技术领域technical field
本实用新型涉及一种用于远海信息传递的浮动式多功能信号塔,属于信号塔技术领域。The utility model relates to a floating multifunctional signal tower used for high sea information transmission, which belongs to the technical field of signal towers.
背景技术Background technique
信号塔是网络运营商建立的一种信号发射装置,在通信传播中起着中继器的作用,又是指在一定的无线电覆盖区域中,通过通信交换中心,与移动电话终端之间进行信息传递的无线电收发信电台。在无线城市普及以后,信号塔又成为了城市WIFI的信号发射基点。信号塔在内地应用广泛,在近海岸区域也会有信号塔的信号覆盖,而在远海区域并且远离岛屿的地区,由于缺少土地这一客观条件,没有信号塔,所以几乎没有无线网络。对于远海工作平台以及远洋航行船上的工作人员来说,除了进行卫星电话通信外,无法与内地联系,十分不方便。The signal tower is a signal transmitting device established by the network operator, which plays the role of a repeater in the communication transmission, and refers to the transmission of information between the communication switching center and the mobile phone terminal in a certain radio coverage area. Transmitting radio transceiver station. After the popularity of wireless cities, signal towers have become the base point for signal transmission of urban WIFI. Signal towers are widely used in the mainland, and there will be signal coverage of signal towers in coastal areas, while in remote sea areas and areas far away from islands, due to the objective condition of lack of land, there are no signal towers, so there is almost no wireless network. It is very inconvenient for the staff on the offshore working platforms and ocean-going vessels to communicate with the inland except for satellite phone communication.
灯塔自古就存在于广泛的沿海港岸,作为固定航标,用以照明、引导船舶航行和指示危险区域,虽然由于DGPS系统等导航系统的建立,其导航作用被弱化,但是其给予茫茫大海中的船员的心理安慰作用是数据导航所无法替代的,而在远海区域,建于陆地上的灯塔则无法存在。Lighthouses have existed in a wide range of coastal ports since ancient times. As fixed navigation marks, they are used to illuminate, guide ships and indicate dangerous areas. The psychological comfort of the crew cannot be replaced by data navigation, and in the far sea area, lighthouses built on land cannot exist.
浮动式信号塔在海中,若工作人员需要到达塔顶区域进行维修等工作,传统的方法是攀登,但是,各种海洋环境力不可避免的使信号塔发生平移、摇摆、浮沉等运动,威胁到工作人员的安全。The floating signal tower is in the sea. If the staff need to reach the top area of the tower for maintenance and other work, the traditional method is to climb. However, various marine environmental forces will inevitably cause the signal tower to move, sway, float, etc., threatening Staff safety.
发明内容Contents of the invention
针对现有技术的不足,本实用新型提供了一种用于远海信息传递的浮动式多功能信号塔。Aiming at the deficiencies of the prior art, the utility model provides a floating multi-functional signal tower for high sea information transmission.
本实用新型存在于远海区域的大海之中,建立信号发射基点,完成信号传输。The utility model exists in the sea in the far sea area, and establishes a base point for signal emission to complete signal transmission.
本实用新型的技术方案为:The technical scheme of the utility model is:
一种用于远海信息传递的浮动式多功能信号塔,包括防波浪装置及部分设置在其中的信号塔系统,所述信号塔系统包括避雷针、信号塔主体、天线、升降平台、控制室、第一张力腿系统,所述避雷针设置在所述信号塔主体的顶端,所述天线设置在所述信号塔主体的横梁上,所述信号塔主体的中部设有所述升降平台,所述升降平台下部连接所述控制室,所述信号塔主体的底部设有所述第一张力腿系统,所述控制室包括动力系统、变速箱、刹车系统、第一滚筒,所述升降平台包括载人平台、若干个小滑轮、1个大滑轮、塔外绳、塔内绳,若干个小滑轮分成两组,两组的小滑轮通过支架分别固定在所述信号塔主体的左、右两侧,所述塔外绳的一端固定在所述控制室上,依次绕过其中一组的小滑轮、大滑轮、另一组的小滑轮,另一端固定在所述控制室内,大滑轮位于连接两组小滑轮之间的塔外绳上,绕过两组小滑轮的塔外绳上固定所述载人平台,支撑大滑轮的塔外绳处垂直连接所述塔内绳的一端,所述塔内绳的另一端连接所述第一滚筒。A floating multifunctional signal tower used for information transmission in the open sea, including a wave-proof device and a signal tower system partially installed therein, the signal tower system includes a lightning rod, a signal tower main body, an antenna, a lifting platform, a control room, a second A tension leg system, the lightning rod is arranged on the top of the main body of the signal tower, the antenna is arranged on the beam of the main body of the signal tower, the middle part of the main body of the signal tower is provided with the lifting platform, and the lifting platform The lower part is connected to the control room, the bottom of the main body of the signal tower is provided with the first tension leg system, the control room includes a power system, a gearbox, a braking system, and a first roller, and the lifting platform includes a manned platform , several small pulleys, 1 large pulley, tower outer rope, tower inner rope, several small pulleys are divided into two groups, and the small pulleys of the two groups are respectively fixed on the left and right sides of the main body of the signal tower through brackets. One end of the outer rope of the tower is fixed on the control room, and one of the small pulleys, the large pulley, and the other set of small pulleys are passed around in turn, and the other end is fixed in the control room. On the tower outer rope between the pulleys, the manned platform is fixed on the tower outer rope bypassing two groups of small pulleys, and the tower outer rope supporting the large pulley is vertically connected to one end of the tower inner rope, and the tower inner rope The other end is connected to the first roller.
通过动力系统输入动力,经过变速箱变速后将转动传到第一滚筒,使第一滚筒旋转,塔内绳升高或者降低,塔内绳在大滑轮处与塔外绳连接,塔外绳通过小滑轮将传动方向改变,塔外绳与升降平台相连接,从而使载人平台完成升降工作。若需要将升降平台制动,则启动刹车系统。该浮动式信号塔在海中,通过此升降平台实现使工作人员到达信号塔的任意高度位置,方便工作人员作业,并保证了安全性。The power is input through the power system, and the rotation is transmitted to the first drum after being shifted by the gearbox, so that the first drum rotates, and the tower inner rope is raised or lowered. The tower inner rope is connected with the tower outer rope at the large pulley, and the tower outer rope passes through. The small pulley changes the transmission direction, and the rope outside the tower is connected with the lifting platform, so that the manned platform can complete the lifting work. If the lifting platform needs to be braked, the brake system is activated. The floating signal tower is in the sea, and the staff can reach any height position of the signal tower through the lifting platform, which is convenient for the staff to work and ensures safety.
远海区域天气复杂多变,恶劣天气经常发生,而浮动式信号塔作为较高单一建筑,在大海中很容易成为雷电集中的目标,因此需要在浮动式信号塔顶部安装避雷针,将雷电引入大海之中。避雷针通过螺栓连接于信号塔主体的顶端,引线通过信号塔筒壁内部引至第一浮筒边缘,电流最终通入大海。The weather in the remote sea area is complex and changeable, and severe weather often occurs. As a tall single building, the floating signal tower is easy to become the target of concentrated lightning in the sea. Therefore, it is necessary to install a lightning rod on the top of the floating signal tower to guide the lightning into the sea. middle. The lightning rod is connected to the top of the main body of the signal tower through bolts, and the lead wire is led to the edge of the first buoy through the inner wall of the signal tower, and the current finally flows into the sea.
根据本实用新型优选的,所述第一张力腿系统包括第一浮筒、第一张力腿、第一桩锚,所述信号塔主体的底部设有所述第一浮筒,所述第一浮筒底部设有若干个第一张力腿,所述第一张力腿底部设有第一桩锚。Preferably according to the present invention, the first tension leg system includes a first buoy, a first tension leg, and a first pile anchor, the bottom of the main body of the signal tower is provided with the first buoy, and the bottom of the first buoy is Several first tension legs are provided, and first pile anchors are provided at the bottom of the first tension legs.
根据本实用新型优选的,所述第一浮筒包括中心达立柱浮筒、若干个伸张腿浮筒,所述信号塔主体的底部连接所述中心达立柱浮筒,所述中心达立柱浮筒底部连接若干个所述伸张腿浮筒,所述伸张腿浮筒底部设有所述第一张力腿,所述第一浮筒为中空结构,所述第一浮筒的材质为不锈钢。Preferably, according to the present invention, the first buoy includes a center-reaching column buoy and several outstretched leg buoys, the bottom of the main body of the signal tower is connected to the center-reaching column buoy, and the bottom of the center-reaching column buoy is connected to several The stretching leg buoy, the bottom of the stretching leg buoy is provided with the first tension leg, the first buoy is a hollow structure, and the material of the first buoy is stainless steel.
第一浮筒内部为空心结构,产生远远大于自身重力的浮力,浮力一部分抵消了自身重力以及信号塔各部分重力。剩余浮力与预张力平衡。置于海水中时,第一浮筒的下半部分沉入海中,上半部分浮于海面之上,第一张力腿与第一浮筒和第一桩锚连接,预张力作用在垂直第一张力腿上,使第一张力腿时刻处于受张拉的绷紧状态。使该浮动式信号塔的横摇、纵摇、垂荡运动较小,保证了信号塔的稳定性。第一桩锚与第一张力腿相连,固定于海底,决定了该浮动式信号塔所处的地理位置,通过第一浮筒、第一张力腿、第一桩锚组成的第一张力腿系统为信号塔正常工作提供一个相对平稳安全的工作环境。The inside of the first buoy is a hollow structure, which generates buoyancy far greater than its own gravity, and part of the buoyancy offsets its own gravity and the gravity of each part of the signal tower. Residual buoyancy is balanced with pretension. When placed in seawater, the lower part of the first buoy sinks into the sea, and the upper part floats on the sea surface. The first tension leg is connected with the first buoy and the first pile anchor, and the pretension acts on the vertical first tension leg. , so that the first tension leg is always in a tensioned state. The rolling, pitching and heaving motions of the floating signal tower are made small, thereby ensuring the stability of the signal tower. The first pile anchor is connected with the first tension leg and fixed on the seabed, which determines the geographical location of the floating signal tower. The first tension leg system composed of the first buoy, the first tension leg and the first pile anchor is The normal operation of the signal tower provides a relatively stable and safe working environment.
根据本实用新型优选的,所述信号塔主体的横梁上还设有太阳能发电板、海上气象检测仪,所述信号塔主体上还设有风力发电系统。Preferably, according to the utility model, the beam of the main body of the signal tower is also equipped with a solar power generation panel and a marine meteorological detector, and the main body of the signal tower is also equipped with a wind power generation system.
太阳能发电板为SOLARPRO品牌的SP260W型号的太阳能发电板,海上气象检测仪为型号为XZC2-2SA型的船用海洋气象测报仪,风力发电系统为150KW风力发电机。The solar power generation panel is a SP260W solar power generation panel of the SOLARPRO brand, the marine meteorological detector is a marine marine meteorological forecasting instrument of the model XZC2-2SA, and the wind power generation system is a 150KW wind generator.
太阳能发电板用于在白天吸收太阳能发电,并将电储存在蓄电池中。天线用于发射信号,通过螺栓连接在信号塔筒壁的横梁上,通过海上气象检测仪、海流计测得的数据也通过天线发射出去,传达到其他区域或者路过次区域的船只上,使过往船只及时了解该海域的气象以及海域状况,保障通航的安全性。Solar panels are used to absorb solar power during the day and store the electricity in batteries. The antenna is used to transmit signals, and it is connected to the beam on the wall of the signal tower through bolts. The data measured by the marine meteorological detector and the current meter are also transmitted through the antenna and transmitted to other areas or ships passing through the sub-area, so that passing Vessels keep abreast of the weather and conditions of the sea area to ensure the safety of navigation.
由于远海地区天气多变,环境恶劣,需要及时获取浮动式信号塔周围的环境状况,海上气象检测仪通过螺栓固定于信号塔筒壁上,可以用来测量该附近海域的风速、风向、温度、湿度的气象状况,并将测量数据传送到数据控制柜、数据控制柜在处理完信息后将气象信息通过天线传送出去。Due to the changeable weather and harsh environment in the remote sea area, it is necessary to obtain the environmental conditions around the floating signal tower in time. The marine weather detector is fixed on the wall of the signal tower through bolts, which can be used to measure the wind speed, wind direction, temperature, Humidity meteorological conditions, and the measurement data is transmitted to the data control cabinet, and the data control cabinet transmits the meteorological information through the antenna after processing the information.
风力发电系统位于天线下部,利用远海区域经常风大浪急的特征,安装风力发电系统用来发电并将电储存于蓄电池中,该浮动式信号塔运作所需的电力大部分由风力发电系统提供。The wind power generation system is located at the lower part of the antenna. Taking advantage of the frequent wind and rough seas in the remote sea area, a wind power generation system is installed to generate electricity and store the electricity in the battery. Most of the power required for the operation of the floating signal tower is provided by the wind power generation system.
根据本实用新型优选的,所述信号塔主体的顶部设有信号灯。Preferably, according to the utility model, the top of the main body of the signal tower is provided with a signal light.
信号灯用以指引船舶航行并且在黑夜提醒船舶,防止过往船只撞击浮动式信号塔。Signal lights are used to guide ships and remind ships in the dark to prevent passing ships from hitting floating signal towers.
根据本实用新型优选的,所述控制室还包括蓄电池、工具箱、数据控制柜,所述蓄电池分别连接所述动力系统、所述变速箱、所述刹车系统、所述第一滚筒、所述数据控制柜,由所述蓄电池为所述动力系统提供电源,所述动力系统的输出轴连接变速箱的输入轴,经变速后由所述变速箱的输出轴连接所述第一滚筒,在所述第一滚筒两端安装所述刹车系统,使第一滚筒制动。Preferably according to the present invention, the control room further includes a storage battery, a tool box, and a data control cabinet, and the storage battery is respectively connected to the power system, the gearbox, the braking system, the first roller, the In the data control cabinet, the battery provides power for the power system, the output shaft of the power system is connected to the input shaft of the gearbox, and the output shaft of the gearbox is connected to the first roller after the speed is changed. The brake system is installed at both ends of the first roller to brake the first roller.
工具箱主要存放维修信号塔设备的常用工具。数据控制柜主要是对从海上气象检测仪以及海流计得到的数据进行数据收集、处理,并将处理后的数据通过天线发送出去。蓄电池储存太阳能发电板与风力发电系统产生的电力,并为整个平台运作提供动力源。The toolbox mainly stores common tools for repairing signal tower equipment. The data control cabinet mainly collects and processes the data obtained from the marine meteorological detector and current meter, and sends the processed data through the antenna. The storage battery stores the electricity generated by the solar panels and the wind power generation system, and provides the power source for the operation of the entire platform.
根据本实用新型优选的,所述防波浪装置包括从上自下依次连接的防波装置浮筒、防波筒系统以及第二张力腿系统,所述防波装置浮筒包括可伸缩浮筒、若干个牵引装置,所述可伸缩浮筒上设有横梁,所述横梁上设有若干个牵引装置,牵引装置包括第二滚筒、电机、V带、牵引绳,第二滚筒上缠有牵引绳,通过V带连接所述第二滚筒和所述电机;所述防波筒系统包括一级防波筒、可上下移动套在所述一级防波筒内的二级防波筒、限位螺杆,牵引绳连接所述限位螺杆;一级防波筒筒壁内部为空心结构,二级防波筒可从一级防波筒内壁伸出和缩回,牵引绳系于限位螺杆上,限位螺杆与牵引绳系牢处位于一级防波筒底壁上面,限位螺杆穿过一级防波筒并再次穿过二级防波筒,用限位螺母固定于二级防波筒底壁外侧,通过控制限位螺杆运动从而带动二级防波筒从一级防波筒内部伸出或缩回,所述一级防波筒及所述二级防波筒为上下均无盖的立方体结构,所述一级防波筒及所述二级防波筒的筒壁设有若干个面积为0.785-12.56m2的防波孔。所述防波装置浮筒通过焊接在防波装置浮筒2下的连杆连接所述防波筒系统。为防波筒系统提供浮力。Preferably, according to the present invention, the anti-wave device includes a buoy of the anti-wave device, an anti-wave cylinder system and a second tension leg system connected sequentially from top to bottom, and the buoy of the anti-wave device includes a telescopic buoy, several traction device, the telescopic buoy is provided with a beam, and several traction devices are provided on the beam, the traction device includes a second roller, a motor, a V-belt, and a traction rope. Connect the second drum and the motor; the anti-wave cylinder system includes a primary anti-wave cylinder, a secondary anti-wave cylinder that can move up and down in the primary anti-wave cylinder, a limit screw, and a traction rope Connect the limit screw; the inside of the first-level anti-wave cylinder is a hollow structure, the second-level anti-wave can extend and retract from the inner wall of the first-level anti-wave, the traction rope is tied to the limit screw, and the limit screw The fastening place with the traction rope is located on the bottom wall of the first-level wave-proof cylinder, the limit screw passes through the first-level wave-proof cylinder and then through the second-level wave-proof cylinder, and is fixed on the outside of the bottom wall of the second-level wave-proof cylinder with a limit nut , by controlling the movement of the limit screw to drive the secondary anti-wave cylinder to extend or retract from the inside of the primary anti-wave cylinder, the primary anti-wave cylinder and the secondary anti-wave cylinder are cubic structures with no upper and lower covers , the walls of the primary wave-proof cylinder and the secondary wave-proof cylinder are provided with several wave-proof holes with an area of 0.785-12.56m2 . The anti-wave device buoy is connected to the anti-wave system through a connecting rod welded under the buoy 2 of the anti-wave device. Provides buoyancy for the anti-wave tube system.
根据本实用新型优选的,所述防波孔为圆形,半径的取值范围为0.5-2m。Preferably, according to the utility model, the anti-wave hole is circular, and the value range of the radius is 0.5-2m.
通过电机控制第二滚筒转动,从而通过牵引绳控制限位螺杆的运动,控制二级防波筒展开程度,来改变防波孔的大小,控制进入该防波浪装置的海流流量大小。二级防波筒处于完全展开状态时,即不套在一级防波筒外时,防波筒系统体积最大,可以最大程度防波浪,此时其内部信号塔第一张力腿的系泊环境最好。当二级防波筒完全套在一级防波筒外时,为防波筒系统的初始状态,此时其防波孔最大,防波筒系统体积最小,便于对防波筒系统进行运输。当二级防波筒部分套在一级防波筒外,恰好处于一级防波筒上防波孔孔径最小状态时,此时进入防波筒系统内部的海流最小,其内部环境最为稳定。防波筒系统为二级可伸缩防波筒形装置,信号塔位于其中间,海流需穿过防波筒系统才能到达信号塔,可以降低波浪力对信号塔的影响,减缓波浪、洋流对信号塔正常作业的冲击。降低浮动信号塔的平移、浮沉、摇摆运动。使防波筒系统内部的洋流平静下来,大大改善了其内部信号塔的系泊环境。防波孔大小不妨碍小型海洋生物穿行,尊重自然。The motor controls the rotation of the second drum, thereby controlling the movement of the limit screw through the traction rope, and controlling the expansion degree of the secondary anti-wave cylinder to change the size of the anti-wave hole and control the flow of the sea current entering the anti-wave device. When the secondary anti-wave tube is fully deployed, that is, when it is not set outside the primary anti-wave tube, the volume of the anti-wave tube system is the largest, which can prevent waves to the greatest extent. At this time, the mooring environment of the first tension leg of the internal signal tower most. When the secondary anti-wave tube is completely set outside the primary anti-wave tube, it is the initial state of the anti-wave tube system. At this time, the anti-wave hole is the largest, and the volume of the anti-wave tube system is the smallest, which is convenient for transportation of the anti-wave tube system. When the second-level wave-proof tube is partly set outside the first-level wave-proof tube, when the hole diameter of the first-level wave-proof tube is at the minimum, the current entering the interior of the wave-proof tube system is the smallest, and its internal environment is the most stable. The wave-proof tube system is a two-stage retractable wave-proof tube-shaped device, the signal tower is located in the middle, and the ocean current needs to pass through the wave-proof tube system to reach the signal tower, which can reduce the impact of wave force on the signal tower and slow down the impact of waves and ocean currents on the signal The impact of the normal operation of the tower. Reduce translation, ups and downs, and swing motions of floating signal towers. Calms the ocean currents inside the anti-wave tube system, greatly improving the mooring environment of the signal tower inside it. The size of the breakhole does not hinder the passage of small marine life, respecting nature.
根据本实用新型优选的,所述可伸缩浮筒包括第二浮筒、浮筒外挡圈装置、浮筒内挡圈装置,所述浮筒外挡圈装置包括浮筒外挡圈、联轴器、外圈活塞杆、外圈液压缸,所述浮筒内挡圈装置包括浮筒内挡圈、内圈活塞杆、内圈液压缸,所述第二浮筒为有部分缺口的环形中空结构,第二浮筒缺口处一端、所述浮筒外挡圈、所述联轴器、所述外圈活塞杆、所述外圈液压缸、所述第二浮筒缺口处另一端依次连接,与所述浮筒外挡圈装置位置对应处,在所述第二浮筒内设置所述浮筒内挡圈装置,所述浮筒内挡圈、所述内圈活塞杆、所述内圈液压缸依次连接。Preferably according to the present invention, the telescopic buoy includes a second buoy, a buoy outer retaining ring device, and a buoy inner retaining ring device, and the buoy outer retaining ring device includes a buoy outer retaining ring, a coupling, and an outer ring piston rod . Outer ring hydraulic cylinder, the buoy inner retaining ring device includes buoy inner retaining ring, inner ring piston rod, inner ring hydraulic cylinder, the second buoy is an annular hollow structure with a partial gap, one end of the second buoy gap, The outer retaining ring of the buoy, the coupling, the piston rod of the outer ring, the hydraulic cylinder of the outer ring, and the other end of the gap of the second buoy are sequentially connected, corresponding to the position of the outer retaining ring of the buoy , the buoy inner retaining ring device is arranged in the second buoy, and the buoy inner retaining ring, the inner ring piston rod, and the inner ring hydraulic cylinder are sequentially connected.
由液压系统控制内圈液压缸中的内圈活塞杆的伸缩,内圈活塞杆与浮筒内挡圈螺栓连接,从而带动浮筒内挡圈的伸缩,两个浮筒内挡圈均连接有上述连接系统,该连接系统位于第二浮筒的正方形部分的内部,为方便展示内部结构,将右侧第二浮筒隐藏显示出内部结构。由液压系统控制外圈液压缸中的外圈活塞杆的伸缩,外圈活塞杆通过联轴器与浮筒外挡圈连接,从而带动浮筒外挡圈的伸缩,两个浮筒外挡圈也均连接有上述连接系统,该连接系统位于第二浮筒的圆圈部分的内部,为方便展示内部连接结构,也将右侧第二浮筒结构部分隐藏。浮筒外挡圈与浮筒内挡圈均为空心结构,用以增加部分浮筒浮力。The expansion and contraction of the inner ring piston rod in the inner ring hydraulic cylinder is controlled by the hydraulic system, and the inner ring piston rod is connected with the bolts of the inner ring of the buoy to drive the expansion and contraction of the inner ring of the buoy. Both inner rings of the buoy are connected with the above connection system , the connection system is located inside the square part of the second pontoon. In order to facilitate the display of the internal structure, the second pontoon on the right is hidden to display the internal structure. The expansion and contraction of the outer ring piston rod in the outer ring hydraulic cylinder is controlled by the hydraulic system, and the outer ring piston rod is connected with the outer ring of the buoy through a coupling, thereby driving the expansion and contraction of the outer ring of the buoy, and the outer rings of the two buoys are also connected There is the above-mentioned connection system, which is located inside the circle part of the second buoy. In order to facilitate the display of the internal connection structure, the structure of the second buoy on the right is also partially hidden. Both the outer retaining ring of the buoy and the inner retaining ring of the buoy are hollow structures, which are used to increase part of the buoyancy of the buoy.
根据本实用新型优选的,所述第二浮筒的外部设有浮筒外部圆圈结构,所述浮筒外部圆圈结构为扁平状中空环形结构,横截面为长方形,长方形长度取值范围为10~20m,宽度取值范围为1~2m。Preferably, according to the present utility model, the outside of the second buoy is provided with a buoy outer circle structure, and the outer circle structure of the buoy is a flat hollow ring structure with a rectangular cross section whose length ranges from 10 to 20 m and a width of The value range is 1~2m.
浮筒外部圆圈结构的设置可以阻挡海洋漂浮污染物进入信号塔内部。The setting of the outer circle structure of the buoy can prevent the floating pollutants of the ocean from entering the interior of the signal tower.
根据本实用新型优选的,第二张力腿系统包括第二张力腿、第二桩锚,所述二级防波筒底部连接若干个第二张力腿,每个第二张力腿底端连接所述第二桩锚。Preferably according to the present invention, the second tension leg system includes a second tension leg and a second pile anchor, the bottom of the secondary wave-proof cylinder is connected to several second tension legs, and the bottom end of each second tension leg is connected to the Second pile anchor.
第二张力腿提供张力,连接二级防波筒和第二桩锚,由于第二浮筒的张力与第二桩锚的重力使第二张力腿处于紧紧张紧状态,从而保证了整个防波浪装置的位置,使整个防波浪装置不会发生大的偏移运动。第二桩锚沉与海底,来决定防波浪装置所处海洋位置。防波浪装置的第二张力腿、第二桩锚固定于信号塔的第一张力腿、第一桩锚的外围。The second tension leg provides tension and connects the secondary anti-wave tube and the second pile anchor. Due to the tension of the second buoy and the gravity of the second pile anchor, the second tension leg is in a tight state, thus ensuring the entire anti-wave device The position is so that the whole anti-wave device will not have a large offset movement. The second pile anchor sinks with the seabed to determine the ocean position of the anti-wave device. The second tension leg and the second pile anchor of the anti-wave device are fixed on the periphery of the first tension leg and the first pile anchor of the signal tower.
根据本实用新型优选的,所述一级防波筒筒壁底部设有海流计。Preferably, according to the present invention, the bottom of the wall of the primary wave-proof cylinder is provided with a sea current meter.
海流计用来测量该附近海域的海流流速,并将数据传至控制柜,通过天线将信号发出。The sea current meter is used to measure the sea current velocity in the nearby sea area, transmit the data to the control cabinet, and send out the signal through the antenna.
本实用新型的有益效果为:The beneficial effects of the utility model are:
1、本实用新型设有升降平台,通过此升降平台实现使工作人员到达信号塔的任意高度位置,方便工作人员作业,并保证了安全性。1. The utility model is equipped with a lifting platform, through which the staff can reach any height position of the signal tower, which is convenient for the staff to work and ensures safety.
2、本实用新型设有第一张力腿系统,移动运输方便,稳定性强,灵活性高,可将信号塔设置在广泛的海域之中,建立起海上信息传输网络系统,方便在海域中以及远航船只中工作人员的通信生活。2. The utility model is equipped with a first tension leg system, which is convenient for transportation, strong in stability, and high in flexibility. The communication life of the crew on board the voyage.
3、本实用新型设有信号灯,使信号灯这一传统导航机构可以存在于远海之中,为过往船只提供导航作用,并在夜间提醒此处有信号塔装置,防止发生误撞,并给在茫茫大海中的工作人员以心理寄托,灯塔的寓意往往是“希望”,这种心理安慰作用是数据网络导航所无法取代的;本实用新型安装有风力发电机和太阳能发电板,可获得持续较大电量,供整个信号塔运作,使其可以在远海中独立运行,无需人工干预;本实用新型安装有海上气象检测仪、海流计,可以对附近海域的温度、湿度、风速、海流流速等气象、海象环境进行连续检测,及时将收集到的海域信息发送到路过附近船只或者工作平台上,以方便工作人员及时获取此海域信息,做出合理措施。3. The utility model is equipped with a signal light, so that the traditional navigation mechanism of the signal light can exist in the open sea, providing navigation for passing ships, and reminding that there is a signal tower device at night to prevent accidental collisions, and to provide navigation in the vast sea. The staff in the sea rely on their psychological sustenance, and the meaning of the lighthouse is often "hope". This kind of psychological comfort cannot be replaced by data network navigation; The electricity is used for the operation of the entire signal tower, so that it can operate independently in the open sea without manual intervention; the utility model is equipped with a marine meteorological detector and a current meter, which can monitor the temperature, humidity, wind speed, ocean current flow rate, etc. of the nearby sea area. The walrus environment is continuously detected, and the collected sea area information is sent to passing ships or working platforms in a timely manner, so that the staff can obtain the sea area information in time and take reasonable measures.
4、本实用新型设置有防波浪装置,为二级可伸缩防波筒形装置,信号塔位于其中间,海流需穿过防波筒系统才能到达信号塔,可以降低波浪力对信号塔的影响,减缓波浪、洋流对信号塔正常作业的冲击。降低浮动信号塔的平移、浮沉、摇摆运动。使防波筒系统内部的洋流平静下来,大大改善了其内部信号塔的系泊环境。4. The utility model is equipped with an anti-wave device, which is a two-stage retractable anti-wave cylindrical device, and the signal tower is located in the middle. The ocean current needs to pass through the anti-wave system to reach the signal tower, which can reduce the influence of wave force on the signal tower , to slow down the impact of waves and ocean currents on the normal operation of the signal tower. Reduce translation, ups and downs, and swing motions of floating signal towers. Calms the ocean currents inside the anti-wave tube system, greatly improving the mooring environment of the signal tower inside it.
5、本实用新型设置第二张力腿系统,随浮动式信号塔到达海洋的大部分区域,安装与运输方便。5. The utility model is equipped with a second tension leg system, which can reach most areas of the ocean with the floating signal tower, and is convenient for installation and transportation.
附图说明Description of drawings
图1为本实用新型所述浮动式多功能信号塔的总体结构图;Fig. 1 is the overall structural diagram of the floating multifunctional signal tower described in the utility model;
图2.1为本实用新型所述信号塔系统的总体结构图;Fig. 2.1 is the overall structural diagram of the signal tower system described in the utility model;
图2.2(a)为本实用新型所述信号塔系统的部分结构示意图一;Figure 2.2 (a) is a partial structural schematic diagram of the signal tower system described in the present invention;
图2.2(b)为本实用新型所述信号塔系统的部分结构示意图二;Figure 2.2 (b) is a partial structural schematic diagram of the signal tower system described in the utility model II;
图2.2(c)为本实用新型所述信号塔系统的部分结构示意图三;Figure 2.2(c) is a partial structural schematic diagram of the signal tower system described in the present invention;
图2.3为本实用新型所述升降平台的结构示意图;Figure 2.3 is a structural schematic diagram of the lifting platform described in the present invention;
图2.4为本实用新型所述控制室的结构示意图;Figure 2.4 is a schematic structural view of the control room described in the utility model;
图3.1为本实用新型所述防波浪装置的总体结构示意图;Figure 3.1 is a schematic diagram of the overall structure of the anti-wave device described in the present invention;
图3.2为本实用新型所述防波装置浮筒的结构示意图;Figure 3.2 is a schematic structural view of the buoy of the anti-wave device described in the present invention;
图3.3为本实用新型所述防波筒系统的结构示意图;Figure 3.3 is a schematic structural diagram of the wave-proof tube system described in the present invention;
图3.4(a)为本实用新型所述防波筒系统初始状态示意图;Figure 3.4(a) is a schematic diagram of the initial state of the anti-wave system of the utility model;
图3.4(b)为本实用新型所述防波筒系统最小防波孔状态示意图;Figure 3.4(b) is a schematic diagram of the minimum wave-proof hole state of the wave-proof tube system described in the utility model;
图3.5为本实用新型所述第二张力腿系统结构示意图;Figure 3.5 is a schematic structural diagram of the second tension leg system described in the present invention;
1、信号塔系统,2、防波浪装置,3、避雷针,4、信号灯,5、太阳能发电板,6、天线,7、风力发电机,8、海上气象检测仪,9、升降平台,10、控制室,11、第一浮筒,12、第一张力腿,13、第一桩锚,14、小滑轮,15、支架,16、大滑轮,17、塔外绳,18、塔内绳,19、工具箱,20、数据控制柜,21、第一滚筒,22、变速箱,23、电动机,24、蓄电池,25、刹车系统,26、防波装置浮筒,27、防波筒系统,28、第二张力腿系统,29、浮筒,30、第二滚筒,31、v带,32、电机,33、牵引绳,34、浮筒外挡圈,35、浮筒内挡圈,36、内圈活塞杆,37、联轴器,38、内圈液压缸,39、外圈活塞杆,40、外圈液压缸,41、连杆,42、一级防波筒,43、海流计,44、限位螺杆,45、二级防波筒,46、第二张力腿,47、第二桩锚。1. Signal tower system, 2. Anti-wave device, 3. Lightning rod, 4. Signal light, 5. Solar power panel, 6. Antenna, 7. Wind generator, 8. Offshore weather detector, 9. Lifting platform, 10. Control room, 11, first buoy, 12, first tension leg, 13, first pile anchor, 14, small pulley, 15, bracket, 16, large pulley, 17, tower outer rope, 18, tower inner rope, 19 , tool box, 20, data control cabinet, 21, first roller, 22, gearbox, 23, electric motor, 24, battery, 25, brake system, 26, anti-wave device buoy, 27, anti-wave system, 28, Second tension leg system, 29, buoy, 30, second drum, 31, v-belt, 32, motor, 33, traction rope, 34, buoy outer retaining ring, 35, buoy inner retaining ring, 36, inner ring piston rod , 37, coupling, 38, inner ring hydraulic cylinder, 39, outer ring piston rod, 40, outer ring hydraulic cylinder, 41, connecting rod, 42, primary anti-wave cylinder, 43, current meter, 44, limit Screw rod, 45, secondary anti-wave cylinder, 46, the second tension leg, 47, the second pile anchor.
具体实施方式detailed description
下面结合说明书附图和实施例对本实用新型作进一步限定,但不限于此。The utility model will be further limited below in conjunction with the accompanying drawings and embodiments, but not limited thereto.
实施例Example
一种用于远海信息传递的浮动式多功能信号塔,如图1所示,包括防波浪装置2及部分设置在其中的信号塔系统1,信号塔系统1包括避雷针3、信号塔主体、天线6、升降平台9、控制室10、第一张力腿系统,如图2.1所示,所述避雷针3设置在信号塔主体的顶端,天线6设置在信号塔主体的横梁上,如图2.2(a)所示,信号塔主体的中部设有升降平台9,升降平台9下部连接控制室10,信号塔主体的底部设有第一张力腿系统,如图2.2(b)所示,控制室10包括电动机23、变速箱22、刹车系统25、第一滚筒21,升降平台9包括载人平台、4个小滑轮14、1个大滑轮16、塔外绳17、塔内绳18,4个小滑轮平均分成两组,两组的小滑轮14通过支架分别固定在信号塔主体的左、右两侧,塔外绳17的一端固定在控制室10上,依次绕过一组2个小滑轮14、1个大滑轮16、另一组2个小滑轮14,另一端固定在控制室10内,大滑轮16位于连接两组小滑轮14之间的塔外绳17上,绕过两组小滑轮14的塔外绳17上固定载人平台,支撑大滑轮16的塔外绳17处垂直连接塔内绳18的一端,塔内绳18的另一端连接第一滚筒21。如图2.3所示。A floating multifunctional signal tower used for information transmission in the open sea, as shown in Figure 1, includes a wave-proof device 2 and a signal tower system 1 partially arranged therein, and the signal tower system 1 includes a lightning rod 3, a signal tower body, and an antenna 6. Lifting platform 9, control room 10, first tension leg system, as shown in Figure 2.1, the lightning rod 3 is arranged on the top of the main body of the signal tower, and the antenna 6 is arranged on the beam of the main body of the signal tower, as shown in Figure 2.2 (a ), the middle part of the main body of the signal tower is equipped with a lifting platform 9, the lower part of the lifting platform 9 is connected to the control room 10, and the bottom of the main body of the signal tower is equipped with a first tension leg system, as shown in Figure 2.2(b), the control room 10 includes Motor 23, gearbox 22, brake system 25, first drum 21, lifting platform 9 includes manned platform, 4 small pulleys 14, 1 large pulley 16, tower outer rope 17, tower inner rope 18, 4 small pulleys Evenly divided into two groups, the small pulleys 14 of the two groups are respectively fixed on the left and right sides of the main body of the signal tower through brackets, and one end of the rope 17 outside the tower is fixed on the control room 10, and a group of two small pulleys 14, 1 large pulley 16, another group of 2 small pulleys 14, the other end is fixed in the control room 10, the large pulley 16 is located on the tower outer rope 17 connecting two groups of small pulleys 14, bypassing the two groups of small pulleys 14 The manned platform is fixed on the outer rope 17 of the tower, and the outer rope 17 of the tower supporting the large pulley 16 is vertically connected to one end of the inner rope 18 of the tower, and the other end of the inner rope 18 of the tower is connected to the first drum 21. As shown in Figure 2.3.
通过电动机23输入动力,经过变速箱22变速后将转动传到第一滚筒21,使第一滚筒21旋转,塔内绳18升高或者降低,塔内绳18在大滑轮16处与塔外绳17连接,塔外绳17通过小滑轮14将传动方向改变,塔外绳17与升降平台9相连接,从而使载人平台完成升降工作。若需要将升降平台制动,则启动刹车系统25。该浮动式信号塔在海中,通过此升降平台9实现使工作人员到达信号塔的任意高度位置,方便工作人员作业,并保证了安全性。The power is input through the motor 23, and the rotation is transmitted to the first drum 21 after the speed change of the gearbox 22, so that the first drum 21 is rotated, and the tower inner rope 18 is raised or lowered, and the tower inner rope 18 is connected with the tower outer rope at the large pulley 16. 17 is connected, and the outer rope 17 of the tower changes the transmission direction by the small pulley 14, and the outer rope 17 of the tower is connected with the lifting platform 9, thereby making the manned platform complete the lifting work. If the lifting platform needs to be braked, the brake system 25 is started. The floating signal tower is in the sea, and the staff can reach any height position of the signal tower through the lifting platform 9, which is convenient for the staff to work and ensures safety.
远海区域天气复杂多变,恶劣天气经常发生,而浮动式信号塔作为较高单一建筑,在大海中很容易成为雷电集中的目标,因此需要在浮动式信号塔顶部安装避雷针3,将雷电引入大海之中。避雷针3通过螺栓连接于信号塔主体的顶端,引线通过信号塔筒壁内部引至第一张力腿系统边缘,电流最终通入大海。The weather in the remote sea area is complex and changeable, and severe weather often occurs. As a tall single building, the floating signal tower is easy to become the target of concentrated lightning in the sea. Therefore, it is necessary to install a lightning rod 3 on the top of the floating signal tower to guide the lightning into the sea. among. The lightning rod 3 is connected to the top of the main body of the signal tower by bolts, and the lead wire is led to the edge of the first tension leg system through the inner wall of the signal tower, and the current finally flows into the sea.
第一张力腿系统包括第一浮筒11、第一张力腿12、第一桩锚13,所信号塔主体的底部设有第一浮筒11,第一浮筒11底部设有8个第一张力腿12,第一张力腿12底部设有第一桩锚13。第一浮筒11包括中心达立柱浮筒、4个伸张腿浮筒,信号塔主体的底部连接中心达立柱浮筒,中心达立柱浮筒底部连接4个伸张腿浮筒,伸张腿浮筒底部设有第一张力腿12,第一浮筒11为中空结构,第一浮筒11的材质为不锈钢。如图2.2(b)、图2.2(c)所示。The first tension leg system includes a first buoy 11, a first tension leg 12, and a first pile anchor 13. The bottom of the main body of the signal tower is provided with a first buoy 11, and the bottom of the first buoy 11 is provided with 8 first tension legs 12. , the bottom of the first tension leg 12 is provided with a first pile anchor 13 . The first buoy 11 includes a center column buoy and 4 extension leg buoys. The bottom of the main body of the signal tower is connected to the center column buoy, and the bottom of the center column buoy is connected to 4 extension leg buoys. The bottom of the extension leg buoy is provided with a first tension leg 12 , the first buoy 11 is a hollow structure, and the material of the first buoy 11 is stainless steel. As shown in Figure 2.2(b) and Figure 2.2(c).
第一浮筒11内部为空心结构,产生远远大于自身重力的浮力,浮力一部分抵消了自身重力以及信号塔各部分重力。剩余浮力与预张力平衡。置于海水中时,第一浮筒11的下半部分沉入海中,上半部分浮于海面之上,第一张力腿12与第一浮筒11和第一桩锚13连接,预张力作用在垂直第一张力腿12上,使第一张力腿12时刻处于受张拉的绷紧状态。使该浮动式信号塔的横摇、纵摇、垂荡运动较小,保证了信号塔的稳定性。第一桩锚13与第一张力腿12相连,固定于海底,决定了该浮动式信号塔所处的地理位置,通过第一浮筒11、第一张力腿12、第一桩锚13组成的第一张力腿系统为信号塔正常工作提供一个相对平稳安全的工作环境。The inside of the first buoy 11 is a hollow structure, which generates buoyancy far greater than its own gravity, and part of the buoyancy offsets its own gravity and the gravity of each part of the signal tower. Residual buoyancy is balanced with pretension. When placed in seawater, the lower half of the first buoy 11 sinks into the sea, and the upper half floats on the sea surface. The first tension leg 12 is connected with the first buoy 11 and the first pile anchor 13, and the pretension acts on the vertical On the first tension leg 12, the first tension leg 12 is always in a tensioned state. The rolling, pitching and heaving motions of the floating signal tower are made small, thereby ensuring the stability of the signal tower. The first pile anchor 13 is connected with the first tension leg 12 and is fixed on the seabed, which determines the geographic location of the floating signal tower. A tension leg system provides a relatively stable and safe working environment for the normal operation of the signal tower.
信号塔主体的横梁上还设有太阳能发电板5、海上气象检测仪8,信号塔主体上还设有风力发电机7。The beam of the main body of the signal tower is also provided with a solar power generation panel 5 and a marine meteorological detector 8, and the main body of the signal tower is also provided with a wind generator 7.
太阳能发电板5为SOLARPRO品牌的SP260W型号的太阳能发电板,海上气象检测仪8为型号为XZC2-2SA型的船用海洋气象测报仪,风力发电机7为150KW风力发电机。The solar power generation panel 5 is a solar power generation panel of the SP260W model of the SOLARPRO brand, the marine meteorological detector 8 is a marine marine weather forecasting instrument of the model XZC2-2SA type, and the wind power generator 7 is a 150KW wind power generator.
太阳能发电板5用于在白天吸收太阳能发电,并将电储存在蓄电池24中。天线6用于发射信号,通过螺栓连接在信号塔筒壁的横梁上,通过海上气象检测仪8、海流计测得的数据也通过天线6发射出去,传达到其他区域或者路过次区域的船只上,使过往船只及时了解该海域的气象以及海域状况,保障通航的安全性。The solar power generation panel 5 is used to absorb solar power generation during the day and store the electricity in the storage battery 24 . The antenna 6 is used to transmit signals, and is connected to the crossbeam of the signal tower wall by bolts, and the data measured by the marine meteorological detector 8 and the current meter are also transmitted through the antenna 6 and transmitted to other areas or ships passing through the sub-area , so that passing ships can keep abreast of the weather and sea conditions in the sea area, so as to ensure the safety of navigation.
由于远海地区天气多变,环境恶劣,需要及时获取浮动式信号塔周围的环境状况,海上气象检测仪8通过螺栓固定于信号塔筒壁上,可以用来测量该附近海域的风速、风向、温度、湿度的气象状况,并将测量数据传送到数据控制柜20,数据控制柜20在处理完信息后将气象信息通过天,6传送出去。Due to the changeable weather and harsh environment in the remote sea area, it is necessary to obtain the environmental conditions around the floating signal tower in time. The marine weather detector 8 is fixed on the wall of the signal tower through bolts, and can be used to measure the wind speed, wind direction and temperature in the nearby sea area. , Humidity weather conditions, and the measurement data is transmitted to the data control cabinet 20, and the data control cabinet 20 transmits the weather information through the sky 6 after processing the information.
风力发电机7位于天线6下部,利用远海区域经常风大浪急的特征,安装风力发电机7用来发电并将电储存于蓄电池24中,该浮动式信号塔运作所需的电力大部分由风力发电机7提供。The wind generator 7 is located at the lower part of the antenna 6. Taking advantage of the frequent stormy waves in the remote sea area, the wind generator 7 is installed to generate electricity and store the electricity in the storage battery 24. Most of the electricity required for the operation of the floating signal tower is provided by wind power. Generator 7 provided.
信号塔主体的顶部设有信号灯4。信号灯4用以指引船舶航行并且在黑夜提醒船舶,防止过往船只撞击浮动式信号塔。The top of the main body of the signal tower is provided with a signal lamp 4 . The signal light 4 is used to guide ships to sail and remind ships at night to prevent passing ships from hitting the floating signal tower.
控制室11还包括蓄电池24、工具箱19、数据控制柜20,蓄电池24分别连接电动机23、变速箱22、刹车系统25、第一滚筒21、数据控制柜20,由蓄电池24为电动机23提供电源,电动机23的输出轴连接变速箱22的输入轴,经变速后由变速箱22的输出轴连接第一滚筒21,在第一滚筒12两端安装刹车系统25,使第一滚筒21制动。如图2.4所示。The control room 11 also includes a storage battery 24, a toolbox 19, and a data control cabinet 20. The storage battery 24 is respectively connected to the motor 23, the gearbox 22, the brake system 25, the first roller 21, and the data control cabinet 20. The storage battery 24 provides power for the motor 23. , the output shaft of motor 23 connects the input shaft of gearbox 22, connects the first cylinder 21 by the output shaft of gearbox 22 after the speed change, brake system 25 is installed at the first cylinder 12 two ends, makes the first cylinder 21 braking. As shown in Figure 2.4.
工具箱19主要存放维修信号塔设备的常用工具。数据控制柜20主要是对从海上气象检测仪8以及海流计得到的数据进行数据收集、处理,并将处理后的数据通过天线6发送出去。蓄电池24储存太阳能发电板5与风力发电机7产生的电力,并为整个平台运作提供动力源。The tool box 19 mainly stores common tools for maintaining signal tower equipment. The data control cabinet 20 mainly collects and processes the data obtained from the marine meteorological detector 8 and the sea current meter, and sends the processed data through the antenna 6 . The storage battery 24 stores the electricity generated by the solar power generation panel 5 and the wind generator 7, and provides a power source for the operation of the entire platform.
如图3.1所示,防波浪装置2包括从上自下依次连接的防波装置浮筒26、防波筒系统27以及第二张力腿系统28,防波装置浮筒26包括可伸缩浮筒、若干个牵引装置,可伸缩浮筒上设有横梁,横梁上设有若干个牵引装置,牵引装置包括第二滚筒30、电机32、V带31、牵引绳33,第二滚筒30上缠有牵引绳33,通过V带31连接第二滚筒30和电机32;防波筒系统27包括一级防波筒42、可上下移动套在一级防波筒42内的二级防波筒45、限位螺杆44,牵引绳33连接限位螺杆44;一级防波筒42筒壁内部为空心结构,二级防波筒45可从一级防波筒42内壁伸出和缩回,牵引绳33系于限位螺杆44上,限位螺杆44与牵引绳33系牢处位于一级防波筒42底壁上面,限位螺杆44穿过一级防波筒42并再次穿过二级防波筒45,用限位螺母固定于二级防波筒45底壁外侧,通过控制限位螺杆44运动从而带动二级防波筒45从一级防波筒42内部伸出或缩回,一级防波筒42及二级防波筒45为上下均无盖的立方体结构,一级防波筒42及二级防波筒45的筒壁设有若干个面积为0.785-12.56m2的防波孔。如图3.3所示。防波装置浮筒26通过焊接在防波装置浮筒2下的连杆41连接防波筒系统27。为防波筒系统27提供浮力。As shown in Figure 3.1, the anti-wave device 2 includes a wave-proof device buoy 26 connected sequentially from top to bottom, a wave-proof tube system 27 and a second tension leg system 28. The wave-proof device buoy 26 includes a telescopic buoy, several traction device, the telescopic buoy is provided with a crossbeam, and several traction devices are provided on the crossbeam, and the traction device includes a second drum 30, a motor 32, a V-belt 31, a traction rope 33, and the second cylinder 30 is wrapped with a traction rope 33. The V-belt 31 connects the second roller 30 and the motor 32; the wave-proof cylinder system 27 includes a primary wave-proof cylinder 42, a secondary wave-proof cylinder 45 that can move up and down and is set in the primary wave-proof cylinder 42, and a limit screw 44, The traction rope 33 is connected to the limit screw 44; the inside of the primary anti-wave cylinder 42 is a hollow structure, the secondary anti-wave cylinder 45 can extend and retract from the inner wall of the primary anti-wave cylinder 42, and the traction rope 33 is tied to the limit On the screw rod 44, the fastening place between the limit screw rod 44 and the traction rope 33 is located above the bottom wall of the first-level wave-proof cylinder 42, and the limit screw rod 44 passes through the first-level wave-proof cylinder 42 and passes through the second-level wave-proof cylinder 45 again. The limit nut is fixed on the outside of the bottom wall of the secondary anti-wave cylinder 45, and the movement of the limit screw 44 is controlled to drive the secondary anti-wave cylinder 45 to extend or retract from the inside of the primary anti-wave cylinder 42, and the primary anti-wave cylinder 42 And the secondary anti-wave cylinder 45 is a cubic structure without a cover up and down, and the walls of the primary anti-wave cylinder 42 and the secondary anti-wave cylinder 45 are provided with several anti-wave holes with an area of 0.785-12.56m2 . As shown in Figure 3.3. The anti-wave device buoy 26 is connected to the anti-wave system 27 through a connecting rod 41 welded under the buoy 2 of the anti-wave device. Provides buoyancy for the anti-wave tube system 27 .
防波孔为圆形,半径的取值范围为0.5-2m。The anti-wave hole is circular, and the value range of the radius is 0.5-2m.
通过电机32控制第二滚筒30转动,从而通过牵引绳33控制限位螺杆44的运动,控制二级防波筒45展开程度,来改变防波孔的大小,控制进入该防波浪装置2的海流流量大小。如图3.3所示,二级防波筒45处于完全展开状态时,即不套在一级防波筒42外时,防波筒系统27体积最大,可以最大程度防波浪,此时其内部信号塔第一张力腿12的系泊环境最好。如图3.4(a)所示,当二级防波筒45完全套在一级防波筒42外时,为防波筒系统27的初始状态,此时其防波孔最大,防波筒系统27体积最小,便于对防波筒系统27进行运输。如图3.4(b)所示,当二级防波筒45部分套在一级防波筒42外,恰好处于一级防波筒42上防波孔孔径最小状态时,此时进入防波筒系统27内部的海流最小,其内部环境最为稳定。防波筒系统27为二级可伸缩防波筒形装置,信号塔位于其中间,海流需穿过防波筒系统27才能到达信号塔,可以降低波浪力对信号塔的影响,减缓波浪、洋流对信号塔正常作业的冲击。降低浮动信号塔的平移、浮沉、摇摆运动。使防波筒系统27内部的洋流平静下来,大大改善了其内部信号塔的系泊环境。防波孔大小不妨碍小型海洋生物穿行,尊重自然。The rotation of the second drum 30 is controlled by the motor 32, thereby the movement of the limit screw 44 is controlled by the traction rope 33, and the expansion degree of the secondary anti-wave cylinder 45 is controlled to change the size of the anti-wave hole and control the sea current entering the anti-wave device 2 Traffic size. As shown in Figure 3.3, when the secondary anti-wave tube 45 is fully deployed, that is, when it is not set outside the primary anti-wave tube 42, the volume of the anti-wave tube system 27 is the largest and can prevent waves to the greatest extent. At this time, its internal signal The mooring environment of the first tension leg 12 of the tower is the best. As shown in Figure 3.4(a), when the secondary anti-wave tube 45 is completely set outside the primary anti-wave tube 42, it is the initial state of the anti-wave tube system 27. At this time, the anti-wave hole is the largest, and the anti-wave tube system 27 has the smallest volume and is convenient for transporting the anti-wave tube system 27 . As shown in Figure 3.4(b), when the secondary wave-proof tube 45 is partly set outside the primary wave-proof tube 42, and it happens to be in the minimum state of the wave-proof hole on the primary wave-proof tube 42, at this time it enters the wave-proof tube The ocean currents inside the system 27 are the smallest, and its internal environment is the most stable. The wave-proof tube system 27 is a two-stage retractable wave-proof tube-shaped device, the signal tower is located in the middle, and the ocean current needs to pass through the wave-proof tube system 27 to reach the signal tower, which can reduce the impact of wave force on the signal tower and slow down waves and ocean currents. Impact on the normal operation of the signal tower. Reduce translation, ups and downs, and swing motions of floating signal towers. The ocean current inside the anti-wave tube system 27 is calmed down, and the mooring environment of the signal tower inside it is greatly improved. The size of the breakhole does not hinder the passage of small marine life, respecting nature.
如图3.2所示,可伸缩浮筒包括第二浮筒、浮筒外挡圈装置、浮筒内挡圈装置,所述浮筒外挡圈装置包括浮筒外挡圈34、联轴器37、外圈活塞杆39、外圈液压缸40,浮筒内挡圈装置包括浮筒内挡圈35、内圈活塞杆36、内圈液压缸38,第二浮筒为有部分缺口的环形中空结构,第二浮筒缺口处一端、浮筒外挡圈34、联轴器37、外圈活塞杆39、外圈液压缸40、第二浮筒缺口处另一端依次连接,与浮筒外挡圈装置位置对应处,在第二浮筒内设置所述浮筒内挡圈装置,浮筒内挡圈35、内圈活塞杆36、内圈液压缸38依次连接。As shown in Figure 3.2, the telescopic buoy includes a second buoy, a buoy outer retaining ring device, and a buoy inner retaining ring device, and the buoy outer retaining ring device includes a buoy outer retaining ring 34, a coupling 37, and an outer ring piston rod 39 , the outer ring hydraulic cylinder 40, the buoy inner retaining ring device includes the buoy inner retaining ring 35, the inner ring piston rod 36, the inner ring hydraulic cylinder 38, the second buoy is a ring-shaped hollow structure with a partial gap, one end of the second buoy gap, The outer retaining ring 34 of the buoy, the coupling 37, the piston rod 39 of the outer ring, the hydraulic cylinder 40 of the outer ring, and the other end of the gap of the second buoy are connected in sequence, and the position corresponding to the position of the outer retaining ring of the buoy is set in the second buoy. Describe the buoy drum inner retaining ring device, the buoy drum inner retaining ring 35, the inner ring piston rod 36, and the inner ring hydraulic cylinder 38 are connected in sequence.
由液压系统控制内圈液压缸38中的内圈活塞杆36的伸缩,内圈活塞杆36与浮筒内挡圈35螺栓连接,从而带动浮筒内挡圈35的伸缩,两个浮筒内挡圈35均连接有上述连接系统,该连接系统位于第二浮筒的正方形部分的内部,为方便展示内部结构,将右侧第二浮筒隐藏显示出内部结构。由液压系统控制外圈液压缸40中的外圈活塞杆39的伸缩,外圈活塞杆39通过联轴器37与浮筒外挡圈34连接,从而带动浮筒外挡圈34的伸缩,两个浮筒外挡圈34也均连接有上述连接系统,该连接系统位于第二浮筒的圆圈部分的内部,为方便展示内部连接结构,也将右侧第二浮筒结构部分隐藏。浮筒外挡圈34与浮筒内挡圈35均为空心结构,用以增加部分浮筒浮力。The expansion and contraction of the inner ring piston rod 36 in the inner ring hydraulic cylinder 38 is controlled by the hydraulic system, and the inner ring piston rod 36 is connected with the buoy inner retaining ring 35 by bolts, thereby driving the expansion and contraction of the buoy inner retaining ring 35, and the two buoy inner retaining rings 35 Both are connected with the above-mentioned connection system, which is located inside the square part of the second buoy. For the convenience of displaying the internal structure, the second buoy on the right side is hidden to display the internal structure. The expansion and contraction of the outer ring piston rod 39 in the outer ring hydraulic cylinder 40 is controlled by the hydraulic system, and the outer ring piston rod 39 is connected with the outer ring 34 of the buoy through the coupling 37, thereby driving the expansion and contraction of the outer ring 34 of the buoy, the two buoys The outer retaining rings 34 are also connected with the above-mentioned connection system, which is located inside the circle part of the second buoy. For the convenience of displaying the internal connection structure, the structure of the second buoy on the right side is also hidden. Both the buoy outer retaining ring 34 and the buoy inner retaining ring 35 are hollow structures for increasing part of the buoyancy of the buoy.
第二浮筒的外部设有浮筒外部圆圈结构,浮筒外部圆圈结构为扁平状中空环形结构,横截面为长方形,长方形长度取值范围为10~20m,宽度取值范围为1~2m。The outside of the second buoy is provided with an outer circle structure of the buoy. The outer circle structure of the buoy is a flat hollow ring structure with a rectangular cross section.
浮筒外部圆圈结构的设置可以阻挡海洋漂浮污染物进入信号塔内部。The setting of the outer circle structure of the buoy can prevent the floating pollutants of the ocean from entering the interior of the signal tower.
第二张力腿系统28包括第二张力腿46、第二桩锚47,二级防波筒45底部连接若干个第二张力腿46,每个第二张力腿46底端连接第二桩锚47。如图3.5所示。The second tension leg system 28 includes a second tension leg 46 and a second pile anchor 47. The bottom of the secondary wave-proof cylinder 45 is connected to several second tension legs 46, and the bottom end of each second tension leg 46 is connected to the second pile anchor 47. . As shown in Figure 3.5.
第二张力腿46提供张力,连接二级防波筒45和第二桩锚47,由于第二浮筒的张力与第二桩锚47的重力使第二张力腿46处于紧紧张紧状态,从而保证了整个防波浪装置2的位置,使整个防波浪装置2不会发生大的偏移运动。第二桩锚47沉与海底,来决定防波浪装置2所处海洋位置。防波浪装置2的第二张力腿46、第二桩锚47固定于信号塔的第一张力腿12、第一桩锚13的外围。The second tension leg 46 provides tension, and connects the secondary anti-wave cylinder 45 and the second pile anchor 47. Due to the tension force of the second buoy and the gravity of the second pile anchor 47, the second tension leg 46 is in a tight tension state, thereby ensuring The position of the whole anti-wave device 2 is guaranteed, so that the whole anti-wave device 2 will not undergo a large offset movement. The second pile anchor 47 sinks to the seabed to determine the ocean position of the anti-wave device 2 . The second tension leg 46 and the second pile anchor 47 of the anti-wave device 2 are fixed on the periphery of the first tension leg 12 and the first pile anchor 13 of the signal tower.
一级防波筒42筒壁底部设有海流计。The bottom of the wall of the primary anti-wave cylinder 42 is provided with a sea current meter.
海流计用来测量该附近海域的海流流速,并将数据传至控制柜10,通过天线6将信号发出。The sea current meter is used to measure the sea current velocity in the nearby sea area, and transmits the data to the control cabinet 10, and sends out the signal through the antenna 6.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201621131971.0UCN206243409U (en) | 2016-10-17 | 2016-10-17 | A kind of floating type multifunctional signal tower for off-lying sea information transmission |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201621131971.0UCN206243409U (en) | 2016-10-17 | 2016-10-17 | A kind of floating type multifunctional signal tower for off-lying sea information transmission |
| Publication Number | Publication Date |
|---|---|
| CN206243409Utrue CN206243409U (en) | 2017-06-13 |
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201621131971.0UWithdrawn - After IssueCN206243409U (en) | 2016-10-17 | 2016-10-17 | A kind of floating type multifunctional signal tower for off-lying sea information transmission |
| Country | Link |
|---|---|
| CN (1) | CN206243409U (en) |
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106314711A (en)* | 2016-10-17 | 2017-01-11 | 山东科技大学 | Floating multifunctional signal tower for transmitting open sea information and working method of floating multifunctional signal tower |
| CN110996327A (en)* | 2019-11-21 | 2020-04-10 | 江苏盛世天安信息科技有限公司 | Outdoor wireless network connection system |
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106314711A (en)* | 2016-10-17 | 2017-01-11 | 山东科技大学 | Floating multifunctional signal tower for transmitting open sea information and working method of floating multifunctional signal tower |
| CN106314711B (en)* | 2016-10-17 | 2018-06-08 | 山东科技大学 | A kind of floating type multifunctional signal tower transmitted for off-lying sea information and its method of work |
| CN110996327A (en)* | 2019-11-21 | 2020-04-10 | 江苏盛世天安信息科技有限公司 | Outdoor wireless network connection system |
| Publication | Publication Date | Title |
|---|---|---|
| CN106314711B (en) | A kind of floating type multifunctional signal tower transmitted for off-lying sea information and its method of work | |
| EP4071352B1 (en) | Deep-sea multi-energy integrated platform for complementary power generation, production, living and exploration | |
| EP3417167B1 (en) | Floating wave energy conversion island platforms | |
| CN105857527B (en) | Laser radar surveys wind buoyage on three body combined type seas | |
| CN103600814B (en) | The complete autonomous marine environmental monitoring buoy of a kind of frame-type | |
| JP7643872B2 (en) | Buoy and installation method for buoy | |
| CN107472474A (en) | A kind of mobile ballast leveling control device of floating blower fan | |
| CN103935472A (en) | Dynamic positioning type ocean buoy | |
| WO2021160186A1 (en) | Wave energy power generating observation buoy | |
| CN111071391A (en) | a multifunctional beacon | |
| US20160040645A1 (en) | Energy storage system deployed in a body of water | |
| CN205652288U (en) | Marine laser radar anemometry buoyage of trisome combination formula | |
| CN203294291U (en) | Marine hydrology parameter measurement navigation buoy | |
| CN109340024A (en) | Ultra-large type waterpower wind power photovoltaic power station | |
| CN206243409U (en) | A kind of floating type multifunctional signal tower for off-lying sea information transmission | |
| CN106476991B (en) | A kind of anti-wave device and its method of work for floating type signal tower | |
| CN103112551A (en) | Wind wave resistant ocean profile monitoring buoy | |
| CN210852807U (en) | Buoy capable of measuring hydrological data | |
| JP2002508048A (en) | Tidal turbine equipment | |
| CN107618630A (en) | Single steady formula of column post uses floating platform | |
| CN109131751B (en) | Coastline submerged reef reminding device for ocean engineering | |
| CN213892810U (en) | Sea condition monitoring and navigation beacon system | |
| CN206514219U (en) | A kind of float-type beacon of utilization wave-energy power generation | |
| CN211308898U (en) | Novel buoy platform for submarine seismic exploration | |
| CN204979150U (en) | Buoy platform for ground wave radar |
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned | Granted publication date:20170613 Effective date of abandoning:20180608 | |
| AV01 | Patent right actively abandoned |