CN115665934A - Marine navigation signal lamp control system - Google Patents

Abstract

The application provides a marine navigation signal lamp control system, which relates to the field of marine signal lamps and comprises signal lamps, analog lamps, a control module and a storage battery; the signal lamp is arranged outside the cabin and positioned on the top of the ship, and the analog lamp, the control module and the storage battery are arranged in the cabin; the signal lamp, the simulation lamp, the control module and the storage battery are sequentially connected in series; the control module is used for controlling the connection state of the analog lamp and the storage battery. In the boats and ships navigation process, the crewman passes through the connection status of control module control simulation lamp and battery in the cabin, during simulation lamp and battery intercommunication, the signal lamp on ship top is luminous with the simulation lamp in the cabin is synchronous, because the simulation lamp, control module, the battery is established ties and is set up, when signal lamp trouble or circuit disconnection or battery do not have the electricity, the signal lamp does not work, the simulation lamp does not work yet simultaneously, the crewman can audio-visual convenient judgement signal lamp's true operating condition in the cabin, help avoiding the crewman can't in time discover lead to can't carry out normal interdynamic with other ships.

Description

Marine navigation signal lamp control system

In some embodiments of this application embodiment, the signal lamp includes green signal lamp, the light of green signal lamp when shining is green, the analog lamp includes green analog lamp, the light of green analog lamp when shining is green, bee calling organ includes green bee calling organ, green bee calling organ suggestion green lamp when the sound production is bright, green signal lamp green analog lamp green bee calling organ the controller the battery establishes ties in proper order and sets up, control module is used for control green bee calling organ with the connected state of battery.

In some implementations of embodiments of the present application, the signal lights include red signal lights, yellow signal lights, green signal lights; the simulation lamps comprise a white simulation lamp, a red simulation lamp, a yellow simulation lamp and a green simulation lamp; the marine navigation signal lamp control system further comprises a buzzer, wherein the buzzer is arranged in the cabin and comprises a red buzzer, a yellow buzzer and a green buzzer; the white simulation lamp, the control module and the storage battery are sequentially connected in series; the red signal lamp, the red simulation lamp, the red buzzer, the control module and the storage battery are sequentially arranged in series, the yellow signal lamp, the yellow simulation lamp, the yellow buzzer, the control module and the storage battery are sequentially arranged in series, and the green signal lamp, the green simulation lamp, the green buzzer, the control module and the storage battery are sequentially arranged in series; the control module is used for controlling the connection state of the white simulation lamp and the storage battery, controlling the connection state of the red buzzer and the storage battery, controlling the connection state of the yellow buzzer and the storage battery, and controlling the connection state of the green buzzer and the storage battery.

In some implementations of embodiments of the present application, the control module includes a rail, a slider, a first fixed contact, a second fixed contact, a third fixed contact, a fourth fixed contact, a moving contact; the sliding block is connected with the guide rail in a sliding manner, and the sliding block can switch the first fixed contact to be connected with the movable contact or the second fixed contact to be connected with the movable contact or the third fixed contact to be connected with the movable contact or the fourth fixed contact to be connected with the movable contact after sliding relative to the guide rail; when the first fixed contact is connected with the movable contact, the white simulation lamp, the first fixed contact, the movable contact and the storage battery are sequentially connected in series; when the second fixed contact is connected with the movable contact, the red buzzer, the second fixed contact, the movable contact and the storage battery are sequentially connected in series; when the third fixed contact is connected with the movable contact, the yellow buzzer, the third fixed contact, the movable contact and the storage battery are sequentially connected in series; when the fourth fixed contact is connected with the movable contact, the green buzzer, the fourth fixed contact, the movable contact and the storage battery are sequentially connected in series.

The application has the following beneficial effects:

in the boats and ships navigation process, the crewman passes through the connection status of control module control simulation lamp and battery in the cabin, during simulation lamp and battery intercommunication, the signal lamp on ship top is luminous with the simulation lamp in the cabin is synchronous, because the simulation lamp, control module, the battery is established ties and is set up, when signal lamp trouble or circuit disconnection or battery do not have the electricity, the signal lamp does not work, the simulation lamp does not work yet simultaneously, the crewman can audio-visual convenient judgement signal lamp's true operating condition in the cabin, help avoiding the crewman can't in time discover lead to can't carry out normal interdynamic with other ships.

Technical Field

The application relates to the technical field of marine signal lamps, in particular to a marine navigation signal lamp control system.

Background

The marine signal lamp is used for the signal lamp of other ships interdynamic in the ship navigation, marine signal lamp among the prior art is installed on the ship top usually, the crew shines or extinguishes through switch control marine signal lamp in the cabin, however, the crew can't observe the actual operating condition of ship top signal lamp inside the cabin, probably because marine signal lamp damages, the circuit of marine signal lamp damages, the power of marine signal lamp does not have electric reasons such as leads to marine signal lamp not to work under anticipated operating condition, the crew can't in time notice lead to can't carry out normal interaction with other ships.

Disclosure of Invention

The application provides a marine navigation signal lamp control system for solve among the prior art crew in the cabin can't learn the technical problem of the true operating condition of marine signal lamp.

In an embodiment of the application, a marine navigation signal lamp control system is provided, which comprises a signal lamp, an analog lamp, a control module and a storage battery; the signal lamp is arranged outside the cabin and positioned on the top of the ship, and the simulation lamp, the control module and the storage battery are arranged in the cabin; the signal lamp, the simulation lamp, the control module and the storage battery are sequentially connected in series; the control module is used for controlling the connection state of the analog lamp and the storage battery.

In some embodiments of this application embodiment, the signal lamp includes red signal lamp, the light of red signal lamp when shining is red, the simulation lamp includes red simulation lamp, the light of red simulation lamp when shining is red, red signal lamp red simulation lamp control module the battery sets up in proper order in series, control module is used for control red simulation lamp with the connection status of battery.

In some implementation manners of this application embodiment, institute the signal lamp includes the yellow signal lamp, the light of yellow signal lamp when shining is yellow, the analog lamp includes yellow analog lamp, the light of yellow analog lamp when shining is yellow, the yellow signal lamp yellow analog lamp control module the battery establishes ties in proper order and sets up, control module is used for controlling yellow analog lamp with the connected state of battery.

In some embodiments of this application embodiment, the signal lamp includes green signal lamp, the light of green signal lamp when shining is green, the analog lamp includes green analog lamp, the light of green analog lamp when shining is green, green signal lamp green analog lamp control module the battery establishes ties in proper order and sets up, control module is used for control green analog lamp with the connection status of battery.

In some embodiments of the embodiment of the application, the marine navigation signal lamp control system further comprises a buzzer, the buzzer is arranged in the cabin, the signal lamp, the simulation lamp, the buzzer, the control module and the storage battery are sequentially connected in series, and the control module is used for controlling the connection state of the buzzer and the storage battery.

In some embodiments of this application embodiment, the signal lamp includes red signal lamp, the light of red signal lamp when shining is red, the simulated lamp includes red simulated lamp, the light of red simulated lamp when shining is red, bee calling organ includes red bee calling organ, red bee calling organ suggestion red lamp is bright when the sound production, red signal lamp red simulated lamp red bee calling organ the controller the battery sets up in proper order in series, control module is used for control red bee calling organ with the connection status of battery.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of a marine navigation signal lamp control system in an embodiment of the present application.

Reference numerals:

110. a red signal lamp; 120. a yellow signal lamp; 130. a green signal lamp; 210. a white analog lamp; 220. a red analog lamp; 230. a yellow analog lamp; 240. a green analog lamp; 310. a red buzzer; 320. a yellow buzzer; 330. a green buzzer; 410. a guide rail; 420. a slider; 430. a first fixed contact; 440. a second fixed contact; 450. a third fixed contact; 460. a fourth fixed contact; 500. and (4) a storage battery.

Detailed Description

Embodiments of the present application are described in further detail below with reference to the figures and examples, and the terminology used in the description of the embodiments of the present application is for the purpose of describing particular embodiments of the present application only and is not intended to be limiting of the present application.

In an embodiment of the present application, a marine navigation signal lamp control system is provided, including a signal lamp, an analog lamp, a control module, and a storage battery 500; the signal lamp is arranged outside the cabin and on the top of the ship, and the analog lamp, the control module and the storage battery 500 are arranged in the cabin; the signal lamp, the simulation lamp, the control module and the storage battery 500 are sequentially connected in series; the control module is used for controlling the connection state of the analog lamp and the storage battery 500.

Through the above-mentioned embodiment of this embodiment, among the ship navigation process, the crew passes through control module control simulation lamp and battery 500's connected state in the cabin, when simulation lamp and battery 500 communicate, the signal lamp on ship top is luminous with the simulation lamp in the cabin in step, because the simulation lamp, control module, battery 500 establishes ties and sets up, when signal lamp trouble or circuit disconnection or battery 500 do not have the electricity, the signal lamp does not work, the simulation lamp is also not bright simultaneously, the crew can be directly perceived convenient judgement signal lamp's true operating condition in the cabin. Under the condition that the marine signal lamp does not work in an expected working state due to the fact that the marine signal lamp is damaged, the line of the marine signal lamp is damaged, the power supply (the storage battery 500) of the marine signal lamp is out of power and the like, the marine signal lamp is beneficial to avoiding that a crewman cannot timely notice that normal interaction cannot be carried out with other ships.

In some embodiments of the present embodiment, the signal lamp includes a red signal lamp 110, light of the red signal lamp 110 when being lighted is red, the simulation lamp includes a red simulation lamp 220, light of the red simulation lamp 220 when being lighted is red, the red signal lamp 110, the red simulation lamp 220, the control module, and the storage battery 500 are sequentially connected in series, and the control module is configured to control a connection state of the red simulation lamp 220 and the storage battery 500.

With the above-described embodiment of the present embodiment, the light emission color of the signal lamp is the same as the light emission color of the analog lamp, which is helpful for the crew to determine the light emission color of the signal lamp or which color the signal lamp is to emit light by the red analog lamp 220. The red signal lamp 110 is used for warning emergency signals, such as that the ship needs to be rescued in case of emergency or warning the water area where other ships are located is at risk or warning the other ships are at risk on the underway.

In some embodiments of the present embodiment, the signal lamp includes a yellow signal lamp 120, the light of the yellow signal lamp 120 when being lit is yellow, the analog lamp includes a yellow analog lamp 230, the light of the yellow analog lamp 230 when being lit is yellow, the yellow signal lamp 120, the yellow analog lamp 230, the control module, and the battery 500 are sequentially and serially connected, and the control module is configured to control a connection state between the yellow analog lamp 230 and the battery 500.

With the above-described embodiment of the present embodiment, the light emission color of the traffic light is the same as the light emission color of the analog light, which helps the crew to determine the light emission color of the traffic light or which color the traffic light is to emit by the yellow analog light 230. The yellow signal light 120 is used to alert important signals, such as that the vessel is at a safe distance from other vessels, alerting the other vessels to sail normally but no longer near as is practical.

In some embodiments of this embodiment, the signal lamp includes green signal lamp 130, and the light of green signal lamp 130 when shining is green, and the analog lamp includes green analog lamp 240, and the light of green analog lamp 240 when shining is green, and green signal lamp 130, green analog lamp 240, control module, battery 500 establish ties in proper order and set up, and control module is used for controlling green analog lamp 240 and battery 500's connected state.

With the above-described embodiment of the present embodiment, the light emission color of the signal lamp is the same as the light emission color of the analog lamp, which is helpful for the crew to determine the light emission color of the signal lamp or which color the signal lamp is to emit light by the green analog lamp 240. The green signal lamp 130 is used to alert general signals such as a ship to alert other ships of the location of the ship or to let other ships observe the ship.

In some embodiments of this embodiment, the marine navigation light control system further includes a buzzer, the buzzer is disposed in the cabin, the signal light, the analog light, the buzzer, the control module, and the storage battery 500 are sequentially connected in series, and the control module is configured to control a connection state between the buzzer and the storage battery 500.

Through the above embodiment of the embodiment, during the sailing process of the ship, a crew may need to observe the signal lamps of other ships or observe the real-time conditions of the water area, and the sight line is difficult to be transferred to the analog lamp, so that the real working state of the signal lamps can be heard through the buzzer.

In some embodiments of the present embodiment, the signal lamp includes a red signal lamp 110, light of the red signal lamp 110 when being lit is red, the analog lamp includes a red analog lamp 220, light of the red analog lamp 220 when being lit is red, the buzzer includes a red buzzer 310, the red buzzer 310 prompts that the red lamp is lit when sounding, the red signal lamp 110, the red analog lamp 220, the red buzzer 310, the controller, and the storage battery 500 are sequentially connected in series, and the control module is configured to control a connection state of the red buzzer 310 and the storage battery 500.

In some embodiments of the present embodiment, the signal lamp includes a yellow signal lamp 120, light of the yellow signal lamp 120 when the yellow signal lamp is lit is yellow, the analog lamp includes a yellow analog lamp 230, light of the yellow analog lamp 230 when the yellow analog lamp is lit is yellow, the buzzer includes a yellow buzzer 320, the yellow buzzer 320 prompts the yellow lamp to light when sounding, the yellow signal lamp 120, the yellow analog lamp 230, the yellow buzzer 320, the controller, and the storage battery 500 are sequentially connected in series, and the control module is configured to control a connection state of the yellow buzzer 320 and the storage battery 500.

In some embodiments of this embodiment, the signal lamp includes green signal lamp 130, the light of green signal lamp 130 when shining is green, the analog lamp includes green analog lamp 240, the light of green analog lamp 240 when shining is green, the buzzer includes green buzzer 330, green buzzer 330 prompts green lamp when the sound production to light, green signal lamp 130, green analog lamp 240, green buzzer 330, the controller, battery 500 sets up in series in proper order, control module is used for controlling green buzzer 330 and battery 500's connected state.

In some embodiments of the present embodiment, the signal lights include a red signal light 110, a yellow signal light 120, a green signal light 130; the analog lamps include a white analog lamp 210, a red analog lamp 220, a yellow analog lamp 230, and a green analog lamp 240; the marine navigation signal lamp control system further comprises a buzzer, wherein the buzzer is arranged in the cabin and comprises a red buzzer 310, a yellow buzzer 320 and a green buzzer 330; the white simulation lamp 210, the control module and the storage battery 500 are sequentially connected in series; the red signal lamp 110, the red simulation lamp 220, the red buzzer 310, the control module and the storage battery 500 are sequentially connected in series, the yellow signal lamp 120, the yellow simulation lamp 230, the yellow buzzer 320, the control module and the storage battery 500 are sequentially connected in series, and the green signal lamp 130, the green simulation lamp 240, the green buzzer 330, the control module and the storage battery 500 are sequentially connected in series; the control module is used for controlling the connection state of the white simulation lamp 210 and the storage battery 500, controlling the connection state of the red buzzer 310 and the storage battery 500, controlling the connection state of the yellow buzzer 320 and the storage battery 500, and controlling the connection state of the green buzzer 330 and the storage battery 500.

With the above embodiment of the present embodiment, when the white analog lamp 210 is turned on, all the signal lamps are turned off, and the light when the white analog lamp 210 emits light is white, so as to prompt that the signal lamps on the tops of the crew members in the cabin do not emit light.

In some implementations of the present embodiment, the control module includes a rail 410, a slider 420, a first fixed contact 430, a second fixed contact 440, a third fixed contact 450, a fourth fixed contact 460, a moving contact; the sliding block 420 is connected with the guide rail 410 in a sliding way, and the sliding block 420 can switch the first fixed contact 430 to be connected with the moving contact or the second fixed contact 440 to be connected with the moving contact or the third fixed contact 450 to be connected with the moving contact or the fourth fixed contact 460 to be connected with the moving contact after sliding relative to the guide rail 410; when the first fixed contact 430 is connected with the moving contact, the white analog lamp 210, the first fixed contact 430, the moving contact, and the battery 500 are sequentially connected in series; when the second fixed contact 440 is connected with the moving contact, the red buzzer 310, the second fixed contact 440, the moving contact and the storage battery 500 are sequentially connected in series; when the third fixed contact 450 is connected with the movable contact, the yellow buzzer 320, the third fixed contact 450, the movable contact and the storage battery 500 are sequentially connected in series; when the fourth fixed contact 460 is connected to the movable contact, the green buzzer 330, the fourth fixed contact 460, the movable contact, and the battery 500 are sequentially connected in series.

The above examples are only for explaining the present application and are not intended to limit the present application, and those skilled in the art can make modifications to the embodiments of the present application without inventive contribution as needed after reading the present specification, but are protected by patent laws within the scope of the claims of the present application.

Claims (10)

1. A marine navigation signal lamp control system is characterized by comprising a signal lamp, a simulation lamp, a control module and a storage battery; the signal lamp is arranged outside the cabin and positioned on the top of the ship, and the simulation lamp, the control module and the storage battery are arranged in the cabin; the signal lamp, the simulation lamp, the control module and the storage battery are sequentially connected in series; the control module is used for controlling the connection state of the analog lamp and the storage battery.

2. The marine navigation signal lamp control system of claim 1, wherein the signal lamp comprises a red signal lamp, the red signal lamp emits red light, the analog lamp comprises a red analog lamp, the red analog lamp emits red light, the red signal lamp, the red analog lamp, the control module and the battery are sequentially connected in series, and the control module is configured to control a connection state between the red analog lamp and the battery.

3. The marine navigation signal lamp control system according to claim 1, wherein the signal lamp comprises a yellow signal lamp, the yellow signal lamp emits yellow light when illuminated, the analog lamp comprises a yellow analog lamp, the yellow analog lamp emits yellow light when illuminated, the yellow signal lamp, the yellow analog lamp, the control module and the battery are sequentially connected in series, and the control module is configured to control a connection state of the yellow analog lamp and the battery.

4. The marine navigation signal lamp control system of claim 1, wherein the signal lamp comprises a green signal lamp, the light of the green signal lamp when the green signal lamp is lighted is green, the analog lamp comprises a green analog lamp, the light of the green analog lamp when the green analog lamp is lighted is green, the green signal lamp, the green analog lamp, the control module and the storage battery are sequentially connected in series, and the control module is used for controlling the connection state of the green analog lamp and the storage battery.

5. The marine navigation signal lamp control system according to any one of claims 1 to 4, further comprising a buzzer, wherein the buzzer is disposed in the cabin, the signal lamp, the analog lamp, the buzzer, the control module and the storage battery are sequentially connected in series, and the control module is configured to control a connection state of the buzzer and the storage battery.

6. The marine navigation signal lamp control system of claim 5, wherein the signal lamp comprises a red signal lamp, the red signal lamp emits red light, the analog lamp comprises a red analog lamp, the red analog lamp emits red light, the buzzer comprises a red buzzer, the red buzzer prompts the red signal lamp to emit light when sounding, the red signal lamp, the red analog lamp, the red buzzer, the controller and the storage battery are sequentially connected in series, and the control module is used for controlling the connection state of the red buzzer and the storage battery.

7. The marine navigation signal lamp control system of claim 5, wherein the signal lamp comprises a yellow signal lamp, the yellow signal lamp emits yellow light when emitting light, the analog lamp comprises a yellow analog lamp, the yellow analog lamp emits yellow light when emitting light, the buzzer comprises a yellow buzzer, the yellow buzzer prompts the yellow lamp to emit light when emitting sound, the yellow signal lamp, the yellow analog lamp, the yellow buzzer, the controller and the storage battery are sequentially connected in series, and the control module is configured to control a connection state of the yellow buzzer and the storage battery.

8. The marine navigation signal lamp control system of claim 5, wherein the signal lamp comprises a green signal lamp, the light of the green signal lamp when the green signal lamp is lighted is green, the analog lamp comprises a green analog lamp, the light of the green analog lamp when the green analog lamp is lighted is green, the buzzer comprises a green buzzer, the green buzzer prompts the green lamp to be lighted when sounding, the green signal lamp, the green analog lamp, the green buzzer, the controller and the storage battery are sequentially arranged in series, and the control module is used for controlling the connection state of the green buzzer and the storage battery.

9. The marine navigation signal light control system of claim 1, wherein the signal lights include a red signal light, a yellow signal light, a green signal light; the simulation lamps comprise a white simulation lamp, a red simulation lamp, a yellow simulation lamp and a green simulation lamp; the marine navigation signal lamp control system further comprises a buzzer, wherein the buzzer is arranged in the cabin and comprises a red buzzer, a yellow buzzer and a green buzzer; the white simulation lamp, the control module and the storage battery are sequentially connected in series; the red signal lamp, the red simulation lamp, the red buzzer, the control module and the storage battery are sequentially arranged in series, the yellow signal lamp, the yellow simulation lamp, the yellow buzzer, the control module and the storage battery are sequentially arranged in series, and the green signal lamp, the green simulation lamp, the green buzzer, the control module and the storage battery are sequentially arranged in series; the control module is used for controlling the connection state of the white simulation lamp and the storage battery, controlling the connection state of the red buzzer and the storage battery, controlling the connection state of the yellow buzzer and the storage battery, and controlling the connection state of the green buzzer and the storage battery.

10. The marine navigation signal lamp control system of claim 9, wherein the control module comprises a guide rail, a slider, a first fixed contact, a second fixed contact, a third fixed contact, a fourth fixed contact, and a moving contact; the sliding block is connected with the guide rail in a sliding manner, and the sliding block can switch the first fixed contact to be connected with the movable contact or the second fixed contact to be connected with the movable contact or the third fixed contact to be connected with the movable contact or the fourth fixed contact to be connected with the movable contact after sliding relative to the guide rail; when the first fixed contact is connected with the movable contact, the white simulation lamp, the first fixed contact, the movable contact and the storage battery are sequentially connected in series; when the second fixed contact is connected with the movable contact, the red buzzer, the second fixed contact, the movable contact and the storage battery are sequentially connected in series; when the third fixed contact is connected with the movable contact, the yellow buzzer, the third fixed contact, the movable contact and the storage battery are sequentially connected in series; when the fourth fixed contact is connected with the movable contact, the green buzzer, the fourth fixed contact, the movable contact and the storage battery are sequentially connected in series.

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