CN203946244U

CN203946244U - Channel buoy anchoring system

Info

Publication number: CN203946244U
Application number: CN201420377322.3U
Authority: CN
Inventors: 印黄燕; 莫丽琴; 孙方霞; 季明丽
Original assignee: Jiangsu Maritime Institute
Current assignee: Jiangsu Maritime Institute
Priority date: 2014-07-09
Filing date: 2014-07-09
Publication date: 2014-11-19
Anticipated expiration: 2024-07-09

Abstract

The utility model provides a kind of channel buoy anchoring system, comprise buoy, hawser, rope winch, mooring anchor, tension pick-up, pressure sensor, wireless signal transmitting module and controller, when the tension force of hawser surpasses setting value, controller starts rope winch hawser is lengthened, the tension force of consecutive victories is reduced, when the tension force of hawser is decreased to setting value, controller cuts out rope winch; When the tension force of hawser is less than setting value, controller starts rope winch hawser is shunk, and the tension force of hawser is increased, and when the tension force of hawser is increased to setting value, controller cuts out rope winch.The utility model is adjusted the length of rope with rope winch, with tension pick-up and hydraulic pressure sensor, weigh the depth of water level, make buoy consistent with water level all the time with the rope lengths between water-bed mooring anchor, buoy is unlikely floating everywhere, and unlikely do not had by water logging yet.Be provided with LED lamp and be convenient to navigation at night.

Description

Channel buoy anchoring system

Technical field

The utility model relates to a kind of channel buoy, relates in particular to a kind of channel buoy anchoring system.

Background technology

Channel buoy refers to and is anchored on fixed position, in order to indicate the water surface navigating mark of navigation channel scope.Conventional channel buoy is that buoy is fixed on to the bottom with rope at present, and rope lengths is fixed, and when water level is shallow, rope is long, and buoy can wave everywhere, and when water level is dark, rope is too short, and buoy can not had by water logging, does not have the effect in indication navigation channel.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned the deficiencies in the prior art, the channel buoy anchoring system that provides a kind of rope lengths to adjust according to water level.

For realizing above-mentioned technical purpose, the technical scheme that the utility model is taked is:

A kind of channel buoy anchoring system, comprise buoy, hawser, rope winch, mooring anchor, tension pick-up, hydraulic pressure sensor, wireless signal transmitting module and controller, described buoy is connected with mooring anchor by hawser, rope winch is arranged on hawser for adjusting cable length, described tension pick-up is located on hawser and by signal wire (SW) and is electrically connected to controller, and described pressure sensor is located on buoy and by signal wire (SW) and is electrically connected to controller; Described controller is located on buoy and with rope winch and is electrically connected to; Described tension pick-up is for detection of the tension force of hawser and send tension signal to controller, and described pressure sensor sends controller to for detection of hydraulic pressure and by hydraulic signal; When the tension force of hawser surpasses setting value, controller starts rope winch hawser is lengthened, and the tension force of consecutive victories is reduced, and when the tension force of hawser is decreased to setting value, controller cuts out rope winch; When the tension force of hawser is less than setting value, controller starts rope winch hawser is shunk, and the tension force of hawser is increased, and when the tension force of hawser is increased to setting value, controller cuts out rope winch; Described controller and wireless signal transmitting module are electrically connected to, and controller sends hydraulic signal in real time by wireless signal transmitting module.

As the preferred technical scheme of the utility model, also comprise LED lamp, solar panel and TunePower, solar panel is located at buoy end face, and for charging to TunePower, LED lamp is located on buoy, and controller is controlled the opening and closing of LED lamp; TunePower is electrically connected to controller, wireless signal transmitting module and rope winch respectively and is controller, wireless signal transmitting module and the power supply of rope winch.

As the preferred technical scheme of the utility model, described hawser is steel cable.

The utility model is adjusted the length of rope with rope winch, detect the tension force of hawser with tension pick-up as detecting device, usings the foundation of controlling as controller, and adopts pressure sensor carrys out the depth of real-time sensed water level and by sending.When water level shoals, rope tension diminishes, rope winch is about to rope and rolls a part, and when water level deepens, buoy is not had by water logging, it is large that rope tension becomes, rope winch is about to rope and releases a part, makes buoy consistent with water level all the time with the rope lengths between water-bed mooring anchor, and buoy is unlikely floating everywhere, unlikely do not had by water logging, is provided with LED lamp and is convenient to navigation at night yet.The utility model can be adjusted automatically according to the variation of water level the length of hawser in a word, so that the tension force of hawser maintains setting value.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is structural framing figure of the present utility model.

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is described further.

The specific embodiment

Embodiment 1

Referring to Fig. 1 and Fig. 2, this channel buoy anchoring system, comprise buoy 1, hawser 2, rope winch 3, mooring anchor 4, tension pick-up 5, pressure sensor 6, wireless signal transmitting module and controller 7, described buoy 1 is connected with mooring anchor 4 by hawser 2, rope winch 3 is arranged on hawser 2 for adjusting hawser 2 length, described tension pick-up 5 is located on hawser 2 and by signal wire (SW) and is electrically connected to controller 7, and described pressure sensor 6 is located on buoy 1 and by signal wire (SW) and is electrically connected to controller 7; Described controller 7 is located on buoy 1 and with rope winch 3 and is electrically connected to; Described tension pick-up 5 is for detection of the tension force of hawser 2 and send tension signal to controller 7, and described pressure sensor 6 sends controller 7 to for detection of hydraulic pressure and by hydraulic signal; When the tension force of hawser 2 surpasses setting value, controller 7 starts rope winch 3 hawser 2 is lengthened, and the tension force of hawser 2 is reduced, and when the tension force of hawser 2 is decreased to setting value, controller 7 cuts out rope winch 3; When the tension force of hawser 2 is less than setting value, controller 7 starts rope winch 3 hawser 2 is shunk, and the tension force of hawser 2 is increased, and when the tension force of hawser 2 is increased to setting value, controller 7 cuts out rope winch 3; Described controller 7 and wireless signal transmitting module are electrically connected to, and controller 7 sends hydraulic signal in real time by wireless signal transmitting module.

Also comprise LED lamp 8, solar panel 9 and TunePower 10, solar panel 9 is located at buoy 1 end face, and for giving TunePower 10 chargings, LED lamp 8 is located on buoy 1, and controller 7 is controlled the opening and closing of LED lamp 8; TunePower 10 is electrically connected to controller 7, wireless signal transmitting module and rope winch 3 respectively and is controller 7, wireless signal transmitting module and rope winch power supply 8.As preferred version, described hawser 2 is steel cable.

At ordinary times; buoy wafts at the water surface; mooring anchor is fixed on the bottom, by rope by buoy restriction within the specific limits, when water level shoals; line relaxation; the rope tension value that tension pick-up records diminishes, and tension pick-up sends data to micro controller system, after being less than predetermined value, micro controller system judgement rope tension sends a signal to rope winch; control rope winch rope is rolled, until the rope tension value that tension pick-up records stops while reaching predetermined value.When water level deepens; buoy is not had by water logging; pressure sensor is not had by water logging; the rope tension value that tension pick-up records becomes large; pressure sensor detects hydraulic pressure; controller sends a signal to rope winch simultaneously yet, control rope winch rope is emitted, until the rope tension value that tension pick-up records reaches predetermined value.Pressure sensor sends numerical value to controller, controller can convert hydraulic signal to pressure sensor and be positioned at the degree of depth below the water surface, again depth signal is sent liquid level signal in real time by wireless signal transmitting module, or directly pressure signal is sent liquid level signal in real time by wireless signal transmitting module, for real-time detection, and compare with tension signal, with the variation that judges both whether one to.The built-in time module of micro controller system, is set in order LED lamp in time period in evening and opens, and 18:00-6:00 for example, for passing boats and ships are indicated navigation channel.

Rope winch, tension pick-up, hydraulic pressure sensor, micro controller system, LED lamp, wireless signal transmitting module, solar panel and TunePower all adopt prior art, and need carry out water-proofing treatment measure.

Claims

1. a channel buoy anchoring system, comprise buoy, hawser, rope winch, mooring anchor, tension pick-up, pressure sensor, wireless signal transmitting module and controller, described buoy is connected with mooring anchor by hawser, rope winch is arranged on hawser for adjusting cable length, described tension pick-up is located on hawser and by signal wire (SW) and is electrically connected to controller, and described pressure sensor is located on buoy and by signal wire (SW) and is electrically connected to controller; Described controller is located on buoy and with rope winch and is electrically connected to; Described tension pick-up is for detection of the tension force of hawser and send tension signal to controller, and described pressure sensor sends controller to for detection of hydraulic pressure and by hydraulic signal; When the tension force of hawser surpasses setting value, controller starts rope winch hawser is lengthened, and the tension force of consecutive victories is reduced, and when the tension force of hawser is decreased to setting value, controller cuts out rope winch; When the tension force of hawser is less than setting value, controller starts rope winch hawser is shunk, and the tension force of hawser is increased, and when the tension force of hawser is increased to setting value, controller cuts out rope winch; Described controller and wireless signal transmitting module are electrically connected to, and controller sends hydraulic signal in real time by wireless signal transmitting module.

2. channel buoy anchoring system according to claim 1, it is characterized in that: also comprise LED lamp, solar panel and TunePower, solar panel is located at buoy end face, for charging to TunePower, LED lamp is located on buoy, and controller is controlled the opening and closing of LED lamp; TunePower is electrically connected to controller, wireless signal transmitting module and rope winch respectively and is controller, wireless signal transmitting module and the power supply of rope winch.

3. channel buoy anchoring system according to claim 1 and 2, is characterized in that: described hawser is steel cable.