information of the device to be detected, wherein the signal lamp control instruction comprises a signal lamp control device serial number, a signal lamp output port, signal lamp device information, signal lamp color and a signal lamp state;

providing a signal lamp concentrator, wherein the signal lamp concentrator receives the signal lamp control instruction from the processing server and sends the signal lamp control instruction to a corresponding signal lamp control device according to the signal lamp control instruction; and

the signal lamp control device is electrically connected with the signal lamp concentrator or other signal lamp control devices or other two signal lamp control devices, a signal lamp output port of the signal lamp control device corresponds to a whole row of detection areas in the detection cabinet, the signal lamp output port of the signal lamp control device is electrically connected with the signal lamp devices, the signal lamp concentrator or other signal lamp control devices obtain the signal lamp control instruction, and the signal lamp control instruction sequence corresponding to the signal lamp devices in the whole row of detection areas is generated according to the signal lamp control instruction, so that the signal lamp device signal lamp color and the signal lamp in the corresponding detection areas are controlled to be continuously turned on or flicker state display.

6. The method of inspecting a cabinet of claim 5 wherein the beacon unit obtains the sequence of beacon light control instructions from the beacon control unit or an adjacent beacon control unit, after the signal lamp device obtains the signal lamp control information, the signal lamp device obtains the instruction information of the first 24 bits of the signal lamp control instruction sequence, the signal lamp device in the corresponding detection area is controlled to display the signal lamp color and the signal lamp continuous opening state or the flashing state according to the instruction information of the first 24 bits of the signal lamp control instruction sequence, when the signal lamp device receives a signal lamp control command sequence, a signal lamp control chip in the signal lamp device is switched from a receiving mode to a forwarding mode, and the signal lamp control instruction sequence is converted into a subsequent signal lamp control instruction sequence to be sent to the next adjacent signal lamp control device.

7. The method of inspecting a cabinet of claim 6 wherein the beacon control device further comprises generating beacon signal light control information based on the beacon signal light control information, the beacon signal control device sending the beacon signal light control information to the beacon signal light device through the beacon control port to control the display of the color of the beacon signal and the continuous on state or flashing state of the beacon signal.

8. The method of inspecting a cabinet of claim 5 wherein the color displayed by the beacon light assembly corresponds to the color displayed by the beacon light assembly.

Images