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TWI428257B - Vessel with side thruster - Google Patents

Vessel with side thruster Download PDF

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Publication number
TWI428257B
TWI428257B TW097150141A TW97150141A TWI428257B TW I428257 B TWI428257 B TW I428257B TW 097150141 A TW097150141 A TW 097150141A TW 97150141 A TW97150141 A TW 97150141A TW I428257 B TWI428257 B TW I428257B
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TW
Taiwan
Prior art keywords
channel
cover portion
axis
hull
cover
Prior art date
Application number
TW097150141A
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Chinese (zh)
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TW201014751A (en
Inventor
Fukutaro Noda
Original Assignee
Sumitomio Corp
Nippon Pusnes Co Ltd
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Publication of TW201014751A publication Critical patent/TW201014751A/en
Application granted granted Critical
Publication of TWI428257B publication Critical patent/TWI428257B/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B1/00Hydrodynamic or hydrostatic features of hulls or of hydrofoils
    • B63B1/32Other means for varying the inherent hydrodynamic characteristics of hulls
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B13/00Conduits for emptying or ballasting; Self-bailing equipment; Scuppers
    • B63B13/02Ports for passing water through vessels' sides
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63HMARINE PROPULSION OR STEERING
    • B63H25/00Steering; Slowing-down otherwise than by use of propulsive elements; Dynamic anchoring, i.e. positioning vessels by means of main or auxiliary propulsive elements
    • B63H25/42Steering or dynamic anchoring by propulsive elements; Steering or dynamic anchoring by propellers used therefor only; Steering or dynamic anchoring by rudders carrying propellers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T70/00Maritime or waterways transport
    • Y02T70/10Measures concerning design or construction of watercraft hulls

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Fluid-Pressure Circuits (AREA)
  • Actuator (AREA)
  • Pressure Vessels And Lids Thereof (AREA)
  • Excavating Of Shafts Or Tunnels (AREA)

Description

具有側推動器之船體 Hull with side pushers

本發明係有關於一種具備側推動器之船體,特別是關於一種可降低航行時的阻力與改善燃料消耗率問題的一種具備側推動器之船體。 The present invention relates to a hull having a side pusher, and more particularly to a hull having a side pusher for reducing the resistance during navigation and improving the fuel consumption rate.

為了使船體之靠岸或離岸容易進行操作,習知技術係使用具有側推動器之船體,其側推動器具有橫切船底而貫通之槽道,以及配置於槽道內的螺旋槳。一般來說,側推動器分別設於船首側及船尾側,形成船體橫進之際的推進力。使用具有側推動器之船體時,於船隻靠岸之際,無需使用拖船,即可完成靠岸動作,可節省所需步驟及時間,提高操作便利性。 In order to make the hull docked or offshore easy to operate, conventional techniques use a hull having a side pusher with a side pusher having a channel that traverses the bottom of the ship and a propeller disposed within the channel. Generally, the side pushers are respectively disposed on the bow side and the stern side to form a propulsive force when the hull is traversed. When using a hull with a side pusher, the docking action can be completed without the use of a tugboat when the vessel is docked, saving the required steps and time and improving the convenience of operation.

側推動器之槽道係位於船體吃水線下的水中,於船體側面之形成之槽道的開口(出入口)係構成航行的阻力,其影響涉及航行速度及船隻操作便利性,而導致降低燃料消耗率的問題產生。因此,例如【專利文獻1】為日本特開昭59-45198公報所記載之發明,係為藉由設置啟閉槽道出入口之蓋構造,於正常航行時將槽道關閉,而可減低阻力之技術。此種蓋構造係由類似蝶形閥的構造所構成,具有相對應於槽道的內周面的形狀之圓型板,以及用於旋轉圓型版之軸部。軸部之軸線(旋轉軸線)配置於與槽道之中心線 (槽道軸線)交叉之位置上,只要旋轉軸部,圓形板亦即隨之旋轉。當圓形板豎立時,槽道即被堵塞,形成槽道關閉狀態。另一方面,當圓形板平倒,水平橫臥時,則形成槽道全開狀態。側推動器之動作係在槽道全開狀態下進行。 The channel of the side pusher is located in the water below the waterline of the hull. The opening (inlet and exit) of the channel formed on the side of the hull constitutes the resistance of navigation, and its influence involves navigation speed and convenience of operation of the ship, resulting in lowering The problem of fuel consumption rate arises. For this reason, the invention described in Japanese Laid-Open Patent Publication No. 59-45198 is a cover structure for providing an opening and closing channel entrance and exit, and the channel is closed during normal navigation, thereby reducing the resistance. technology. Such a cap structure is constituted by a structure similar to a butterfly valve, having a circular plate corresponding to the shape of the inner peripheral surface of the channel, and a shaft portion for rotating the circular plate. The axis of the shaft (rotational axis) is placed at the center line of the channel At the position where the (slot axis) intersects, the circular plate rotates as long as the shaft portion is rotated. When the circular plate is erected, the channel is blocked, forming a closed state of the channel. On the other hand, when the circular plate is flat and horizontally lying, the groove is fully opened. The action of the side pusher is performed in the fully open state of the channel.

蓋構造所使用之圓形板具有在關閉槽道時面向外側之表面及面向內側之背面。蓋構造之旋轉軸線雖與槽道軸線交叉,卻因圓形板之表面實際上與旋轉軸線是相互分離地,因此,若為了打開槽道而使圓形板平倒時,此時圓形板之表面係位於較槽道軸線更為下方位置。因此,有必要於槽道內設置容許此偏移量之餘裕部分。此餘裕部分形成即使當圓形板豎立時,仍無法關閉之間隙,而成為航行之際的阻力。然而,習知技術中的具有側推動器之船體通常關閉槽道用的蓋部,其旋轉軸線係與槽道軸線相互交叉,對上述間隙所造成阻力之發生並未特別詳加考慮,存在著藉由減低阻力來達到燃料消耗率向上改善的效果,並無法充份發揮之缺點。 The circular plate used in the lid construction has a surface facing outward and a rear surface facing inward when the channel is closed. Although the rotation axis of the cover structure intersects the axis of the channel, the surface of the circular plate is actually separated from the axis of rotation. Therefore, if the circular plate is flattened in order to open the channel, the circular plate at this time The surface is located further below the axis of the channel. Therefore, it is necessary to set a margin in the channel that allows this offset. This margin portion forms a gap that cannot be closed even when the circular plate is erected, and becomes a resistance at the time of navigation. However, the hull with the side pusher in the prior art generally closes the cover portion for the channel, and the rotation axis thereof intersects with the channel axis, and the occurrence of the resistance caused by the gap is not particularly considered. By reducing the resistance to achieve an upward improvement in fuel consumption rate, it is not able to fully exploit its shortcomings.

本發明係為解決上述問題所提供一種具有側推動器之船體,其目的在於可減低側推動器之槽道在航行時所造成的阻力,而可獲得燃料消耗率向上改善的具有側推動器之船體。 The present invention provides a hull having a side pusher for solving the above problems, and the object thereof is to reduce the resistance caused by the side pusher channel during navigation, and to obtain a side pusher with an improved fuel consumption rate. The hull.

為解決上述問題,本發明係為一種具有側推動器之船體,其包含有貫通船底之圓筒狀槽道以及配置於上述槽道內之螺旋槳。其特徵在於具有,一蓋部,用以啟閉側槽道之出入口。一軸部,固定於蓋部,並旋轉自如地支撐於船底。以及驅動部,可藉由軸部之旋轉,而將蓋部豎立以呈現關閉槽道之狀態,或使蓋部平倒以呈 現打開槽道之狀態。蓋部具有於槽道關閉時,面向槽道之外側之一表面及面向槽道之內側之一背面,軸部之旋轉軸線之軸向係位於沿著與槽道之槽道軸線的正交方向上的延伸方向上,並相對於槽道軸線具有一偏移,於旋轉軸線與槽道軸線交叉情況相比,打開槽道時蓋部的表面係較接近槽道軸線。 In order to solve the above problems, the present invention is a hull having a side pusher including a cylindrical channel penetrating the bottom of the ship and a propeller disposed in the channel. The utility model is characterized in that a cover portion is provided for opening and closing the entrance and exit of the side channel. A shaft portion is fixed to the cover portion and rotatably supported on the bottom of the ship. And the driving portion can be erected by the rotation of the shaft portion to present the state of closing the channel, or the cover portion can be flattened to Now open the state of the channel. The cover portion has a surface facing one side of the outer side of the channel and a rear surface facing the inner side of the channel when the channel is closed, and the axial direction of the rotation axis of the shaft portion is located along the direction orthogonal to the channel axis of the channel The upper extension direction has an offset with respect to the channel axis, and the surface of the cover portion is closer to the channel axis when the channel is opened than when the axis of rotation intersects the channel axis.

本發明之驅動部藉由軸部之旋轉,將蓋部豎立後,使槽道關閉,或者是使蓋部平倒後,將槽道打開。由於在蓋部具有一實際厚度,因此,在軸部之旋轉軸線與蓋部之表面間具一固定距離。因此,若為了打開槽道而使蓋部平倒,蓋部之表面即會偏移至較旋轉軸線更為下方的位置上。在關閉槽道情況下,雖然蓋部之表面中最大寬度部分係存在於槽道軸線上。不過,當蓋部平倒使槽道被打開時,此寬度最大部分即會下降至較槽道軸線更為下方的位置。因此,有必要於槽道之出入口附近的內周面形成餘裕部分,以避免槽道打開時與蓋部的表面相互干涉。習知技術中的船體,一般係為軸部之旋轉軸線與槽道軸線相互交叉之構成。然而,由於在本發明中,軸部之旋轉軸線沿著與槽道軸線正交方向上延伸,且相對於槽道軸線而言具一偏移量。因此,在槽道打開時,相較於一般習知的船體,也就是與啟閉蓋部之軸部的旋轉軸線與槽道軸線交叉之船體相比,蓋部之表面距槽道軸線較近,可使構成餘裕部分之間隙的尺寸與習知船體相比較小。由於即使豎立起蓋部,使槽道關閉,仍無法以蓋部完全蓋住構成餘裕部分之間隙。因此,此餘裕部分之間隙會於正常航行中成為阻力。因此,若能減小餘裕部分,關閉槽道時在槽道之內周面與蓋部之間所產生的間 隙即會隨之變小,因而可減低航行時的阻力,獲得燃料消耗率的向上改善。 In the driving portion of the present invention, the cover portion is erected by the rotation of the shaft portion, the channel is closed, or the groove is opened, and the channel is opened. Since the cover portion has an actual thickness, there is a fixed distance between the axis of rotation of the shaft portion and the surface of the cover portion. Therefore, if the lid portion is flattened in order to open the channel, the surface of the lid portion is displaced to a position lower than the axis of rotation. In the case of closing the channel, the largest width portion of the surface of the cover portion is present on the channel axis. However, when the cover is flattened so that the channel is opened, the largest portion of the width is lowered to a position lower than the axis of the channel. Therefore, it is necessary to form a margin on the inner peripheral surface near the entrance and exit of the channel to prevent the surface of the cover from interfering with each other when the channel is opened. The hull in the prior art is generally constituted by the intersection of the axis of rotation of the shaft portion and the axis of the channel. However, since in the present invention, the rotational axis of the shaft portion extends in a direction orthogonal to the channel axis and has an offset with respect to the channel axis. Therefore, when the channel is opened, the surface of the cover portion is closer to the channel axis than the conventional hull, that is, the hull that intersects the axis of rotation of the shaft portion of the opening and closing cover portion with the axis of the channel. Closer, the size of the gap constituting the margin portion can be made smaller than that of the conventional hull. Since the groove is closed even if the lid portion is erected, it is impossible to completely cover the gap constituting the margin portion with the lid portion. Therefore, the gap of this margin will become a resistance during normal navigation. Therefore, if the margin portion can be reduced, the space between the inner circumferential surface of the channel and the lid portion when the channel is closed is closed. The gap will become smaller, which will reduce the resistance during navigation and improve the fuel consumption rate.

又,船底設置槽道部分的寬度,其下方與上方相比,下方之寬度較窄。蓋部係為仿照槽道之出入口附近之船底的外周面而傾斜地豎立著,使槽道關閉,軸部之旋轉軸線係相對於槽道軸線較往上方偏移。蓋部之表面中,旋轉軸線方向之最大寬度部分在槽道打開時,與旋轉軸線與槽道軸線交叉之情形下相比,距槽道軸線較近的位置較為適合。由於蓋部係仿照槽道之出入口附近之船底的外周面而傾斜地豎立著,為了使槽道關閉,可將槽道之出入口關閉,以減少航行時的阻力。又,在軸部之旋轉軸線係相對於槽道軸線較往上方偏移,蓋部之表面中,軸部之軸線方向上最大寬度部分在槽道打開時,與旋轉軸線與槽道軸線交叉之情形下相比,較接近槽道軸線。有必要配合此最大寬度部分,來形成槽道之餘裕部分。藉由寬度最大部分接近槽道軸線,與軸部之旋轉軸線與槽道軸線交叉之情形相比下,確實減小餘裕部分,而減低航行時的阻力,獲得燃料消耗率的向上改善。 Further, the width of the channel portion is set at the bottom of the ship, and the width of the lower portion is narrower than the upper portion. The cover portion is erected obliquely to follow the outer peripheral surface of the bottom of the ship near the entrance and exit of the channel, and the channel is closed, and the axis of rotation of the shaft portion is shifted upward with respect to the axis of the channel. In the surface of the cover portion, the maximum width portion in the direction of the rotation axis is suitable when the groove is opened, and the position closer to the axis of the groove is more suitable than when the rotation axis intersects the axis of the groove. Since the cover portion is erected obliquely in accordance with the outer peripheral surface of the bottom of the ship near the entrance and exit of the channel, in order to close the channel, the entrance and exit of the channel can be closed to reduce the resistance during navigation. Further, the rotation axis of the shaft portion is offset upward with respect to the axis of the channel, and in the surface of the cover portion, the maximum width portion of the shaft portion in the axial direction crosses the rotation axis and the channel axis when the channel is opened. In the case, it is closer to the channel axis. It is necessary to match this maximum width portion to form the margin of the channel. By the fact that the largest portion of the width approaches the channel axis, compared with the case where the rotation axis of the shaft portion intersects the channel axis, the margin portion is surely reduced, and the resistance at the time of navigation is reduced, and an upward improvement in the fuel consumption rate is obtained.

更適合本發明之實施方式之蓋部係呈表面及背面為凸曲面的翼形。當蓋部平倒後使槽道打開時,在此狀態下驅動螺旋槳之際,通過軸線內之流體的阻力變小,因而可達到燃料消耗率的向上改善之目的。 The cover portion which is more suitable for the embodiment of the present invention has a wing shape in which the front surface and the back surface are convex curved surfaces. When the groove is opened and the groove is opened, when the propeller is driven in this state, the resistance of the fluid passing through the axis becomes small, so that the fuel consumption rate can be improved upward.

更適合本發明之實施方式係將固定於蓋部之軸部數量設置為一對,此對軸部係分別獨立配置於蓋部之兩側。由於此對軸部係分別獨立配置。因此,當伴隨著單一軸部之損傷發生等而隨之而來的 修理或維修較為容易施行。 More preferably, in the embodiment of the present invention, the number of the shaft portions fixed to the lid portion is set to be a pair, and the pair of shaft portions are independently disposed on both sides of the lid portion. Since the pair of shaft portions are separately configured. Therefore, when the damage occurs with a single shaft portion, etc. Repair or repair is easier to implement.

更適合本發明之實施方式係使用可利用油壓啟閉蓋部的驅動部。藉由利用油壓,儘管是小型的驅動裝置,仍可獲得極大的輸出,減少摩擦損失,且其效率佳。 More preferably, the embodiment of the present invention uses a driving portion that can open and close the lid portion by hydraulic pressure. By utilizing the oil pressure, although it is a small driving device, an extremely large output can be obtained, friction loss is reduced, and the efficiency is good.

更適合本發明之實施方式的驅動部係可具有一對的臂部,分別自一對的軸部突出,並位於沿著與軸部之旋轉軸線之交叉方向上的延伸方向上。一對的汽缸部,分別連結於一對的臂部,使臂部傾斜移動而環繞軸部旋轉。以及油壓泵,施加油壓於一對汽缸部的雙方。於汽缸部的開始作用後,臂部會傾斜移動,藉由臂部之傾斜移動,軸部進行旋轉來啟閉蓋部。因此,可以使用極小的力量,即可有效率地啟閉蓋部。 A drive unit that is more suitable for the embodiment of the present invention may have a pair of arm portions that respectively protrude from a pair of shaft portions and are located in an extending direction along a direction intersecting the rotation axis of the shaft portion. The pair of cylinder portions are coupled to the pair of arm portions, and the arm portion is tilted to rotate around the shaft portion. And a hydraulic pump that applies hydraulic pressure to both of the pair of cylinder sections. After the start of the cylinder portion, the arm portion is tilted and moved, and the shaft portion is rotated to open and close the lid portion. Therefore, the cover can be opened and closed efficiently with a very small force.

更適合本發明之實施方式的驅動部更可具有檢測部,該檢測部設置於汽缸部,當檢測到蓋部之開啟位置及關閉位置之至少一方後,將油壓泵之動作停止。當檢測部檢測出蓋部之開啟位置時,可將自關閉位置移動至開啟位置之蓋部確實地停止於開啟位置;當檢測部檢測出蓋部之關閉位置時,可將自開啟位置移動至關閉位置之蓋部確實地停止於關閉位置。 Further, the drive unit according to the embodiment of the present invention may further include a detection unit that is provided in the cylinder portion and stops the operation of the hydraulic pump when at least one of the open position and the closed position of the cover portion is detected. When the detecting portion detects the open position of the cover portion, the cover portion that moves from the closed position to the open position can be surely stopped at the open position; when the detecting portion detects the closed position of the cover portion, the self-opening position can be moved to The lid portion of the closed position is surely stopped at the closed position.

更適合本發明之實施方式的蓋部還可具有一鎖緊部,當蓋部關閉槽道時,維持施加於汽缸部之油壓,保持蓋部於一固定位置。由於可保持蓋部於固定位置(例如,關閉位置或開啟位置),因此,可除去蓋部晃動所造成的影響,可穩定並減低可能於槽道出入口上所發生的阻力。 The cover portion more suitable for the embodiment of the present invention may further have a locking portion that maintains the oil pressure applied to the cylinder portion when the cover portion closes the channel, and holds the cover portion at a fixed position. Since the cover portion can be held in a fixed position (for example, a closed position or an open position), the influence of the sway of the cover portion can be removed, and the resistance that may occur at the entrance and exit of the channel can be stabilized and reduced.

更適合本發明之實施方式的蓋部更可具有一過負荷防止部,其在蓋部關閉槽道出入口狀態之下,蓋部上承受到過負荷外力的施加時,解除鎖緊部對蓋部的保持。由於在過負荷外力施加於蓋部的情況發生時,藉由解除鎖緊部對蓋部的保持,因此,可獲得避免過負荷所造成蓋部或驅動部的損傷等之功效。 The cover portion which is more suitable for the embodiment of the present invention may further have an overload preventing portion that releases the locking portion to the cover portion when the cover portion is subjected to the application of an external force of overload under the state in which the cover portion closes the channel entrance and exit. Keep it. When the external force is applied to the lid portion by the overload, the holding portion of the lid portion is released by the unlocking portion, so that it is possible to avoid the damage of the lid portion or the driving portion caused by the overload.

更適合本發明之實施方式的船底,係在船首側的前部及船尾側的後部兩者設置有側推動器之槽道,蓋部至少可利用作為啟閉位於前部之槽道之出入口。由於正常航行時,燃料消耗率容易因船首側之側推動器之槽道的阻力而減低。因此,藉由以蓋部啟閉至少前部之槽道之出入口,而可達到有效率地抑制燃料消耗率之減低的目的。 More preferably, the bottom of the ship according to the embodiment of the present invention is provided with a side pusher groove at both the front side of the bow side and the rear part of the stern side, and the cover portion can be used at least as an entrance and exit for opening and closing the groove at the front portion. Since the fuel consumption rate is easily reduced due to the resistance of the channel of the side pusher on the bow side during normal navigation. Therefore, the purpose of effectively reducing the fuel consumption rate can be achieved by opening and closing at least the inlet and outlet of the channel at the front portion by the lid portion.

1‧‧‧船體(具有側推動器之船體) 1‧‧‧ Hull (hull with side pushers)

1a‧‧‧船首 1a‧‧‧ bow

1b‧‧‧船尾 1b‧‧‧Stern

3‧‧‧艏推動器(側推動器) 3‧‧‧艏 pusher (side pusher)

5‧‧‧艉推動器(側推動器) 5‧‧‧艉 pusher (side pusher)

7‧‧‧船底 7‧‧‧Bottom of the ship

7a‧‧‧船底7的外周面 7a‧‧‧The outer circumference of the bottom 7 of the ship

9‧‧‧槽道 9‧‧‧ channel

9a‧‧‧槽道之出入口 9a‧‧‧ entrance and exit of the channel

11‧‧‧螺旋槳 11‧‧‧propeller

13‧‧‧驅動馬達 13‧‧‧Drive motor

14‧‧‧熔接點 14‧‧‧welding point

15‧‧‧艙室 15‧‧‧ cabin

17‧‧‧蓋部 17‧‧‧ 盖部

17a‧‧‧表面 17a‧‧‧ surface

17b‧‧‧背面 17b‧‧‧Back

19A、19B‧‧‧軸部 19A, 19B‧‧‧Axis

21‧‧‧輪轂部 21‧‧·Wheel hub

23‧‧‧臂部 23‧‧‧ Arms

24‧‧‧驅動裝置(驅動部) 24‧‧‧Drive unit (drive unit)

25A、25B‧‧‧油壓缸(汽缸部) 25A, 25B‧‧‧ hydraulic cylinder (cylinder unit)

25a‧‧‧活塞桿 25a‧‧‧Piston rod

25b‧‧‧活塞 25b‧‧‧Piston

25c,25d‧‧‧供油口 25c, 25d‧‧‧ oil supply port

27‧‧‧油壓泵 27‧‧‧Hydraulic pump

27a‧‧‧吐出口 27a‧‧‧Export

29‧‧‧電動機 29‧‧‧Electric motor

31‧‧‧油槽 31‧‧‧ oil tank

33‧‧‧過濾器 33‧‧‧Filter

35,56e,56f,56g,56h‧‧‧逆止閥 35, 56e, 56f, 56g, 56h‧‧‧ check valve

37‧‧‧釋放閥 37‧‧‧ release valve

39‧‧‧止流閥 39‧‧‧ stop valve

41‧‧‧電磁方向切換閥 41‧‧‧Electromagnetic direction switching valve

43‧‧‧鎖緊電路(鎖緊部) 43‧‧‧Locking circuit (locking part)

43a,43b‧‧‧先導檢驗閥 43a, 43b‧‧‧ pilot test valve

45‧‧‧過負荷防止電路(過負荷防止部) 45‧‧‧Overload prevention circuit (overload prevention unit)

47A,47B‧‧‧蓋關閉位置檢測開關(檢測部) 47A, 47B‧‧‧ cover closed position detection switch (detection unit)

49A,49B‧‧‧蓋開啟位置檢測開關(檢測部) 49A, 49B‧‧‧ cover open position detection switch (detection unit)

51‧‧‧第一油路 51‧‧‧First oil road

52‧‧‧第二油路 52‧‧‧Second oil road

53‧‧‧第二油路52之旁通路 53‧‧‧Access to the second oil passage 52

54‧‧‧第三油路 54‧‧‧ Third oil road

55‧‧‧第四油路 55‧‧‧ fourth oil road

56‧‧‧第二油路52之返回油路 56‧‧‧Return oil circuit of the second oil passage 52

57‧‧‧安全閥 57‧‧‧Safety valve

56a‧‧‧第一旁通路 56a‧‧‧First bypass

56b‧‧‧第二旁通路 56b‧‧‧second bypass

56c‧‧‧第三旁通路 56c‧‧‧ third bypass

56d‧‧‧第四旁通路 56d‧‧‧fourth bypass

107‧‧‧船體(習知一般船體) 107‧‧‧ hull (preferred general hull)

109‧‧‧槽道 109‧‧‧ channel

117‧‧‧蓋部 117‧‧‧ 盖部

117a‧‧‧表面 117a‧‧‧ surface

119‧‧‧軸部 119‧‧‧Axis

B1‧‧‧船底7佔設置的槽道9之下側寬度 B1‧‧‧Bottom 7 occupies the width of the lower side of the provided channel 9

B2‧‧‧船底7佔設置的槽道9之上側寬度 B2‧‧‧Bottom 7 occupies the width of the upper side of the channel 9

L1‧‧‧槽道軸線 L1‧‧‧ channel axis

L2‧‧‧軸部之旋轉軸線 L2‧‧‧ axis of rotation of the shaft

L3‧‧‧旋轉軸線 L3‧‧‧Rotation axis

Pa‧‧‧蓋部表面最大寬度部分 Pa‧‧‧Maximum width portion of the cover surface

Pb‧‧‧表面117a中最大寬度部分 Pb‧‧‧Maximum width portion of surface 117a

Pc‧‧‧關閉位置 Pc‧‧‧Closed position

Po‧‧‧開啟位置 Po‧‧‧Open position

Pn‧‧‧中立位置 Pn‧‧‧Neutral position

Ra,Rb‧‧‧餘裕部 Ra, Rb‧‧‧ Yu Yubu

Sa‧‧‧蓋部表面至槽道軸線之徑長 Sa‧‧‧The length of the surface of the cover to the axis of the channel

Sb‧‧‧蓋部表面至槽道軸線之徑長 Sb‧‧‧The length of the surface of the cover to the axis of the channel

第1圖 係為本發明的實施方式相關之具有側推動器之船體的示意圖,第1(a)圖係為側視圖,第1(b)圖係為仰視圖;第2圖 係為沿第1圖中Ⅱ-Ⅱ線的斷面圖;第3圖 係為油壓缸放大後的側視示意圖;第4圖 係為蓋部將槽道之出入口關閉狀態時的前視圖;第5圖 係為蓋部的俯視圖;第6圖 係為驅動裝置之油壓電路的示意圖;第7圖 係為習知例相關之蓋部的斷面圖;以及第8圖 係為用以比較本實施方式與習知例之示意圖,第8(a)圖係為本實施方式相關之蓋部的斷面圖,第8(b)圖係為本實施方式相關之蓋部的前視圖,第8(c)圖係為習知例相關之蓋部的 斷面圖,第8(d)圖係有關習知例之蓋部的前視圖。 1 is a schematic view of a hull having a side pusher according to an embodiment of the present invention, and FIG. 1(a) is a side view, and FIG. 1(b) is a bottom view; Fig. 1 is a cross-sectional view taken along line II-II; Fig. 3 is a side elevational view showing the hydraulic cylinder enlarged; and Fig. 4 is a front view of the cover portion when the inlet and outlet of the channel are closed; Fig. 5 FIG. 6 is a schematic view of a hydraulic circuit of a driving device; FIG. 7 is a cross-sectional view of a cover portion according to a conventional example; and FIG. 8 is a view for comparing the present embodiment Fig. 8(a) is a cross-sectional view of a cover portion according to the present embodiment, and Fig. 8(b) is a front view of a cover portion according to the present embodiment, 8th (c) The figure is the cover of the conventional example The sectional view, Fig. 8(d) is a front view of the cover of the conventional example.

以下,請參閱有關本發明的較佳實施方式之具有側推動器之船體的示意圖。第1圖係為具有側推動器之船體(以下簡稱為船體)之示意圖,其中,第1(a)圖為側視圖,第1(b)圖為仰視圖。 Hereinafter, please refer to the schematic view of a hull having a side pusher in accordance with a preferred embodiment of the present invention. 1 is a schematic view of a hull having a side pusher (hereinafter simply referred to as a hull), wherein FIG. 1(a) is a side view and FIG. 1(b) is a bottom view.

於船體1中,在船首1a側的前部及船尾1b側的後部兩個部位上設置有側推動器3、5。船首1a側之側推動器3通稱為艏推動器3,船尾1b側之側推動器5通稱為艉推動器5。近年來,大型客船等雖然是具有三座艏推動器3及三座艉推動器5之構成,但在本實施方式所舉例的則是具有一座艏推動器3及一座艉推動器5之船體1。 In the hull 1, side pushers 3, 5 are provided at the front portion on the bow 1a side and the rear portion on the stern 1b side. The side pusher 3 on the bow 1a side is generally referred to as a 艏 pusher 3, and the side pusher 5 on the stern 1b side is generally referred to as a 艉 pusher 5. In recent years, although a large passenger ship or the like has a configuration of three squat pushers 3 and three squat pushers 5, in the present embodiment, a hull having a hoe pusher 3 and a hoe pusher 5 is exemplified. 1.

由於若具備艏推動器3及艉推動器5,即使靠岸至碼頭時,無須呼叫拖船等的支援,也可容易地操作船隻將其靠岸。因此,不僅便利,也很經濟的即可完成船隻靠岸作業。 Since the 艏 pusher 3 and the 艉 pusher 5 are provided, even when docked to the dock, it is possible to easily operate the ship to dock it without calling for assistance from a tugboat or the like. Therefore, it is not only convenient but also economical to complete the ship docking operation.

第2圖係為沿第1圖中Ⅱ-Ⅱ線之斷面圖,係將艏推動器3部分放大的示意圖,第3圖係為油壓缸放大後的側視示意圖。又,第4圖係為蓋部將槽道之出入口關閉狀態時的前視圖。第5圖係為蓋部的俯視圖。以下將參閱第2圖至第5圖之圖式對側推動器進行說明,在本實施方式中,艏推動器3及艉推動器5在實際上係為相同構成。因此,以下將以艏推動器3為中心進行實施方式的說明,而省略對艉推動器5的說明。 Fig. 2 is a cross-sectional view taken along line II-II of Fig. 1, which is a schematic view showing an enlarged portion of the crucible pusher 3, and Fig. 3 is a side elevational view showing an enlarged hydraulic cylinder. Further, Fig. 4 is a front view showing a state in which the lid portion closes the entrance and exit of the channel. Figure 5 is a plan view of the cover. Hereinafter, the contralateral pusher will be described with reference to Figs. 2 to 5, and in the present embodiment, the crucible pusher 3 and the crucible pusher 5 are substantially identical in configuration. Therefore, the description of the embodiment will be made centering on the crucible pusher 3, and the description of the crucible pusher 5 will be omitted.

船體1之船底7係需要考量吃水時水中的阻力及船隻操作性等種種要素來進行設計。關於本實施方式的船底7係設計為流線型用以 減低航行時之流體阻力(請參閱第1(b)圖)。於船底7中設置有艏推動器3之槽道9。槽道9係為斷面呈圓形之圓筒狀,沿著與其前後方向正交之左右方向將船底7貫通。於槽道9之左右方向的大致中央位置上,設置有螺旋槳11,其用來將流入槽道9內的海水等流體吸入後吐出。螺旋槳11係藉由驅動馬達13之驅動而進行旋轉,驅動馬達13係配置於設置在船底7內之艙室15內。 The bottom 7 of the hull 1 needs to be designed in consideration of various factors such as resistance in water and ship handling. The bottom 7 of the present embodiment is designed to be streamlined. Reduce fluid resistance during navigation (see Figure 1(b)). A channel 9 of the crucible pusher 3 is provided in the bottom 7 of the ship. The channel 9 is a cylindrical shape having a circular cross section, and the ship bottom 7 is penetrated in the left-right direction orthogonal to the front-rear direction. At a substantially central position in the left-right direction of the channel 9, a propeller 11 for sucking in fluid such as seawater flowing into the channel 9 and discharging it is provided. The propeller 11 is rotated by the drive of the drive motor 13, and the drive motor 13 is disposed in the cabin 15 provided in the bottom 7 of the ship.

於設置有槽道9的部分中,船底7的下側寬度B1較上側寬度B2為窄(請參閱第2圖)。因此,位於槽道9左右的出入口9a附近之船底7的外周面係形成相對於槽道9之中心線(槽道軸線)L1而言為一斜切面傾斜之凸狀曲面。位於槽道9左右的出入口9a上,設置有分別啟閉各個出入口9a之蓋部17。蓋部17雖與藉由軸部19A、19B之旋轉而進行啟閉之類蝶形閥之構造相似,但是蓋部17之俯視形狀並非接近正圓的圓形,而較接近橢圓之卵型形狀(請參閱第5圖)。此蓋部17之形狀係仿照槽道9之出入口9a附近之船底7之外周面的形狀,係對應於斜切槽道9時所生成之形狀。 In the portion in which the channel 9 is provided, the lower side width B1 of the ship bottom 7 is narrower than the upper side width B2 (see Fig. 2). Therefore, the outer peripheral surface of the ship bottom 7 located in the vicinity of the entrance and exit 9a of the left and right sides of the channel 9 is formed into a convex curved surface which is inclined with respect to the center line (slot axis) L1 of the channel 9 by a chamfered surface. A cover portion 17 for opening and closing each of the inlets and outlets 9a is provided on the inlet and outlet 9a located at the left and right of the channel 9. Although the lid portion 17 is similar in structure to the butterfly valve that is opened and closed by the rotation of the shaft portions 19A, 19B, the shape of the lid portion 17 is not close to a perfect circular shape, but is closer to the oval shape of the ellipse. (See Figure 5). The shape of the cover portion 17 is similar to the shape of the outer peripheral surface of the ship bottom 7 in the vicinity of the entrance and exit 9a of the channel 9, and corresponds to the shape formed when the groove 9 is chamfered.

蓋部17當槽道9之出入口9a關閉之時,具有面向槽道9之外側之表面17a,及面向槽道9之內側之背面17b。蓋部17所包含之表面17a及背面17b為凸曲面之翼形,呈凸透鏡狀。且,蓋部17可藉一翼形板體將槽道9之出入口9a關閉。 The lid portion 17 has a surface 17a facing the outer side of the channel 9 and a back surface 17b facing the inner side of the channel 9 when the inlet and outlet 9a of the channel 9 are closed. The surface 17a and the back surface 17b included in the lid portion 17 have a convex curved shape and have a convex lens shape. Moreover, the cover portion 17 can close the entrance 9a of the channel 9 by a wing-shaped plate body.

如第4圖所示,於蓋部17之兩側(船體1之前後方向之兩側)上設置各別獨立之一對的軸部19A、19B。軸部19A、19B支撐於藉由熔接形成之熔接點14,或其他等方式固定於槽道9附近之船底7之輪轂部21上。於輪轂部21內組裝有,軸承部(未圖示),用以旋轉自如 地支撐軸部19A、19B以及密封環(未圖示),用於構成水密機構。由於一對的軸部19A、19B係分別獨立設於蓋部17之兩側。因此,容易進行組裝及解體等,將軸部19A、19B插入或拔出輪轂部21內時,所需外部空間亦可較以橫切蓋部之一軸部旋轉自如地支撐蓋部的情形相比為小即可實行。 As shown in Fig. 4, shaft portions 19A and 19B of a pair of independent pairs are provided on both sides of the cover portion 17 (both sides in the front and rear directions of the hull 1). The shaft portions 19A, 19B are supported by the welded joints 14 formed by welding, or otherwise fixed to the hub portion 21 of the ship bottom 7 near the channel 9. A bearing portion (not shown) is assembled in the hub portion 21 for rotation freely The ground support shaft portions 19A and 19B and a seal ring (not shown) are used to constitute a watertight mechanism. The pair of shaft portions 19A and 19B are separately provided on both sides of the lid portion 17. Therefore, it is easy to assemble, disassemble, etc., and when the shaft portions 19A and 19B are inserted into or pulled out of the hub portion 21, the required external space can be compared with the case where the cover portion is rotatably supported by one of the shaft portions of the cover portion. It can be implemented as small.

一對的軸部19A、19B中,單一軸部19A之基端側固定於蓋部17。軸部19A之前端自輪轂部21突出,於前端上固定有臂部23,上述臂部位於沿著與軸部19A之旋轉軸線L2的正交方向上突出而延伸方向上。臂部23藉由銷連結於油壓缸25A之活塞桿25a上。臂部23藉由活塞桿25a之往返運動,以軸部19A為中心進行傾斜移動,隨著臂部23之傾斜移動,軸部19A隨之旋轉。另一軸部19B亦如上述相同機制,旋轉自如地支撐於固定在船底7的輪轂部21,臂部23連結於活塞桿25a上。臂部23藉由銷連結於油壓缸25B之活塞桿25a上,並藉由活塞桿25a之往返運動而進行傾斜移動,隨著臂部23之傾斜移動,軸部19B隨之旋轉。且於活塞桿25a為前進狀態,其終端上設置有對應於蓋部17之關閉位置之止動構件(未圖示),活塞桿25a係藉由頂接於止動構件,來作為前進移動的制限。 Among the pair of shaft portions 19A and 19B, the base end side of the single shaft portion 19A is fixed to the lid portion 17. The front end of the shaft portion 19A protrudes from the hub portion 21, and an arm portion 23 is fixed to the distal end thereof, and the arm portion is located in a direction in which the arm portion protrudes in a direction orthogonal to the rotation axis L2 of the shaft portion 19A. The arm portion 23 is coupled to the piston rod 25a of the hydraulic cylinder 25A by a pin. The arm portion 23 is tilted and moved about the shaft portion 19A by the reciprocation of the piston rod 25a, and the shaft portion 19A rotates as the arm portion 23 moves obliquely. The other shaft portion 19B is also rotatably supported by the hub portion 21 fixed to the ship bottom 7 by the same mechanism as described above, and the arm portion 23 is coupled to the piston rod 25a. The arm portion 23 is coupled to the piston rod 25a of the hydraulic cylinder 25B by a pin, and is tilted by the reciprocating movement of the piston rod 25a. As the arm portion 23 moves obliquely, the shaft portion 19B rotates. The piston rod 25a is in a forward state, and a stopper member (not shown) corresponding to the closed position of the lid portion 17 is provided at the terminal end, and the piston rod 25a is moved forward by the abutment of the stopper member. Limitation.

分別連結於兩軸部19A、19B之一對的活塞桿25a係同步地進行往返運動,兩軸部19A、19B一面調整,一面旋轉。隨著軸部19A、19B之旋轉,蓋部17隨之進行啟閉運動。蓋部17在仿照槽道9之出入口9a附近之船底7之外周面7a而傾斜地豎立狀態下,將槽道9之出入口9a關閉,在平倒而水平橫躺狀態下,使槽道9之出入口9a全開。 The piston rods 25a connected to one pair of the two shaft portions 19A and 19B are reciprocated in synchronization, and the two shaft portions 19A and 19B are rotated while being adjusted. As the shaft portions 19A, 19B rotate, the lid portion 17 follows the opening and closing movement. The lid portion 17 is erected obliquely in the state of the outer peripheral surface 7a of the ship bottom 7 in the vicinity of the inlet and outlet 9a of the channel 9, and the inlet and outlet 9a of the channel 9 are closed, and the inlet and outlet of the channel 9 are made horizontally and horizontally. 9a is fully open.

蓋部17藉由利用油壓之驅動裝置(驅動部)24而被啟閉。於第6圖中所示意的為構成驅動裝置24之油壓電路。如第6圖所示,驅動裝置24具有將活塞桿25a進行往返運動之油壓缸25A、25B。油壓缸25A、25B對應於蓋部17之各軸部19A、19B設置一對,配置成夾持著蓋部17的狀態。 The lid portion 17 is opened and closed by a driving device (drive portion) 24 that uses hydraulic pressure. What is illustrated in Fig. 6 is a hydraulic circuit that constitutes the drive unit 24. As shown in Fig. 6, the drive unit 24 has hydraulic cylinders 25A and 25B for reciprocating the piston rod 25a. The hydraulic cylinders 25A and 25B are provided in correspondence with each of the shaft portions 19A and 19B of the lid portion 17, and are disposed in a state in which the lid portion 17 is sandwiched.

於驅動裝置24之油壓電路中,設置有自油槽31連通電磁方向切換閥41之第一油路51及第二油路52。第一油路51係為供給液壓油之管線,第二油路52係為使液壓油回到油槽31之管線。 In the hydraulic circuit of the drive unit 24, a first oil passage 51 and a second oil passage 52 that communicate with the electromagnetic direction switching valve 41 from the oil groove 31 are provided. The first oil passage 51 is a line for supplying hydraulic oil, and the second oil passage 52 is a line for returning hydraulic oil to the oil groove 31.

於第一油路51上設置有油壓泵27。油壓泵27藉由電動機29之啟動而開始動作,自油槽31吸入液壓油,再藉由吐出口27a將其吐出。又於第一油路51上,位於油壓泵27之上游位置,也就是,油槽31側上設置有用以保護油壓泵27之過濾器33。又於第一油路51上,在油壓泵27之下游側上設置逆止閥35及止流閥39。 A hydraulic pump 27 is provided on the first oil passage 51. The hydraulic pump 27 is started by the activation of the electric motor 29, and the hydraulic oil is sucked from the oil groove 31, and is discharged by the discharge port 27a. Further, on the first oil passage 51, a filter 33 for protecting the hydraulic pump 27 is provided at a position upstream of the hydraulic pump 27, that is, on the oil groove 31 side. Further, on the first oil passage 51, a check valve 35 and a check valve 39 are provided on the downstream side of the hydraulic pump 27.

又於第一油路51上設置有在逆止閥35與止流閥39間分岐而與第二油路52連通之旁通路53,於旁通路53上設置有保持油壓電路內部為定壓狀態之釋放閥37。 Further, the first oil passage 51 is provided with a bypass passage 53 that branches between the check valve 35 and the check valve 39 and communicates with the second oil passage 52. The bypass passage 53 is provided with a constant pressure inside the holding hydraulic circuit. State release valve 37.

電磁方向切換閥41藉由自中立位置Pn勵磁,而切換至開啟位置Po或關閉位置Pc兩方中之任一方,一旦消磁後,則恢復至中立位置Pn。開啟位置Po係為,活塞桿25a突出(前進)後,使蓋部17朝開啟方向移動而供給液壓油之位置。關閉位置Pc係為活塞桿25a退回(後退)後,使蓋部17朝關閉方向移動而供給液壓油之位置。中立位置Pn係為停止對油壓缸25A、25B供給液壓油之位置。又,電 磁方向切換閥41與蓋關閉位置檢測開關47A、47B及蓋開啟位置檢測開關49A、49B係為電性連接。電磁方向切換閥41根據來自蓋關閉位置檢測開關47A、47B及蓋開啟位置檢測開關49A、49B之檢測信號,進行於開啟位置Po,中立位置Pn或關閉位置Pc之間的切換動作。 The electromagnetic direction switching valve 41 is switched to either one of the open position Po or the closed position Pc by excitation from the neutral position Pn, and returns to the neutral position Pn once demagnetized. The opening position Po is such that after the piston rod 25a is protruded (advanced), the lid portion 17 is moved in the opening direction to supply the position of the hydraulic oil. The closing position Pc is such that the piston rod 25a is retracted (retracted), and the lid portion 17 is moved in the closing direction to supply the position of the hydraulic oil. The neutral position Pn is a position at which the supply of the hydraulic oil to the hydraulic cylinders 25A and 25B is stopped. Again, electricity The magnetic direction switching valve 41 and the lid closing position detecting switches 47A and 47B and the lid opening position detecting switches 49A and 49B are electrically connected. The electromagnetic direction switching valve 41 performs a switching operation between the open position Po, the neutral position Pn, or the closed position Pc based on the detection signals from the cover closed position detecting switches 47A and 47B and the cover open position detecting switches 49A and 49B.

電磁方向切換閥41藉由一對油壓缸25A、25B分別連通之第三油路54及第四油路55與上述之油壓缸25A、25B相連接。當電磁方向切換閥41位於開啟位置Po之時,其動作為,供自第一油路51之液壓油將供至第三油路54,自第四油路55回流之液壓油經由第二油路52回到油槽31。當電磁方向切換閥41位於關閉位置Pc之時,其動作為供自第一油路51之液壓油供至第四油路55,自第三油路54回流之液壓油經由第二油路52回流至油槽31。當電磁方向切換閥41位於中立位置Pn之時,其動作為即使自第一油路51所供給液壓油不供應至第三油路54及第四油路55,而經由第二油路52回到油槽31。 The electromagnetic direction switching valve 41 is connected to the above-described hydraulic cylinders 25A and 25B via a third oil passage 54 and a fourth oil passage 55 that are respectively connected to the hydraulic cylinders 25A and 25B. When the electromagnetic direction switching valve 41 is located at the open position Po, the action is that the hydraulic oil supplied from the first oil passage 51 is supplied to the third oil passage 54, and the hydraulic oil returned from the fourth oil passage 55 is passed through the second oil. The road 52 returns to the oil sump 31. When the electromagnetic direction switching valve 41 is located at the closed position Pc, the action is that the hydraulic oil supplied from the first oil passage 51 is supplied to the fourth oil passage 55, and the hydraulic oil returning from the third oil passage 54 is passed through the second oil passage 52. Return to the oil sump 31. When the electromagnetic direction switching valve 41 is at the neutral position Pn, the operation is such that the hydraulic oil supplied from the first oil passage 51 is not supplied to the third oil passage 54 and the fourth oil passage 55, but is returned via the second oil passage 52. Go to the oil tank 31.

第三油路54具有分歧,各分歧路分別連接於一對油壓缸25A、25B。又,第四油路55具有分歧,各分歧路分別連接於一對油壓缸25A、25B。由於一對油壓缸25A、25B係為相同構成,因此,僅以單一油壓缸25A為例,對第三油路54以及第四油路55與油壓缸25A、25B的連接加以說明。油壓缸25A係包含複動個缸,供給液壓油之二供油口25c、25d係以可夾持著活塞25b而設置。第三油路54連接於可將活塞桿25a前進之前進側供油口25c,第四油路55連接於將活塞桿25a後退之後退側供油口25d。於自第三油路54供給液 壓油情況下,則自第四油路55排出液壓油。於自第四油路55供給液壓油情況下,則自第三油路54排出液壓油。 The third oil passage 54 has a branch, and each of the branch passages is connected to the pair of hydraulic cylinders 25A and 25B. Further, the fourth oil passage 55 has a branch, and each of the branch passages is connected to the pair of hydraulic cylinders 25A and 25B. Since the pair of hydraulic cylinders 25A and 25B have the same configuration, the connection of the third oil passage 54 and the fourth oil passage 55 to the hydraulic cylinders 25A and 25B will be described using only the single hydraulic cylinder 25A as an example. The hydraulic cylinder 25A includes a double-acting cylinder, and the two oil supply ports 25c and 25d for supplying hydraulic oil are provided so as to be able to hold the piston 25b. The third oil passage 54 is connected to the inlet side oil supply port 25c before the piston rod 25a is advanced, and the fourth oil passage 55 is connected to the retracting side oil supply port 25d after the piston rod 25a is retracted. Supply liquid from the third oil passage 54 In the case of oil pressure, the hydraulic oil is discharged from the fourth oil passage 55. When hydraulic oil is supplied from the fourth oil passage 55, the hydraulic oil is discharged from the third oil passage 54.

於第三油路54及第四油路55上設置鎖緊電路(鎖緊部)43。鎖緊電路43係具有分別設於第三油路54及第四油路55之先導檢驗閥43a及43b。設於第三油路54之先導檢驗閥43a容許液壓油自電磁方向切換閥41流出,限制液壓油自油壓缸25A、25B側流出。又,設於第四油路55之先導檢驗閥43b容許液壓油自電磁方向切換閥41流出,限制液壓油自油壓缸25A、25B側流出。鎖緊電路43在蓋部17到達開啟位置或關閉位置而電磁方向切換閥41切換至中立位置Pn之際,抑制液壓油自油壓缸25A、25B的逆流,保持活塞桿25a於固定位置,其成效為停止蓋部17之運動,並將蓋部17保持於固定位置。 A locking circuit (locking portion) 43 is provided on the third oil passage 54 and the fourth oil passage 55. The lock circuit 43 has pilot check valves 43a and 43b provided in the third oil passage 54 and the fourth oil passage 55, respectively. The pilot check valve 43a provided in the third oil passage 54 allows the hydraulic oil to flow out from the electromagnetic direction switching valve 41, and restricts the flow of the hydraulic oil from the hydraulic cylinders 25A, 25B. Further, the pilot check valve 43b provided in the fourth oil passage 55 allows the hydraulic oil to flow out from the electromagnetic direction switching valve 41, and restricts the flow of the hydraulic oil from the hydraulic cylinders 25A and 25B. When the lid portion 17 reaches the open position or the closed position and the electromagnetic direction switching valve 41 is switched to the neutral position Pn, the hydraulic oil is prevented from flowing back from the hydraulic cylinders 25A, 25B, and the piston rod 25a is held at a fixed position. The effect is to stop the movement of the cover portion 17 and to hold the cover portion 17 in a fixed position.

又,設於第三油路54之先導檢驗閥43a在自電磁方向切換閥41側供給液壓油而承受油壓時,開啟設於第四油路55之先導檢驗閥43b。其成效為於第四油路55中,來自油壓缸25A、25B側之液壓油朝向電磁方向切換閥41側排出。其成效為在自第三油路54供給液壓油之際,來自第四油路55之液壓油可平穩地被排出。又,設於第四油路55之先導檢驗閥43b在自電磁方向切換閥41側供給液壓油而承受油壓時,開啟設於第三油路54之先導檢驗43a。其成效為於第三油路54中,來自油壓缸25A、25B側之液壓油向電磁方向切換閥41側排出。其成效為自第四油路55供給液壓油之際,來自第三油路54之液壓油可平穩地被排出。 Further, when the pilot check valve 43a provided in the third oil passage 54 supplies hydraulic oil from the electromagnetic direction switching valve 41 side and receives the hydraulic pressure, the pilot check valve 43b provided in the fourth oil passage 55 is opened. The effect is that the hydraulic oil from the hydraulic cylinders 25A and 25B side is discharged toward the electromagnetic direction switching valve 41 side in the fourth oil passage 55. The effect is that the hydraulic oil from the fourth oil passage 55 can be smoothly discharged while the hydraulic oil is supplied from the third oil passage 54. Further, when the pilot check valve 43b provided in the fourth oil passage 55 supplies hydraulic oil from the electromagnetic direction switching valve 41 side and receives the hydraulic pressure, the pilot test 43a provided in the third oil passage 54 is opened. The effect is that the hydraulic oil from the hydraulic cylinders 25A and 25B side is discharged to the electromagnetic direction switching valve 41 side in the third oil passage 54. The effect is that when the hydraulic oil is supplied from the fourth oil passage 55, the hydraulic oil from the third oil passage 54 can be smoothly discharged.

又,於第三油路54及第四油路55上,較鎖緊電路43更靠近油壓缸 25A、25B側的位置上設置有過負荷防止電路(過負荷防止部)45。於過負荷防止電路45上設置連接於第二油路52之返回油路56。於返回油路56設有安全閥(釋放閥)57。於返回油路56中較安全閥57更為上游之位置,也就是接近鎖緊電路43側上設置連接於第三油路54之第一旁通路56a及連接於第四油路55之第二旁通路56b。又於返回油路56中較安全閥57更為下游位置上設置連接於第三油路54之第三旁通路56c及連接於第四油路55之第四旁通路56d。於第一旁通路56a上設置逆止閥56e,限制自第三油路54朝返回油路56流動,於第二旁通路56b上設置逆止閥56f,限制自第四油路55朝返回油路56流動。又,於第三旁通路56c上設置逆止閥56g,將第三油路54之高油壓導引至安全閥57,於第四旁通路56d上設置逆止閥56h,將第四油路55之高油壓導引至安全閥57。逆止閥56g阻止自第四油路55流向第三油路54。又,逆止閥56h阻止自第三油路54流向第四油路55。 Moreover, on the third oil passage 54 and the fourth oil passage 55, the lock cylinder 43 is closer to the hydraulic cylinder. An overload prevention circuit (overload prevention unit) 45 is provided at a position on the 25A and 25B sides. A return oil passage 56 connected to the second oil passage 52 is provided in the overload prevention circuit 45. A safety valve (release valve) 57 is provided in the return oil passage 56. The return oil passage 56 is located further upstream than the safety valve 57, that is, the first bypass passage 56a connected to the third oil passage 54 and the second connected to the fourth oil passage 55 are disposed on the side closer to the locking circuit 43. Side passage 56b. Further, a third bypass passage 56c connected to the third oil passage 54 and a fourth bypass passage 56d connected to the fourth oil passage 55 are provided in the return oil passage 56 at a position further downstream than the relief valve 57. A check valve 56e is provided in the first bypass passage 56a to restrict the flow from the third oil passage 54 to the return oil passage 56, and a check valve 56f is provided on the second bypass passage 56b to restrict the return oil from the fourth oil passage 55. Road 56 flows. Further, a check valve 56g is provided in the third bypass passage 56c, the high oil pressure of the third oil passage 54 is guided to the relief valve 57, and the check valve 56h is provided in the fourth bypass passage 56d to open the fourth oil passage. The high oil pressure of 55 is directed to the safety valve 57. The check valve 56g prevents the flow from the fourth oil passage 55 to the third oil passage 54. Further, the check valve 56h prevents the flow from the third oil passage 54 to the fourth oil passage 55.

使用過負荷防止電路45用於防止外部對將槽道9關閉之蓋部17施加波浪力等外來的過負荷力量,其成效為,當經由活塞桿25a,第四油路55及逆止閥56h,施加固定壓力以上的油壓至安全閥57上時,則安全閥57即被開啟,液壓油經由逆止閥56e導向至第四油路55。同時,因油壓缸25A、25B之活塞25b之有效面積差而產生的油量不足部分可藉來自油槽31,經由第二油路52被補足。其成效為蓋部17朝開啟方向運動,不會施加過度負荷於蓋部17或驅動裝置24上,而可防止損傷。且,安全閥57係設定成比釋放閥37更為高壓。 The overload preventing circuit 45 is used to prevent externally applying an external overload force such as a wave force to the lid portion 17 that closes the channel 9, and the effect is that when the piston rod 25a, the fourth oil passage 55 and the check valve 56h are passed through the piston rod 25a. When a hydraulic pressure of a fixed pressure or more is applied to the relief valve 57, the relief valve 57 is opened, and the hydraulic oil is guided to the fourth oil passage 55 via the check valve 56e. At the same time, the insufficient amount of oil due to the difference in effective area of the piston 25b of the hydraulic cylinders 25A, 25B can be supplemented by the second oil passage 52 by the oil groove 31. The result is that the cover portion 17 moves in the opening direction, and no excessive load is applied to the cover portion 17 or the driving device 24, and damage can be prevented. Moreover, the relief valve 57 is set to be at a higher pressure than the relief valve 37.

又,於驅動裝置24上設置有蓋關閉位置檢測開關47A、47B,用於檢測活塞桿25a後退而拉入之狀態,亦即蓋部17將槽道9之出入口9a關閉的狀態。以及一對蓋開啟位置檢測開關49A、49B,用於檢測活塞桿25a前進而突出之狀態,亦即蓋部17將槽道9之出入口9a打開(全開)的狀態。蓋關閉位置檢測開關47A、47B及蓋開啟位置檢測開關49A、49B分別設於一對油壓缸25A、25B上,配置在接近油壓缸25A、25B之活塞桿25a之往返軌道的終端的位置。蓋關閉位置檢測開關47A、47B及蓋開啟位置檢測開關49A、49B電性連接於電動機29及電磁方向切換閥41上,構成可傳遞檢測信號的電路。 Further, the drive unit 24 is provided with cover closing position detecting switches 47A and 47B for detecting a state in which the piston rod 25a is retracted and pulled in, that is, a state in which the lid portion 17 closes the inlet and outlet 9a of the channel 9. And a pair of cover open position detecting switches 49A, 49B for detecting the state in which the piston rod 25a is advanced and protruded, that is, the state in which the lid portion 17 opens (opens) the inlet and outlet 9a of the channel 9. The lid closing position detecting switches 47A and 47B and the lid opening position detecting switches 49A and 49B are respectively provided in the pair of hydraulic cylinders 25A and 25B, and are disposed at positions close to the end of the reciprocating rail of the piston rod 25a of the hydraulic cylinders 25A and 25B. . The lid closing position detecting switches 47A and 47B and the lid opening position detecting switches 49A and 49B are electrically connected to the motor 29 and the electromagnetic direction switching valve 41 to constitute a circuit that can transmit a detection signal.

在有關本實施方式之船體1中,啟閉蓋部17之軸部19A、19B之旋轉軸線L2之軸向係沿著與槽道軸線L1正交方向上之延伸方向,相對於槽道軸線L1偏移至較為上方之位置上。以下請參閱第3圖,第7圖及第8圖,對因軸部19A、19B之旋轉軸線L2相對於槽道軸線L1的偏移而得到之機能及成效加以說明。 In the hull 1 according to the present embodiment, the axial direction of the rotation axis L2 of the shaft portions 19A, 19B of the opening and closing cover portion 17 is along the direction extending in the direction orthogonal to the channel axis L1 with respect to the channel axis. L1 is offset to the upper position. Hereinafter, referring to Fig. 3, Fig. 7 and Fig. 8, the function and effect obtained by the deviation of the rotation axis line L2 of the shaft portions 19A and 19B with respect to the groove axis L1 will be described.

第7圖係例示習知之側推動器,以蓋部為中心放大顯示之斷面圖。又,第8圖係用以比較習知之側推動器與本實施方式之側推動器,蓋部之示意圖,第8(a)圖係為本實施方式相關之蓋部的斷面圖,第8(b)圖係為本實施方式相關之蓋部的前視圖,第8(c)圖係為習知例相關之蓋部的斷面圖,第8(d)圖係為習知例之蓋部的前視圖,第8(c)圖與第8(d)圖成對應關係。 Fig. 7 is a cross-sectional view showing a conventional side pusher with an enlarged view centering on the lid portion. 8 is a schematic view for comparing a conventional side pusher with a side pusher of the present embodiment, and a cover portion, and FIG. 8(a) is a cross-sectional view of the cover portion according to the embodiment, 8th (b) is a front view of the cover portion according to the embodiment, and FIG. 8(c) is a cross-sectional view of a cover portion according to a conventional example, and FIG. 8(d) is a cover of a conventional example. The front view of the part, the 8th (c) figure corresponds to the 8th (d) figure.

如第8(c)圖,第8(d)圖所示,於習知例中,軸部119之旋轉軸線L3與槽道軸線L1係成交叉關係。由於蓋部117具有實際上的一厚 度。因此,在軸部119之旋轉軸線L3與蓋部117之表面117a間有固定距離。因此,若為了打開槽道109而使蓋部117平倒時,蓋部117之表面117a即會偏移至較旋轉軸線L3更為下側之位置上。於蓋部117將槽道109關閉的狀態下,雖然蓋部117之表面117a中,最大寬度部分Pb存在於槽道軸線L1之上。不過,若當蓋部117平倒,此最大寬度部分Pb仍接近至槽道軸線L1更為下側之位置上。因此,有必要於槽道109之出入口附近之內周面形成餘裕部Rb,以避免打開槽道109時與蓋部117之表面117a間的相互干涉。即使豎立起蓋部117而關閉槽道9,仍因無法以蓋部117完全覆蓋構成餘裕部Rb之間隙,以致於此餘裕部Rb之間隙在一般航行中成為阻力。 As shown in Fig. 8(c) and Fig. 8(d), in the conventional example, the rotation axis L3 of the shaft portion 119 is in a crossed relationship with the channel axis L1. Since the cover portion 117 has a substantial thickness degree. Therefore, there is a fixed distance between the rotation axis L3 of the shaft portion 119 and the surface 117a of the cover portion 117. Therefore, when the lid portion 117 is flattened to open the channel 109, the surface 117a of the lid portion 117 is displaced to a position lower than the rotation axis L3. In a state where the cover portion 117 closes the channel 109, the maximum width portion Pb of the surface 117a of the cover portion 117 exists above the channel axis L1. However, if the cover portion 117 is flattened, the maximum width portion Pb is still close to the lower side of the channel axis L1. Therefore, it is necessary to form the margin portion Rb on the inner circumferential surface near the entrance and exit of the channel 109 to avoid mutual interference with the surface 117a of the lid portion 117 when the channel 109 is opened. Even if the groove 9 is closed by erecting the lid portion 117, the gap constituting the margin portion Rb cannot be completely covered by the lid portion 117, so that the gap of the margin portion Rb becomes a resistance during normal navigation.

如第8(a)圖,第8(b)圖所示,於本實施例中,軸部19A之旋轉軸線L2相對於槽道軸線L1偏移至稍微上方之位置。因此,在槽道9打開時,與習知例相比,蓋部17之表面17a(最大寬度部分Pa)較接近於槽道軸線L1,使構成餘裕部Ra之間隙之尺寸比習知之船體相比其尺寸較小。接著,當餘裕部Ra之間隙尺寸較為小時,槽道9關閉時,於槽道9之內周面與蓋部17間所產生之間隙也隨之變小,因而可減低航行時的阻力,達到燃料消耗率的向上改善之目的。 As shown in Fig. 8(a) and Fig. 8(b), in the present embodiment, the rotation axis L2 of the shaft portion 19A is shifted to a position slightly above the groove axis L1. Therefore, when the channel 9 is opened, the surface 17a (the maximum width portion Pa) of the cover portion 17 is closer to the channel axis L1 than the conventional example, so that the gap constituting the margin portion Ra is smaller than that of the conventional hull. It is smaller than its size. Then, when the gap size of the margin portion Ra is small, when the channel 9 is closed, the gap between the inner circumferential surface of the channel 9 and the lid portion 17 is also reduced, so that the resistance during navigation can be reduced. The purpose of the upward improvement in fuel consumption rate.

接下來,以啟閉艉推動器3之槽道9之蓋部17之動作順序為中心,對側推動器之運轉方法加以說明。於正常航行結束,靠岸至目的地之碼頭的場合時,進行船隻操作之操作員按壓開啟開關,進行開啟操作。如此一來,電動機29即開始運轉,油壓泵27隨之動作 。電動機29一達到額定旋轉值,電磁方向切換閥41即切換至開啟位置Po。 Next, the operation method of the opposite side pusher will be described centering on the operation sequence of the lid portion 17 of the channel 9 of the opening and closing of the pusher 3. At the end of normal sailing, when docking to the dock of the destination, the operator performing the vessel operation presses the open switch to perform the opening operation. As a result, the motor 29 starts to operate, and the hydraulic pump 27 operates accordingly. . When the motor 29 reaches the rated rotation value, the electromagnetic direction switching valve 41 is switched to the open position Po.

於此狀態下,將通過第三油路54的液壓油供至油壓缸25A、25B,另一方面,來自油壓缸25A、25B之液壓油經由第四油路55排出。如此,活塞桿25a即往前進,軸部19A、19B隨之進行旋轉,使蓋部17平倒,槽道9之出入口9a開始打開。若蓋開啟位置檢測開關49A、49B檢測出活塞桿25a時,電磁方向切換閥41即被消磁而切換至中立位置Pn。又,電動機29停止而使油壓泵27之動作停止。在此,鎖緊電路43可發揮功能,用以防止來自油壓缸25A、25B之液壓油的逆流,保持活塞桿25a於固定位置上。其成效為蓋部17保持於使槽道9之出入口9a全開的開啟位置上。 In this state, the hydraulic oil that has passed through the third oil passage 54 is supplied to the hydraulic cylinders 25A and 25B, and the hydraulic oil from the hydraulic cylinders 25A and 25B is discharged through the fourth oil passage 55. Thus, the piston rod 25a advances, and the shaft portions 19A and 19B rotate accordingly, so that the lid portion 17 is flattened, and the inlet and outlet 9a of the channel 9 starts to open. When the lid open position detecting switches 49A and 49B detect the piston rod 25a, the electromagnetic direction switching valve 41 is demagnetized and switched to the neutral position Pn. Further, the motor 29 is stopped and the operation of the hydraulic pump 27 is stopped. Here, the locking circuit 43 can function to prevent backflow of the hydraulic oil from the hydraulic cylinders 25A, 25B and keep the piston rod 25a in a fixed position. The result is that the lid portion 17 is held in an open position in which the inlet and outlet 9a of the channel 9 are fully opened.

若槽道9打開時,即起動驅動馬達13,旋轉艏推動器3之螺旋槳11。配置於槽道9內之螺旋槳11旋轉後,對船體1而言橫向的推進力開始作用。其成效為船體1可在無拖船下進行橫向移動而完成靠岸動作。 When the channel 9 is opened, the drive motor 13 is started, and the propeller 11 of the cymbal pusher 3 is rotated. After the propeller 11 disposed in the channel 9 is rotated, the lateral propulsive force acts on the hull 1. The result is that the hull 1 can be moved laterally without a tugboat to complete the docking action.

接著,將對藉蓋部17將槽道9之出入口9a關閉之際的動作順序為中心加以說明。操作員按壓關閉開關,進行關閉操作。如此一來,電動機29即開始運轉,油壓泵27隨之動作。電動機29一達到額定旋轉值,電磁方向切換閥41即被勵磁而自中立位置Pn切換至關閉位置Pc。 Next, a description will be given of the operation sequence when the cover portion 17 closes the entrance 9a of the channel 9 as a center. The operator presses the close switch to perform the closing operation. As a result, the motor 29 starts to operate, and the hydraulic pump 27 operates accordingly. When the motor 29 reaches the rated rotation value, the electromagnetic direction switching valve 41 is excited and switched from the neutral position Pn to the closed position Pc.

於此狀態下,將通過第四油路55的液壓油供至油壓缸25A、25B,另一方面,自油壓缸25A、25B通過第三油路54,排出液壓油。如 此,活塞桿25a即往後退,軸部19A、19B進行旋轉,使蓋部17豎立,槽道9之出入口9a開始關閉。若蓋開啟位置檢測開關49A、49B解除,蓋關閉位置檢測開關47A、47B檢測出活塞桿25a時,電磁方向切換閥41即被消磁而切換至中立位置Pn。又,電動機29停止而使油壓泵27之動作停止。在此,鎖緊電路43可發揮其功能,用於防止來自油壓缸25A、25B之液壓油的逆流,保持活塞桿25a於固定位置。其成效為蓋部17可保持於槽道9之出入口9a關閉時之關閉位置。 In this state, the hydraulic oil passing through the fourth oil passage 55 is supplied to the hydraulic cylinders 25A and 25B, and the hydraulic oil is discharged from the hydraulic cylinders 25A and 25B through the third oil passage 54. Such as As a result, the piston rod 25a is retracted, the shaft portions 19A, 19B are rotated, the lid portion 17 is erected, and the inlet and outlet 9a of the channel 9 is closed. When the lid open position detecting switches 49A and 49B are released and the lid closing position detecting switches 47A and 47B detect the piston rod 25a, the electromagnetic direction switching valve 41 is demagnetized and switched to the neutral position Pn. Further, the motor 29 is stopped and the operation of the hydraulic pump 27 is stopped. Here, the locking circuit 43 can function to prevent backflow of the hydraulic oil from the hydraulic cylinders 25A, 25B and keep the piston rod 25a in a fixed position. The result is that the lid portion 17 can be held in the closed position when the inlet and outlet 9a of the channel 9 is closed.

其次,將針對在蓋部17將槽道9之出入口9a關閉狀態下,於航行中,外部過負荷作用至蓋部17上的場合時,所使用的安全功能加以說明。當波浪力等外部過負荷作用至蓋部17上時,蓋部17沿槽道9之出入口9a開啟之方向上受力時,活塞桿25a會使用過度的作用力沿前進方向上作用。如此一來,油壓缸25A、25B內的液壓油即經由第四油路55,施加固定壓力以上之過度油壓於過負荷防止電路45。 Next, a safety function to be used when the external overload is applied to the lid portion 17 during the navigation in the state where the opening and closing port 9a of the channel 9 is closed in the lid portion 17 will be described. When an external overload such as a wave force acts on the lid portion 17, when the lid portion 17 is forced in the direction in which the inlet and outlet 9a of the channel 9 is opened, the piston rod 25a acts in the advancing direction using an excessive force. As a result, the hydraulic oil in the hydraulic cylinders 25A and 25B passes through the fourth oil passage 55, and an excessive hydraulic pressure equal to or higher than the fixed pressure is applied to the overload prevention circuit 45.

於過負荷防止電路45中,若經由第四油路55及第四旁通路56d施加過度油壓時,安全閥57即被開啟,排出至返回油路56。另一方面,經由過負荷防止電路45之第一旁通路56a將液壓油供至第三油路54。同時,因油壓缸25A、25B之活塞25b之有效面積差所產生的油量不足部分,則可藉來自油槽31,經由第二油路52被補給。其成效為活塞桿25a前進而突出,蓋部17被打開而將過負荷施加狀態加以消除。 When the excessive oil pressure is applied to the overload prevention circuit 45 via the fourth oil passage 55 and the fourth bypass passage 56d, the relief valve 57 is opened and discharged to the return oil passage 56. On the other hand, hydraulic oil is supplied to the third oil passage 54 via the first bypass passage 56a of the overload prevention circuit 45. At the same time, the insufficient amount of oil due to the difference in the effective area of the piston 25b of the hydraulic cylinders 25A, 25B can be replenished via the second oil passage 52 from the oil groove 31. The result is that the piston rod 25a advances and protrudes, and the lid portion 17 is opened to eliminate the overload application state.

若因活塞桿25a之前進而使蓋關閉位置檢測開關47A、47B之任一 者進入非檢測出狀態時,即可以非檢測出信號通知至電動機29及電磁方向切換閥41。收到來自蓋關閉位置檢測開關47A、47B的非檢測出狀態後,電動機29即驅動油壓泵27,電磁方向切換閥41則自中立位置Pn切換至關閉位置Pc,暫時打開的蓋部17,則會再度朝槽道9之出入口9a之關閉方向動作。 If any of the cover closing position detecting switches 47A, 47B is caused by the piston rod 25a before When the person enters the non-detected state, the non-detection signal can be notified to the motor 29 and the electromagnetic direction switching valve 41. When the non-detected state from the lid closing position detecting switches 47A and 47B is received, the electric motor 29 drives the hydraulic pump 27, and the electromagnetic direction switching valve 41 is switched from the neutral position Pn to the closed position Pc, and the lid portion 17 is temporarily opened. It will once again move in the closing direction of the inlet 9a of the channel 9.

茲對有關本實施方式所涉及之船體1之效果加以說明。在藉蓋部17將槽道9關閉的場合下,雖然蓋部17之表面17a中,最大寬度部分Pa(請參閱第8(a)圖,第8(b)圖)存在於槽道軸線L1上。不過,當蓋部17平倒,此最大寬度部分Pa仍接近槽道軸線L1更為下側之位置。為避免與此最大寬度部分Pa相互干涉,有必要於槽道9之出入口9a附近之內周面形成餘裕部Ra。由於在船體1中,軸部19A、19B之旋轉軸線L2沿著與槽道軸線L1正交方向之延伸方向上,並相對於槽道軸線L1具有一偏移。因此,與習知一般船體107(請參閱第7圖及第8(c)圖,第8(d)圖),亦即與啟閉蓋部117之軸部119之旋轉軸線L3和槽道軸線L1交叉之船體相比,蓋部17之表面17a較接近槽道軸線L1,可使構成餘裕部Ra之間隙尺寸較習知船體之餘裕部Rb之間隙尺寸為小。由於即使豎立起蓋部17,將槽道9關閉,仍無法藉蓋部17覆蓋構成餘裕部Ra之間隙。因而,此餘裕部Ra之間隙會於一般航行中成為阻力。由於相較於習知船體,船體1可減小餘裕部Ra之尺寸。因此,槽道9關閉時槽道9之內周面與蓋部17間產生之間隙隨之變小,可減低航行時的阻力,獲得燃料消耗率的向上改善。特別是由於在船體1中,於蓋部17平倒時,相較於習知船體,最大寬度部分Pa接近槽道軸線L1。因 此,可確實減小餘裕部Ra,可減低航行時的阻力,獲得燃料消耗率的向上改善。 The effect of the hull 1 according to the present embodiment will be described. When the channel 9 is closed by the lid portion 17, the maximum width portion Pa (see Fig. 8(a), Fig. 8(b)) exists in the channel axis L1 in the surface 17a of the lid portion 17. on. However, when the lid portion 17 is flattened, the maximum width portion Pa is still near the lower side of the channel axis L1. In order to avoid mutual interference with the maximum width portion Pa, it is necessary to form the margin portion Ra on the inner circumferential surface of the vicinity of the inlet and outlet 9a of the channel 9. Since the rotation axis L2 of the shaft portions 19A, 19B extends in the direction orthogonal to the channel axis L1 in the hull 1, and has an offset with respect to the channel axis L1. Therefore, with the conventional general hull 107 (refer to Figs. 7 and 8(c), Fig. 8(d)), that is, the rotation axis L3 and the groove of the shaft portion 119 of the opening and closing cover portion 117. The surface 17a of the lid portion 17 is closer to the channel axis L1 than the hull in which the axis L1 intersects, and the gap size constituting the margin portion Ra can be made smaller than the gap size of the margin portion Rb of the conventional hull. Since the groove 9 is closed even if the lid portion 17 is erected, the gap constituting the margin portion Ra cannot be covered by the lid portion 17. Therefore, the gap of the margin portion Ra becomes a resistance in general navigation. Since the hull 1 can reduce the size of the margin Ra compared to the conventional hull. Therefore, when the channel 9 is closed, the gap between the inner circumferential surface of the channel 9 and the lid portion 17 becomes small, and the resistance during navigation can be reduced, and the fuel consumption rate can be improved upward. In particular, in the hull 1, when the cover portion 17 is flattened, the maximum width portion Pa approaches the channel axis L1 as compared with the conventional hull. because Therefore, the margin portion Ra can be surely reduced, the resistance at the time of navigation can be reduced, and the fuel consumption rate can be improved upward.

又,於船體1中,設置於船底7之槽道9之部分的寬度,其中,下側寬度B1較上側寬度B2狹窄,蓋部17仿照槽道9之出入口9a附近之船底7的外周面7a而斜切面傾斜豎立,將槽道9關閉。其成效為於船底7的外周面7a與蓋部17之表面17a間難以產生高低差,而可減少航行時的阻力。 Further, in the hull 1, the width of the portion of the channel 9 of the ship bottom 7 is set, wherein the lower side width B1 is narrower than the upper side width B2, and the cover portion 17 follows the outer peripheral surface of the ship bottom 7 near the entrance 9a of the channel 9. 7a and the chamfered surface is erected obliquely, and the channel 9 is closed. The result is that it is difficult to generate a height difference between the outer peripheral surface 7a of the ship bottom 7 and the surface 17a of the cover portion 17, and the resistance during navigation can be reduced.

又由於本實施方式相關之蓋部之表面17a及背面17b為凸曲面的翼形,於蓋部17平倒,槽道9打開時,在此狀態下驅動螺旋槳11之際,通過槽道9內之海水等流體的阻力變小,可獲得燃料消耗率的向上改善。 Further, since the surface 17a and the back surface 17b of the cover portion according to the present embodiment have a convex curved shape, when the cover portion 17 is laid down and the groove 9 is opened, when the propeller 11 is driven in this state, the passage through the groove 9 is performed. The resistance of the fluid such as seawater is reduced, and an upward improvement in fuel consumption rate can be obtained.

又由於在本實施方式中,固定於蓋部17之軸部19A、19B為一對,一對的軸部19A、19B分別獨立配置於蓋部17之兩側。因此,當單一軸部19A、19B之損傷發生等而隨之而來的修理或維修會變得較為容易。 Further, in the present embodiment, the shaft portions 19A and 19B fixed to the lid portion 17 are a pair, and the pair of shaft portions 19A and 19B are independently disposed on both sides of the lid portion 17. Therefore, it is easier to repair or repair the damage caused by the damage of the single shaft portions 19A, 19B and the like.

又由於有關本實施方式之驅動部24可利用油壓,啟閉蓋部17。因此,可使用小型裝置,卻獲得極大的輸出,又摩擦損失較少,所以效率佳。 Further, the drive unit 24 according to the present embodiment can open and close the lid portion 17 by using the hydraulic pressure. Therefore, a small device can be used, but an extremely large output is obtained, and friction loss is small, so the efficiency is good.

特別是,驅動部24具有一對的臂部23,分別自一對軸部19A、19B突出,並位於沿著與軸部19A、19B之旋轉軸線L2交叉方向之延伸方向上。一對油壓缸25A、25B,分別連結於一對的臂部23,使臂部23傾斜移動使軸部19A、19B進行旋轉。以及油壓泵27,施加油 壓於一對油壓缸25A、25B兩者。由於一對油壓缸25A、25B開始作用後,臂部23進行傾斜移動,藉由臂部23所進行之傾斜移動,軸部19A、19B進行旋轉而對蓋部17進行啟閉動作,因此,可用極小力量,效率佳地啟閉蓋部17。 In particular, the drive unit 24 has a pair of arm portions 23 that protrude from the pair of shaft portions 19A and 19B and are located in a direction extending in a direction intersecting the rotation axis line L2 of the shaft portions 19A and 19B. The pair of hydraulic cylinders 25A and 25B are respectively coupled to the pair of arm portions 23, and the arm portions 23 are tilted and moved to rotate the shaft portions 19A and 19B. And hydraulic pump 27, applying oil Pressed against both of the pair of hydraulic cylinders 25A, 25B. When the pair of hydraulic cylinders 25A and 25B start to act, the arm portion 23 is tilted and moved by the tilting of the arm portion 23, and the shaft portions 19A and 19B are rotated to open and close the lid portion 17, and therefore, The cover portion 17 can be opened and closed with great force and with good efficiency.

本實施方式又設置有蓋關閉位置檢測開關47A、47B及蓋開啟位置檢測開關49A、49B,若藉蓋開啟位置檢測開關29A、29B檢測出活塞桿25a時,油壓泵27之動作將會停止。又,若蓋開啟位置檢測開關49A、49B被解除後,以蓋關閉位置檢測開關47A、47B檢測出活塞桿25a時,油壓泵27之動作即會停止。其成效為,確實可將蓋部17停止於開啟位置或關閉位置。 In the present embodiment, the cover closed position detecting switches 47A and 47B and the cover open position detecting switches 49A and 49B are provided. When the piston rod 25a is detected by the cover open position detecting switches 29A and 29B, the operation of the hydraulic pump 27 is stopped. When the lid open position detecting switches 49A and 49B are released and the piston rod 25a is detected by the lid closing position detecting switches 47A and 47B, the operation of the hydraulic pump 27 is stopped. The result is that the cover portion 17 can be stopped in the open position or the closed position.

又,由於本實施方式具備鎖緊電路43(鎖緊部)。因此,可將蓋部17保持於固定位置,例如可保持於關閉位置或開啟位置。其成效為,可排除蓋部17之偏移所造成的影響,穩定並減低可能於槽道9之出入口9a上產生的阻力。特別是由於可保持蓋部17於關閉位置。因此,可抑制於航行中因蓋部17之偏移而產生的阻力,又由於可保持蓋部17於開啟位置。因此,可抑制側推動器3、5進行動作之際因蓋部17之偏移而發生阻力。 Moreover, this embodiment has the locking circuit 43 (locking part). Thus, the lid portion 17 can be held in a fixed position, for example, in a closed position or an open position. The effect is that the influence of the offset of the cover portion 17 can be eliminated, and the resistance which may occur on the entrance and exit 9a of the channel 9 can be stabilized and reduced. In particular, the lid portion 17 can be held in the closed position. Therefore, the resistance due to the offset of the cover portion 17 during navigation can be suppressed, and the cover portion 17 can be held at the open position. Therefore, it is possible to suppress the occurrence of the resistance due to the offset of the lid portion 17 when the side pushers 3 and 5 are operated.

又由於本實施方式具有過負荷防止電路45(過負荷防止部),由於在外力的過負荷施加於蓋部情況下,解除鎖緊電路43對蓋部17的保持。因此,可避免對過負荷下蓋部17的損傷等。 Further, in the present embodiment, the overload preventing circuit 45 (overload preventing portion) is provided, and when the overload of the external force is applied to the lid portion, the holding of the lid portion 17 by the locking circuit 43 is released. Therefore, damage or the like to the overload under cover portion 17 can be avoided.

又於船底7設置艏推動器3及艉推動器5,分別在艏推動器3及艉推動器5之槽道9設置蓋部17。雖然於正常航行時,容易因船首1a側 的側推動器(艏推動器3)之槽道9之阻力而減低燃料消耗率,惟由於在艏推動器3之槽道9設置有蓋部17,因此,於正常航行時,可藉由以蓋部17閉塞至少艏推動器3之槽道9之出入口9a,而達到高效率抑制燃料消耗率之降低。 Further, a rocker 3 and a rocker 5 are provided on the bottom 7 of the ship, and a lid portion 17 is provided in the channel 9 of the hammer pusher 3 and the hammer pusher 5, respectively. Although it is easy to be on the bow 1a side during normal sailing The resistance of the channel 9 of the side pusher (艏 pusher 3) reduces the fuel consumption rate, but since the cover portion 17 is provided in the channel 9 of the 艏 pusher 3, it can be covered by the cover during normal navigation. The portion 17 occludes at least the inlet and outlet 9a of the channel 9 of the pusher 3 to achieve high efficiency and suppress a reduction in fuel consumption rate.

以上雖然根據實施方式具體說明本發明,惟,本發明不限於上述實施方式。例如,上述實施方式雖然說明在蓋部平倒時,蓋部之表面接近槽道軸線下側的情形。不過,接近上側的情形亦是與其相同機制。於接近上側的情形下,藉由使蓋部之旋轉軸線偏移至槽道軸線更下側的位置上,旋轉軸線與槽道軸線交叉之習知船體相比,在打開蓋部時,蓋部之表面較接近槽道軸線。 The present invention has been specifically described above based on the embodiments, but the present invention is not limited to the above embodiments. For example, in the above embodiment, the case where the surface of the lid portion approaches the lower side of the channel axis when the lid portion is flattened is described. However, the situation close to the upper side is the same mechanism. In the case of approaching the upper side, the cover is opened when the cover is opened, by shifting the axis of rotation of the cover to a position lower than the axis of the channel, compared to the conventional hull in which the axis of rotation intersects the axis of the channel The surface of the part is closer to the channel axis.

又,上述實施方式雖然舉翼形蓋部為例說明,惟,亦可為平板狀蓋部。又,上述實施方式中,雖然舉利用油壓之驅動裝置作為進行蓋部啟閉之驅動部為例作說明,但亦可使用機械式構造來作為啟閉蓋部之裝置。又,上述實施方式中,分別舉出檢測蓋部之開啟位置及關閉位置之兩開關(蓋關閉位置檢測開關,蓋開啟位置檢測開關)為例說明檢測部,但亦可以只設置檢測開啟位置之檢測部,或只設置檢測關閉位置之檢測部之形態來實施。 Further, in the above embodiment, the wing-shaped cover portion is described as an example, but may be a flat cover portion. Further, in the above-described embodiment, the driving device using the hydraulic pressure is exemplified as the driving portion for opening and closing the lid portion, but a mechanical structure may be used as the device for opening and closing the lid portion. Further, in the above-described embodiment, the two switches (the cover closing position detecting switch and the cover opening position detecting switch) for detecting the opening position and the closing position of the lid portion are respectively described as an example of the detecting portion, but only the detecting opening position may be provided. The detection unit or the detection unit that detects only the closed position is implemented.

1‧‧‧船體(具有側推動器之船體) 1‧‧‧ Hull (hull with side pushers)

7‧‧‧船底 7‧‧‧Bottom of the ship

9‧‧‧槽道 9‧‧‧ channel

9a‧‧‧槽道之出入口 9a‧‧‧ entrance and exit of the channel

11‧‧‧螺旋槳 11‧‧‧propeller

13‧‧‧驅動馬達 13‧‧‧Drive motor

15‧‧‧艙室 15‧‧‧ cabin

17‧‧‧蓋部 17‧‧‧ 盖部

17a‧‧‧表面 17a‧‧‧ surface

17b‧‧‧背面 17b‧‧‧Back

19A‧‧‧軸部 19A‧‧‧Axis

23‧‧‧臂部 23‧‧‧ Arms

25A‧‧‧油壓缸(汽缸部) 25A‧‧‧Hydraulic cylinder (cylinder unit)

25a‧‧‧活塞桿 25a‧‧‧Piston rod

B1‧‧‧船底7佔設置的槽道9之下側寬度 B1‧‧‧Bottom 7 occupies the width of the lower side of the provided channel 9

B2‧‧‧船底7佔設置的槽道9之上側寬度 B2‧‧‧Bottom 7 occupies the width of the upper side of the channel 9

L1‧‧‧槽道軸線 L1‧‧‧ channel axis

L2‧‧‧軸部之旋轉軸線 L2‧‧‧ axis of rotation of the shaft

Claims (10)

一種具有側推動器之一船體,該船體具有貫通船底之圓筒狀之一槽道以及配置於該槽道內之一螺旋槳,其包含:一蓋部,用於啟閉該槽道之一出入口,該蓋部具有於關閉該槽道時,面向該槽道之外側之一表面及面向該槽道之內側之一背面;一軸部,固定於該蓋部上,並旋轉自如地支撐於該船底,該軸部之一旋轉軸線之軸向係為沿該槽道之一槽道軸線之正交方向上之延伸方向,並相對於該槽道軸線具一偏移量:以及一驅動部,藉由該軸部之旋轉,將使該蓋部豎立以呈現該槽道為關閉之狀態,或使該蓋部平倒以呈現該槽道為打開之狀態;其改良在於與該旋轉軸線與該槽道軸線交叉情形相比,該槽道打開時之該蓋部之該表面接近該槽道軸線。 A hull having a side pusher having a cylindrical passage through the bottom of the ship and a propeller disposed in the channel, comprising: a cover for opening and closing the channel An opening, the cover portion has a surface facing the outer side of the channel and a back surface facing the inner side of the channel when the channel is closed; a shaft portion is fixed to the cover portion and rotatably supported on the cover portion In the bottom of the ship, the axial direction of one of the rotation axes of the shaft portion is an extension direction in an orthogonal direction of the channel axis of the channel, and has an offset with respect to the axis of the channel: and a driving portion By rotating the shaft portion, the cover portion is erected to assume that the channel is closed, or the cover portion is flattened to assume that the channel is open; the improvement is related to the rotation axis The surface of the cover portion when the channel is open is closer to the channel axis than when the channel axis intersects. 如申請專利範圍第1項所述之具有側推動器之船體,該船底上設置該槽道部分之寬度大小,下側寬度較上側寬度為窄,該蓋部係仿照該槽道之出入口附近之該船底的外周面而斜切面傾斜豎立,使該槽道關閉,該軸部之旋轉軸線相對於該槽道軸線位置偏移至一上方位置,該蓋部之該表面中,該旋轉軸線方向之最大寬度部分於該槽道打開時,與該旋轉軸線與該槽道軸線交叉之情形相比,較接近該槽道軸線。 The hull having a side pusher according to claim 1, wherein the width of the channel portion is set on the bottom of the ship, and the width of the lower side is narrower than the width of the upper side, and the cover portion is similar to the entrance and exit of the channel. The outer peripheral surface of the bottom of the ship is inclined and erected to close the channel, and the axis of rotation of the shaft portion is offset from the axis of the channel to an upper position, and the direction of the axis of rotation of the surface of the cover portion The maximum width portion is closer to the channel axis than when the axis of rotation intersects the channel axis when the channel is open. 如申請專利範圍第1項或第2項所述之具有側推動器之船體,該蓋部之該表面及該背面係為凸曲面之翼形。 The hull having a side pusher according to claim 1 or 2, wherein the surface of the cover portion and the back surface are convex curved surfaces. 如申請專利範圍第1項或第2項所述之具有側推動器之船體,該軸 部係具有一對之數量,該些軸部係分別獨立配置於該蓋部之兩側。 A hull having a side pusher as described in claim 1 or 2, the shaft The department has a pair of numbers, and the shaft portions are independently disposed on both sides of the cover portion. 如申請專利範圍第4項所述之具有側推動器之船體,該驅動部係利用油壓裝置,啟閉該蓋部。 The hull having a side pusher according to claim 4, wherein the driving portion opens and closes the cover portion by using a hydraulic device. 如申請專利範圍第5項所述之具有側推動器之船體,該驅動部包含:一對臂部,係分別位於自成對的該些軸部突出,並沿與該些軸部之旋轉軸線交叉方向之延伸方向上;一對汽缸部,係分別連結於該些臂部,使該些臂部傾斜移動後,將該些軸部進行旋轉;以及一油壓泵,用於施加油壓至該些汽缸部。 The hull having a side pusher according to claim 5, wherein the driving portion comprises: a pair of arms respectively protruding from the pair of the shaft portions and rotating along the shaft portions a pair of cylinder portions connected to the arm portions, the arm portions are tilted and moved to rotate the shaft portions, and a hydraulic pump for applying oil pressure To the cylinders. 如申請專利範圍第6項所述之具有側推動器之船體,該驅動部更具有一檢測部,該檢測部設於該汽缸部,用以檢測該蓋部之一開啟位置及一關閉位置之至少一者後,將該油壓動作停止。 The hull having a side pusher according to claim 6, wherein the driving portion further has a detecting portion, wherein the detecting portion is disposed at the cylinder portion for detecting an open position and a closed position of the cover portion. After at least one of them, the hydraulic operation is stopped. 如申請專利範圍第5項所述之具有側推動器之船體,該蓋部更具有一鎖緊部,該鎖緊部在該蓋部將該槽道關閉時,維持施加於該汽缸部之油壓,使該蓋部保持於固定位置。 The hull having a side pusher according to claim 5, wherein the cover portion further has a locking portion, and the locking portion is maintained applied to the cylinder portion when the cover portion closes the channel. The oil pressure keeps the lid in a fixed position. 如申請專利範圍第8項所述之具有側推動器之船體,該蓋部更具有一過負荷防止部,該過負荷防止部在該蓋部將該槽道之該出入口關閉狀態下,外力的過負荷施加於該蓋部時,用以解除該鎖緊部對該蓋部之保持。 The hull having a side pusher according to claim 8, wherein the cover portion further has an overload preventing portion, wherein the overload preventing portion is in an open state in which the inlet and the outlet of the channel are closed. When the overload is applied to the cover portion, the retaining portion is released from the cover portion. 如申請專利範圍第1項或第2項所述之具有側推動器之船體,於該船底,在船首側之一前部及船尾側之一後部兩位置上設置該側推動器之該槽道,該蓋部係至少用以啟閉該前部之該槽道之該出入 口。 The hull having a side pusher according to the first or second aspect of the patent application, the groove of the side pusher is disposed at the bottom of one of the bow side and one of the rear side of the stern side at the bottom of the ship. The cover portion is configured to at least open and close the channel of the front portion mouth.
TW097150141A 2008-10-01 2008-12-22 Vessel with side thruster TWI428257B (en)

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Publication number Priority date Publication date Assignee Title
TWI756048B (en) * 2021-02-08 2022-02-21 協聚德股份有限公司 Hydraulic control system of ship stabilizer

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CN101712374A (en) 2010-05-26
KR20100037520A (en) 2010-04-09
TW201014751A (en) 2010-04-16
KR101315526B1 (en) 2013-10-08
JP4275188B1 (en) 2009-06-10
CN101712374B (en) 2014-06-18

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