JP6056034B2 - Lifting equipment - Google Patents

Lifting equipment Download PDF

Info

Publication number
JP6056034B2
JP6056034B2 JP2012103367A JP2012103367A JP6056034B2 JP 6056034 B2 JP6056034 B2 JP 6056034B2 JP 2012103367 A JP2012103367 A JP 2012103367A JP 2012103367 A JP2012103367 A JP 2012103367A JP 6056034 B2 JP6056034 B2 JP 6056034B2
Authority
JP
Japan
Prior art keywords
transfer means
hold
granular material
air
drop
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
JP2012103367A
Other languages
Japanese (ja)
Other versions
JP2013230749A (en
Inventor
勝美 増田
勝美 増田
勲 當銘
勲 當銘
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Seiwa Industry Co Ltd
Ube Shipping and Logistics Ltd
Original Assignee
Seiwa Industry Co Ltd
Ube Shipping and Logistics Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Seiwa Industry Co Ltd, Ube Shipping and Logistics Ltd filed Critical Seiwa Industry Co Ltd
Priority to JP2012103367A priority Critical patent/JP6056034B2/en
Publication of JP2013230749A publication Critical patent/JP2013230749A/en
Application granted granted Critical
Publication of JP6056034B2 publication Critical patent/JP6056034B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Ship Loading And Unloading (AREA)

Description

この発明は、セメント、フライアッシュ、炭酸カルシウム(タンカル)、スラグ、クリンカー等の無機材の粉粒体の貨物や、穀物等を含む有機材の粉粒体の貨物を搬送する粉粒体運搬船に適用可能な揚荷装置に関する。   The present invention relates to a powder carrier for carrying cargo of inorganic particles such as cement, fly ash, calcium carbonate (tankal), slag, clinker and the like, and cargo of organic particles including grains. The present invention relates to an applicable lifting device.

セメント、フライアッシュ、タンカル、スラグ、クリンカーや穀物等の粉粒体の貨物を運搬する貨物運搬船として、例えば下記特許文献1に開示されている粉体輸送船が知られている。この粉体輸送船は、船底構造として、複数に区画された船倉内の底部中央の粉体導入路に向けて布材を備えた傾斜部を有し、この布材の底部から圧縮空気を吹き出すことで流体の流動性を確保し粉体導入路に搬送する構造を備えている。   2. Description of the Related Art As a cargo carrier that carries a cargo of granular materials such as cement, fly ash, tankal, slag, clinker, and cereal, for example, a powder carrier disclosed in Patent Document 1 below is known. This powder transport ship has, as a ship bottom structure, an inclined part provided with a cloth material toward a powder introduction path at the center of the bottom part in a plurality of compartments, and blows out compressed air from the bottom part of the cloth material. Thus, the fluidity of the fluid is ensured and the structure for transporting it to the powder introduction path is provided.

圧縮空気によって粉体導入路に導かれた粉体は、粉体導入路に設けられた搬送コンベヤによって船体の前後方向に搬送され、垂直移送手段でセラーポンプまで搬送された上で揚荷される。これらのことから、この粉体輸送船は、区画された船倉、その船底構造や粉体導入路、搬送コンベヤなどにより構成された揚荷装置を有するといえる。   The powder guided to the powder introduction path by the compressed air is conveyed in the front-rear direction of the hull by a conveyance conveyor provided in the powder introduction path, and is unloaded after being conveyed to the cellar pump by the vertical transfer means. . From these facts, it can be said that this powder transport ship has a cargo holding device constituted by a partitioned cargo hold, a ship bottom structure, a powder introduction path, a transfer conveyor, and the like.

特開2002−356194号公報JP 2002-356194 A

しかしながら、上記特許文献1に開示された従来技術の粉体輸送船では、揚荷装置を構成する粉体導入路が、複数の船倉を連通して船体の前後方向に延びる構造である。このため、損傷時復原性(ダメージスタビリティ:DS)が良好でないという問題がある。   However, in the conventional powder transport ship disclosed in Patent Document 1, the powder introduction path constituting the unloading device has a structure extending in the front-rear direction of the hull through a plurality of holds. For this reason, there is a problem that the stability upon damage (damage stability: DS) is not good.

すなわち、例えば複数の船倉のうちの少なくとも1つに海水が浸入して浸水すると、粉体導入路を介して各船倉に海水が到達してしまい、全ての船倉が浸水してしまうので、船倉内に積み込んだ粉体が製品として扱えなくなると共に、損傷時復原性が良好でない。   That is, for example, when seawater enters and floods at least one of the plurality of holds, the seawater reaches each hold via the powder introduction path, and all the holds are flooded. In addition to being unable to handle the powder loaded in the product as a product, the stability when damaged is not good.

この発明は、上述した従来技術による問題点を解消し、損傷時復原性が良好で、且つ船倉から粉粒体を安定的に揚荷することができる揚荷装置を提供することを目的とする。   An object of the present invention is to provide a lifting device that solves the above-described problems caused by the prior art, has good stability when damaged, and can stably lift a granular material from a hold. .

本発明に係る揚荷装置は、粉粒体を複数に区画された船倉内に積載して運搬する粉粒体運搬船に設置され、船倉内から粉粒体を荷揚する揚荷装置であって、隔壁により内部が水密となるように区画された船倉内から搬出された粉粒体を垂直方向に移送する垂直移送手段と、船倉の底部中央に粉粒体運搬船の船体前後方向に貫通するように配置されると共に垂直移送手段と接続され、船倉内の粉粒体を垂直移送手段の下端側に向けて水平方向に移送する水平移送手段と、船倉の底部に底部中央に向けて傾斜するように配置され、船倉内の粉粒体を水平移送手段に向けて移送する船倉内移送手段とを備え、船倉内移送手段は、船倉の底部に水平移送手段の両側に水平移送手段に沿って所定間隔で複数設けられると共に、堆積された粉流体を水平移送手段に移送する船体幅方向に延びる払い落し移送手段と、払い落し移送手段に沿って設けられ払い落し移送手段の両側に払い落し移送手段に向かって傾斜する斜面板を備えた山型の粉流体溜まり防止手段とを備え、粉流体溜まり防止手段の斜面板の上面には、粉流体溜まり防止手段の傾斜面に堆積された粉流体を払い落す払い落し手段が設けられたことを特徴とする。   The unloading apparatus according to the present invention is a loading apparatus that is installed in a granular material carrier ship that loads and conveys a granular material in a cargo compartment partitioned into a plurality of compartments, and unloads the granular material from within the cargo space, Vertical transfer means for vertically transferring the granular material transported from the cargo compartment partitioned so that the interior is watertight by the bulkhead, and so as to penetrate in the longitudinal direction of the granular material carrier ship at the center of the bottom of the cargo hold A horizontal transfer means that is arranged and connected to the vertical transfer means and horizontally transfers the powder particles in the hold toward the lower end side of the vertical transfer means, and is inclined toward the bottom center of the bottom of the hold And a transfer means in the hold for transferring the particles in the hold toward the horizontal transfer means, and the transfer means in the hold is at a predetermined interval along the horizontal transfer means on both sides of the horizontal transfer means at the bottom of the hold. And the accumulated powder fluid is transferred horizontally. Discharge transfer means extending in the width direction of the hull to be transferred to the means, and a mountain-shaped powder fluid provided with slope plates provided along the drop transfer means and inclined to the transfer means on both sides of the drop transfer means It is characterized in that it comprises a stagnation preventing means, and on the upper surface of the inclined plate of the pulverized fluid stagnation preventing means, there is provided a wiping means for spilling the pulverized fluid deposited on the inclined surface of the pulverized fluid pool preventing means.

また、水平移送手段及び船倉内移送手段の接続部は、水密手段により閉塞可能に接続されていても良い。また、払い落し移送手段と払い落し手段とは、エアスライダであっても良い。更に、払い落し手段は、斜面板の一部に形成された空気供給口と、この空気供給口に連通するように斜面板の上面に設けられた斜面板の長手方向に延び複数の空気供給口を備えたエアチャンバと、エアチャンバ及び斜面板の上面を覆うキャンバスとを有していても良い。また、垂直移送手段は、縦型バケットエレベータ又は縦型スクリューコンベヤ、水平移送手段は、フローコンベヤであっても良い。   Moreover, the connection part of the horizontal transfer means and the transfer means in a cargo hold may be connected by the watertight means so that closure is possible. Further, the drop-off transfer means and the drop-off means may be air sliders. Further, the wiping-off means includes an air supply port formed in a part of the slope plate and a plurality of air supply ports extending in the longitudinal direction of the slope plate provided on the upper surface of the slope plate so as to communicate with the air supply port. And an air chamber and a canvas that covers the upper surfaces of the air chamber and the slope plate. The vertical transfer means may be a vertical bucket elevator or a vertical screw conveyor, and the horizontal transfer means may be a flow conveyor.

本発明によれば、損傷時復原性が良好で、且つ船倉から粉粒体を安定的に揚荷することができる。   ADVANTAGE OF THE INVENTION According to this invention, the stability property at the time of damage is favorable, and a granular material can be stably unloaded from a hold.

本発明の一実施形態に係る揚荷装置を適用した粉粒体運搬船の構造を示す側方断面図である。It is side sectional drawing which shows the structure of the granular material carrier ship to which the unloading apparatus which concerns on one Embodiment of this invention is applied. 同揚荷装置を適用した粉粒体運搬船の構造を示す上方平面図である。It is an upper top view which shows the structure of the granular material carrier ship to which the unloading apparatus is applied. 同揚荷装置を適用した粉粒体運搬船の構造を示す幅方向断面図である。It is width direction sectional drawing which shows the structure of the granular material carrier ship to which the unloading apparatus is applied. 同揚荷装置を適用した粉粒体運搬船の構造を示す幅方向拡大断面図である。It is a width direction expanded sectional view which shows the structure of the granular material carrier ship to which the unloading apparatus is applied. 同揚荷装置を適用した粉粒体運搬船の船底の構造を示す側断面図である。It is side sectional drawing which shows the structure of the ship bottom of the granular material carrier ship to which the same unloading apparatus is applied. 図5のA−A´から見た拡大断面図である。It is an expanded sectional view seen from AA 'of FIG. 本発明の他の実施形態に係る揚荷装置を適用した粉粒体運搬船の構造を示す一部拡大断面図である。It is a partially expanded sectional view which shows the structure of the granular material carrier ship to which the unloading apparatus which concerns on other embodiment of this invention is applied.

以下、添付の図面を参照して、この発明の実施の形態に係る揚荷装置を詳細に説明する。   Hereinafter, a lifting device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

図1は、本発明の一実施形態に係る揚荷装置を適用した粉粒体運搬船の構造を示す側方断面図である。また、図2は、この揚荷装置を適用した粉粒体運搬船の構造を示す上方平面図である。図3は、この粉粒体運搬船の幅方向断面図、図4はその拡大断面図である。   FIG. 1 is a side sectional view showing a structure of a granular material carrier ship to which a loading device according to an embodiment of the present invention is applied. FIG. 2 is an upper plan view showing the structure of the granular material carrier ship to which the unloading apparatus is applied. FIG. 3 is a cross-sectional view in the width direction of this granular material carrier ship, and FIG. 4 is an enlarged cross-sectional view thereof.

図1〜図4に示すように、揚荷装置100は、粉粒体運搬船1に設けられている。揚荷装置100は、例えば粉粒体運搬船1の船倉であるホールド2内に積載されたセメント、フライアッシュ、炭酸カルシウム(タンカル)、スラグ、クリンカー等の無機材の粉粒体や、穀物等を含む有機材の粉粒体等の貨物を垂直方向に移送する垂直移送手段のバケットエレベータ110を備える。   As shown in FIGS. 1 to 4, the unloading device 100 is provided in the granular material carrier 1. For example, the unloading apparatus 100 is configured to receive granular materials such as cement, fly ash, calcium carbonate (tankal), slag, clinker, etc., grains, etc. It includes a bucket elevator 110 that is a vertical transfer means for transferring cargo such as organic material particles and the like in the vertical direction.

また、揚荷装置100は、ホールド2の底部中央2cに粉粒体運搬船の船体前後方向に貫通するように配置されると共にバケットエレベータ110と接続され、粉粒体等の貨物をバケットエレベータ110の下端側に向かって水平方向に移送する水平移送手段のフローコンベヤ120を備える。   The unloading device 100 is disposed at the bottom center 2c of the hold 2 so as to penetrate in the front-rear direction of the hull of the granular material transport ship and is connected to the bucket elevator 110. The flow conveyor 120 of the horizontal transfer means which transfers to a lower end side in a horizontal direction is provided.

更に、揚荷装置100は、ホールド2の底部2aに底部中央2cに向けて傾斜するように配置され、ホールド2内の粉粒体をフローコンベヤ120に向けて移送する船倉内移送手段140を備える。船倉内移送手段140は、船倉の底部のフローコンベア120の両側にフローコンベヤ120に沿って所定間隔で複数設けられると共に艙壁より一定の傾斜角度で船体の幅方向に延びて堆積された粉流体をフローコンベヤ120に移送する払い落し移送手段であるエアスライダ141と、エアスライダ141の両側にエアスライダ141に沿って設けられた山型の粉流体溜まり防止142とを備える。そして、これらフローコンベヤ120及びエアスライダ141の接続部には、接続部を水密に閉塞可能な水密抜出ゲート130がそれぞれ設けられている。   Furthermore, the unloading device 100 is provided at the bottom 2a of the hold 2 so as to incline toward the center 2c of the bottom, and is provided with a transfer means 140 in the hold for transferring the granular material in the hold 2 toward the flow conveyor 120. . A plurality of the in-hull transfer means 140 are provided at predetermined intervals along the flow conveyor 120 on both sides of the flow conveyor 120 at the bottom of the hold, and the powdered fluid is accumulated by extending in the width direction of the hull at a certain inclination angle from the dredging wall. The air slider 141 is a dispensation transfer means for transferring the air to the flow conveyor 120, and mountain-shaped powder fluid accumulation prevention 142 provided along the air slider 141 on both sides of the air slider 141. Further, a watertight extraction gate 130 capable of watertightly closing the connection portion is provided at a connection portion between the flow conveyor 120 and the air slider 141, respectively.

山型の粉流体溜まり防止142には、図5及び図6に示す通り、堆積された粉流体をエアスライダ141に移送する払い落し手段として、エアスライダ141の両側の傾斜面のほぼ全面にエアスライダ421が設けられている。エアスライダ421は、圧縮空気を供給するための空気供給口211aを備えた斜面板211と、斜面板211の上面中央部に斜面板211の長手方向一杯に延びるように取り付けられ、空気供給口211aから供給された圧縮空気を分配するための空気供給孔212aを側面(又は側面と上面)に備えた矩形状のエアチャンバ212と、このエアチャンバ212と斜面板211の上面とを覆うように設けられ、圧縮空気を通し且つ粉流体を通さない織布等から形成されたキャンバス213と、キャンバス213を斜面板211に固定する固定部214を備える。 As shown in FIGS. 5 and 6, the mountain-shaped pulverized fluid accumulation prevention 142 has a function of removing the accumulated pulverized fluid to the air slider 141, as shown in FIGS. 5 and 6. A slider 421 is provided. The air slider 421 includes a slope plate 211 having an air supply port 211a for supplying compressed air, and is attached to the center of the top surface of the slope plate 211 so as to extend in the longitudinal direction of the slope plate 211, and the air supply port 211a. A rectangular air chamber 212 having air supply holes 212a for distributing compressed air supplied from the side surface (or the side surface and the upper surface), and the air chamber 212 and the upper surface of the slope plate 211 are provided to cover the air chamber 212. And a canvas 213 formed of a woven cloth or the like that allows compressed air to pass and does not allow powdered fluid to pass through, and a fixing portion 214 that fixes the canvas 213 to the slope plate 211.

ここで、粉粒体運搬船1は、本例では船底を構成する船殻底板3の上に配置されたバラストタンク4と、このバラストタンク4の上板であるホールド2の底板4aとを備え、船首部6と船尾部7との間に、例えば船体前後方向に4つ、及び船体幅方向に2つずつ区画された8つのホールド2を備えている。これらホールド2は、隔壁2bにより船体の前後方向及び幅方向に水密状態で区画されている。   Here, the granular material carrier 1 includes a ballast tank 4 disposed on a hull bottom plate 3 constituting a ship bottom in this example, and a bottom plate 4a of a hold 2 that is an upper plate of the ballast tank 4, Between the bow part 6 and the stern part 7, for example, eight holds 2 are provided which are divided by four in the hull longitudinal direction and two in the hull width direction. These holds 2 are partitioned by a partition wall 2b in a watertight state in the front-rear direction and the width direction of the hull.

粉粒体運搬船1の積込装置は、例えばホールド2内に積載する貨物(積荷)を陸上から粉粒体運搬船1に受け入れる受入エアスライド150を介して接続された中央分配タンク152と、この中央分配タンク152に接続された分配エアスライド153と、この分配エアスライド153から分岐するホールド積込部154などを備えて構成されている。   The loading device of the granular material carrier 1 includes, for example, a central distribution tank 152 connected via a receiving air slide 150 for receiving cargo (load) loaded in the hold 2 from the land to the granular material carrier 1, A distribution air slide 153 connected to the distribution tank 152, a hold loading portion 154 branched from the distribution air slide 153, and the like are provided.

中央分配タンク152は、船体の前後方向のほぼ中央に配置されている。分配エアスライド153は、中央分配タンク152から船首部7の方向及び船尾部8の方向に延び、且つ中央分配タンク152側からこれらの方向に傾斜して下がるように4つ設けられ、各ホールド2の上部に設けられたホールド積込部154と中央分配タンク152とを連結する。   The central distribution tank 152 is disposed substantially at the center in the front-rear direction of the hull. Four distribution air slides 153 are provided so as to extend from the central distribution tank 152 in the direction of the bow portion 7 and the stern portion 8, and to be inclined downward in these directions from the central distribution tank 152 side. The hold loading part 154 provided at the upper part of the center distribution tank 152 and the central distribution tank 152 are connected.

分配エアスライド153に連結されたホールド積込部154は、各ホールド2に対して設けられており、ホールド積込部154と分配エアスライド153との間に設けられたゲート155の開操作により、セメント等の粉粒体がホールド積込部154直下のホールド2内に落下し、積み込まれる。この際、粉粒体は流動化した状態でホールド2内に落下するので、積載表面はほぼ水平化される。   A hold loading portion 154 connected to the distribution air slide 153 is provided for each hold 2, and by opening the gate 155 provided between the hold loading portion 154 and the distribution air slide 153, A granular material such as cement falls into the hold 2 immediately below the hold loading portion 154 and is loaded. At this time, since the powder particles fall into the hold 2 in a fluidized state, the loading surface is almost leveled.

なお、中央分配タンク152や分配エアスライド153等の構造は公知であるため、ここでは詳細な説明は省略するが、エアスライドは、例えばダクト内に傾斜したキャンバスを配置し、このキャンバスの下方から空気を供給して粉粒体を流動化させつつ移動させるものである。   The structure of the central distribution tank 152, the distribution air slide 153, and the like are well known, and detailed description thereof is omitted here. However, for example, an inclined canvas is disposed in the duct, and the air slide is arranged from below the canvas. Air is supplied to move the powder particles while fluidizing them.

一方、図3に示すように、粉粒体運搬船1の揚荷装置100は、上述したようなホールド2の底板4aの上に設けられたエアスライダ取付底板5の上方に設けられた船倉内移送手段のホールド用のエアスライダ141と、各ホールド2の底部中央2cに設けられ、エアスライダ141によりホールド2内を船体の幅方向に水平方向に移送されてきた粉粒体を、船体の前後方向に移送するフローコンベヤ120と、例えばフローコンベヤ120の船首部6側の端部と接続され、その下端側からフローコンベヤ120により移送されてきた粉粒体を垂直方向に移送するバケットエレベータ110とを備える。   On the other hand, as shown in FIG. 3, the unloading device 100 of the granular material carrier 1 is transported in the cargo space provided above the air slider mounting bottom plate 5 provided on the bottom plate 4a of the hold 2 as described above. Air sliders 141 for holding means, and powder particles that are provided in the center 2c of the bottom of each hold 2 and have been transported in the hold 2 in the horizontal direction in the width direction of the hull by the air slider 141. And a bucket elevator 110 that is connected to, for example, an end of the flow conveyor 120 on the bow portion 6 side and that vertically transfers the granular material transferred by the flow conveyor 120 from the lower end side thereof. Prepare.

また、揚荷装置100は、バケットエレベータ110の近傍において、例えば船体の幅方向に複数配置されたセラーポンプ160と、これらセラーポンプ160とバケットエレベータ110の上端側とを接続するセラーポンプ160への送り管161と、セラーポンプ160内の粉粒体を揚荷するための輸送管(揚荷管)162とを備えて構成されている。   In addition, the unloading device 100 is connected to the seller pump 160 that is disposed in the vicinity of the bucket elevator 110, for example, a plurality of seller pumps 160 in the width direction of the hull, and the seller pump 160 that connects the seller pump 160 and the upper end side of the bucket elevator 110. The feed pipe 161 and a transport pipe (lifting pipe) 162 for unloading the granular material in the cellar pump 160 are provided.

エアスライダ取付底板5は、ホールド2内からの粉粒体の漏れや底板4a側からの海水の浸入等がないように、水密構造でホールド2の底部2aの全面に設置されている。エアスライダ421及び141は、底板4aとエアスライダ取付底板5との間の空間部に配置された、空気配管149や図示しない複数の空気供給弁(エアスライダ弁)を備えて構成されている。   The air slider mounting bottom plate 5 is installed on the entire surface of the bottom portion 2a of the hold 2 in a watertight structure so that there is no leakage of powder particles from the inside of the hold 2 or intrusion of seawater from the bottom plate 4a side. The air sliders 421 and 141 include an air pipe 149 and a plurality of air supply valves (air slider valves) (not shown) disposed in a space between the bottom plate 4a and the air slider mounting bottom plate 5.

空気配管149から供給される空気は、空気供給弁を介してエアスライダ421の、斜面板211及びキャンバス213によって形成される空間内と、エアスライダ141のエアスライダボックス411内とに供給され、エアスライダキャンバス213及び412を通してホールド2内に吹き出される。エアスライダ421に供給された圧縮空気は、キャンバス213を膨らませると共に、キャンバス213の全体から吹き出されるので、斜面板211に滞留された粉流体の居付きがなくなり、粉流体をエアスライダ141へ効率良く掻き出すことができる。また、空気は、空気供給弁の少なくとも一部に接続された複数のエアレーション弁を介してホールド2内に供給される。エアレーション弁は、ホールド2内のエアレーション圧力を調整するためのものである。 Air supplied from the air pipe 149 is supplied to the space formed by the slope plate 211 and the canvas 213 of the air slider 421 and the air slider box 411 of the air slider 141 via the air supply valve. It is blown into the hold 2 through the slider canvases 213 and 412. The compressed air supplied to the air slider 421 inflates the canvas 213 and is blown out from the entire canvas 213, so that the powdered fluid staying on the slope plate 211 is removed and the powdered fluid is transferred to the air slider 141. It can be scraped out efficiently. Air is supplied into the hold 2 via a plurality of aeration valves connected to at least a part of the air supply valve. The aeration valve is for adjusting the aeration pressure in the hold 2.

なお、フローコンベヤ120とエアスライダ141との接続部には、エアスライダ141からの粉粒体をフローコンベヤ120に抜き出すための水密手段である水密抜出ゲート130が配置されている。水密抜出ゲート130は、電動式又は空動式のシリンダを有するナイフゲートバルブやバタフライバルブ等により構成されている。   In addition, a watertight extraction gate 130 that is a watertight means for extracting powder particles from the air slider 141 to the flow conveyor 120 is disposed at a connection portion between the flow conveyor 120 and the air slider 141. The watertight extraction gate 130 is constituted by a knife gate valve or a butterfly valve having an electric or pneumatic cylinder.

エアスライダ141は、ホールド2の船体側面側の隔壁2b側から水密抜出ゲート130の方へ僅かに傾斜して下がるように配置されているので、流動化されたホールド2内の粉粒体を水密抜出ゲート130の方向へ移送させる。水密抜出ゲート130は、図示しない自動制御装置又は手動制御装置により閉操作されることで、ホールド2内のエアスライダ141とフローコンベヤ120との接続部を水密に閉塞する。これにより、各ホールド2はそれぞれ水密に区画される。   The air slider 141 is disposed so as to be slightly inclined downward from the bulkhead 2b side of the hull side surface of the hold 2 toward the watertight extraction gate 130, so that the granular material in the fluidized hold 2 is removed. It is transferred in the direction of the watertight extraction gate 130. The watertight extraction gate 130 is closed by an automatic control device or a manual control device (not shown) to close the connection between the air slider 141 and the flow conveyor 120 in the hold 2 in a watertight manner. As a result, each hold 2 is partitioned in a watertight manner.

このように構成された本実施形態に係る揚荷装置100は、フローコンベヤ120によって各ホールド2が船体の前後方向に連通されていても、水密抜出ゲート130によりフローコンベヤ120とエアスライダ141とを水密にすることができる。従って、ホールド2のいずれかに海水が浸入しても、水密抜出ゲート130を閉操作することにより他のホールド2内への浸水を防ぐことができる。これにより、損傷時復原性を向上させることができる。また、フローコンベヤ120、エアスライダ141及びバケットエレベータ110等は既存の構造のものを利用して、水密抜出ゲート130及び粉流体溜まり防止142のみを新規に設置するだけで揚荷装置100を実現することができるので、安価に構成することができる。   In the unloading apparatus 100 according to the present embodiment configured as described above, the flow conveyor 120 and the air slider 141 are connected by the watertight extraction gate 130 even if each hold 2 is communicated with the flow conveyor 120 in the front-rear direction of the hull. Can be watertight. Therefore, even if seawater enters one of the holds 2, it is possible to prevent water from entering another hold 2 by closing the watertight extraction gate 130. Thereby, the stability at the time of damage can be improved. In addition, the flow conveyor 120, the air slider 141, the bucket elevator 110, and the like are of the existing structure, and the unloading device 100 is realized simply by newly installing only the watertight extraction gate 130 and the powder fluid accumulation prevention 142. Therefore, it can be configured at low cost.

また、本実施形態に係る揚荷装置100は、傾斜面にエアスライダ421を備えた粉流体溜まり防止142をホールド2内に設けており、従って払い出しが容易となるため、船倉から粉粒体を安定的に揚荷することが可能となる。しかも、このエアスライダ421は、既存の山型の鋼板製の斜面板211に、空気供給口211aを形成し、空気圧縮口211aを覆うように斜面板211の上にエアチャンバ212を設け、その上をキャンバス213で覆う構造となっており、斜面板211の下側には、圧縮空気導入用の配管が少なくとも1箇所で接続するだけの構造となっている。このため、斜面板211の下側からの水密性を確保することができ、これによっても海水の進入を防止することができる。 Further, the unloading apparatus 100 according to the present embodiment is provided with a powder fluid accumulation prevention 142 having an air slider 421 on an inclined surface in the hold 2, so that it is easy to dispense, so that the granular material is removed from the hold. It becomes possible to unload stably. In addition, this air slider 421 has an air supply port 211a formed in an existing angle plate 211 made of a steel plate and an air chamber 212 provided on the slope plate 211 so as to cover the air compression port 211a. The upper part is covered with a canvas 213, and a pipe for introducing compressed air is connected to the lower side of the slope plate 211 at least at one place. For this reason, the watertightness from the lower side of the slope board 211 can be ensured, and the entrance of seawater can also be prevented by this.

なお、バケットエレベータ110の代わりに、縦型スクリューコンベヤ等の垂直移送手段を採用したり、フローコンベヤ120としてチェーンコンベヤや横型スクリューコンベヤ等を採用することも可能である。また、水密抜出ゲート130をその開度に応じて粉粒体のフローコンベヤ120への流量を調整する流量調整弁として動作させたり、エアスライダ141のエアレーションを制御してこの流量を調整したりすることも可能である。   Instead of the bucket elevator 110, vertical transfer means such as a vertical screw conveyor can be adopted, and a chain conveyor, a horizontal screw conveyor, or the like can be adopted as the flow conveyor 120. Further, the watertight extraction gate 130 is operated as a flow rate adjusting valve for adjusting the flow rate of the granular material to the flow conveyor 120 according to the opening degree, or the flow rate is adjusted by controlling the aeration of the air slider 141. It is also possible to do.

また、本実施形態に係る揚荷装置100によれば、水密抜出ゲート130の構造をナイフゲートバルブ等の既存の水密手段により構成し、ゲートの開口形状を矩形状、円形状など種々の形状で構成することができるので、フローコンベヤ120とエアスライダ141との接続部分にこれらの接続のためのデッドスペースが不要となり、より簡単な構造で損傷時復原性を向上させる揚荷装置100を実現することができる。   Further, according to the unloading apparatus 100 according to the present embodiment, the structure of the watertight extraction gate 130 is configured by existing watertight means such as a knife gate valve, and the gate opening shape has various shapes such as a rectangular shape and a circular shape. Therefore, the dead space for connecting the flow conveyor 120 and the air slider 141 becomes unnecessary, and the lifting device 100 that improves the stability at the time of damage with a simpler structure is realized. can do.

図7は、本発明の他の実施形態に係る揚荷装置を適用した粉粒体運搬船の構造を示す一部拡大断面図である。図7に示すように、本実施形態では、エアスライダ422を構成するエアチャンバ312が矩形ではなく、半円筒状になっている。このようなエアチャンバ312を用いた場合、先の実施形態と同様の効果を有する他、強度的にも強いという効果がある。   FIG. 7 is a partially enlarged cross-sectional view showing the structure of a granular material carrier ship to which an unloading apparatus according to another embodiment of the present invention is applied. As shown in FIG. 7, in the present embodiment, the air chamber 312 constituting the air slider 422 is not rectangular but semi-cylindrical. When such an air chamber 312 is used, in addition to the same effects as in the previous embodiment, there is an effect that the strength is also strong.

このような構成により、少ない改変で、斜面板211の下側からの水密性を確保することができ、且つ、粉流体の効率の良い掻き出しが可能になる。 With such a configuration, watertightness from the lower side of the slope plate 211 can be ensured with a small amount of modification, and the powder fluid can be scraped out efficiently.

1 粉粒体運搬船
2 船倉(ホールド)
2a 底部
2b 隔壁
3 船殻底板
4 バラストタンク
4a 底板
5 エアスライダ取付底板
6 船首部
7 船尾部
100 揚荷装置
110 バケットエレベータ
120 フローコンベヤ
130 抜出ゲート
140 船倉内移送手段
141 エアスライダ
142 粉流体溜まり防止
211 斜面板
212 エアチャンバ
213 キャンバス
214 固定部
1 Granule carrier 2 Funakura (hold)
2a bottom 2b bulkhead 3 hull bottom plate 4 ballast tank 4a bottom plate 5 air slider mounting bottom plate 6 bow portion 7 stern portion 100 unloading device 110 bucket elevator 120 flow conveyor 130 extraction gate 140 in-carrying means 141 air slider 142 powder fluid reservoir Prevention 211 Slope plate 212 Air chamber 213 Canvas 214 Fixed part

Claims (4)

粉粒体を複数に区画された船倉内に積載して運搬する粉粒体運搬船に設置され、前記船倉内から前記粉粒体を荷揚する揚荷装置であって、
隔壁により内部が水密となるように区画された前記船倉内から搬出された粉粒体を垂直方向に移送する垂直移送手段と、
前記船倉の底部中央に前記粉粒体運搬船の船体前後方向に貫通するように配置されると共に前記垂直移送手段と接続され、前記船倉内の粉粒体を前記垂直移送手段の下端側に向けて水平方向に移送する水平移送手段と、
前記船倉の底部に前記底部中央に向けて傾斜するように配置され、前記船倉内の粉粒体を前記水平移送手段に向けて移送する船倉内移送手段とを備え、
前記船倉内移送手段は、
前記船倉の底部に前記水平移送手段の両側に前記水平移送手段に沿って所定間隔で複数設けられると共に、堆積された粉粒体を前記水平移送手段に移送する船体幅方向に延びる払い落し移送手段と、
前記払い落し移送手段に沿って設けられ前記払い落し移送手段の両側に前記払い落し移送手段に向かって傾斜する斜面板を備えた山型の粉粒体溜まり防止手段と
を備え、
前記粉粒体溜まり防止手段の前記斜面板の上面には、前記粉粒体溜まり防止手段の傾斜面に堆積された粉粒体を払い落す払い落し手段が設けられ
前記払い落し手段は、
前記斜面板の一部に形成された空気供給口と、
この空気供給口に連通するように前記斜面板の上面に設けられた前記斜面板の長手方向に延び複数の空気供給孔を備えたエアチャンバと、
前記エアチャンバ及び前記斜面板の上面を覆うキャンバスと
を有する
ことを特徴とする揚荷装置。
It is installed in a granular material carrier ship that loads and conveys a granular material in a cargo compartment partitioned into a plurality of compartments, and is an unloading device that unloads the granular material from the cargo space,
Vertical transfer means for vertically transferring the powder particles carried out from the inside of the hold partitioned so as to be watertight by a partition;
It is arranged at the center of the bottom of the hold so as to penetrate in the longitudinal direction of the hull of the powder carrier, and is connected to the vertical transfer means, and the particles in the hold are directed to the lower end side of the vertical transfer means. Horizontal transfer means for transferring in the horizontal direction;
It is arranged at the bottom of the hold so as to incline toward the center of the bottom, and includes a transfer means in the hold for transferring the powder particles in the hold toward the horizontal transfer means,
The transfer means in the cargo hold is
A plurality of disposing transfer means extending in the width direction of the hull which are provided at a predetermined interval along the horizontal transfer means on both sides of the horizontal transfer means at the bottom of the hold and which transfers the accumulated granular material to the horizontal transfer means. When,
A mountain-shaped granular material accumulation preventing means provided with slope plates provided along the drop-off transfer means and inclined on both sides of the drop-off transfer means toward the drop-off transfer means,
Wherein the upper surface of the slope plate granules sump prevention means, brushing means are provided to shake off granular material deposited on the inclined surface of the granular material reservoir preventing means,
The withdrawal means is
An air supply port formed in a part of the slope plate;
An air chamber having a plurality of air supply holes extending in the longitudinal direction of the inclined plate provided on the upper surface of the inclined plate so as to communicate with the air supply port;
A canvas covering the upper surfaces of the air chamber and the slope plate;
Discharging apparatus characterized by having a.
前記水平移送手段及び前記船倉内移送手段の接続部は、水密手段により閉塞可能に接続されていることを特徴とする請求項1記載の揚荷装置。   The unloading apparatus according to claim 1, wherein a connecting portion between the horizontal transfer means and the in-house transfer means is connected to be closed by a watertight means. 前記払い落し移送手段と前記払い落し手段とは、エアスライダからなることを特徴とする請求項1又は2記載の揚荷装置。   The unloading apparatus according to claim 1 or 2, wherein the drop-off transfer means and the drop-off means are air sliders. 前記垂直移送手段は、縦型バケットエレベータ又は縦型スクリューコンベヤからなり、
前記水平移送手段は、フローコンベヤからなる
ことを特徴とする請求項1〜のいずれか一項記載の揚荷装置。
The vertical transfer means comprises a vertical bucket elevator or a vertical screw conveyor,
The said horizontal transfer means consists of a flow conveyor. The loading apparatus as described in any one of Claims 1-3 characterized by the above-mentioned.
JP2012103367A 2012-04-27 2012-04-27 Lifting equipment Active JP6056034B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2012103367A JP6056034B2 (en) 2012-04-27 2012-04-27 Lifting equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2012103367A JP6056034B2 (en) 2012-04-27 2012-04-27 Lifting equipment

Related Child Applications (1)

Application Number Title Priority Date Filing Date
JP2016220650A Division JP6484211B2 (en) 2016-11-11 2016-11-11 Lifting equipment

Publications (2)

Publication Number Publication Date
JP2013230749A JP2013230749A (en) 2013-11-14
JP6056034B2 true JP6056034B2 (en) 2017-01-11

Family

ID=49677621

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2012103367A Active JP6056034B2 (en) 2012-04-27 2012-04-27 Lifting equipment

Country Status (1)

Country Link
JP (1) JP6056034B2 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014040148A (en) * 2012-08-21 2014-03-06 Heian Kaiun Kk Powder loading vessel

Family Cites Families (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4428504A (en) * 1981-12-02 1984-01-31 American Steamship Company Dual-function cargo discharge apparatus
JPH0418958Y2 (en) * 1986-12-25 1992-04-28
JP2772873B2 (en) * 1991-01-14 1998-07-09 株式会社 三井三池製作所 Bulk carrier unloading system
JP3088031B2 (en) * 1991-08-06 2000-09-18 日本電信電話株式会社 Optical pulse tester
JP2002264886A (en) * 2001-03-09 2002-09-18 Taiheiyo Cement Corp Hold cleaning system
JP3523612B2 (en) * 2001-05-31 2004-04-26 双栄海運株式会社 Powder transport ship
JP2006131093A (en) * 2004-11-05 2006-05-25 Heian Kaiun Kk Powder feeding device of powder freighter
JP4562646B2 (en) * 2005-11-29 2010-10-13 平安海運株式会社 Hull structure of powder loading ship

Also Published As

Publication number Publication date
JP2013230749A (en) 2013-11-14

Similar Documents

Publication Publication Date Title
JP5814461B2 (en) Lifting equipment
JP2009067278A (en) Particulate transporting ship
JP6056034B2 (en) Lifting equipment
JP5557917B2 (en) How to prepare a dry bulk carrier
JP6484211B2 (en) Lifting equipment
WO2014133462A1 (en) Unloading system for sand and the method thereof
JP6056029B2 (en) Powder carrier
JP6056028B2 (en) Powder carrier
JP6056030B2 (en) Powder carrier and method for fluidizing powder
JP3211318U (en) Lifting equipment
JP4699618B2 (en) Bulk carrier
JP4562646B2 (en) Hull structure of powder loading ship
JP4071367B2 (en) Automatic loading equipment for bulk carriers
JP6470786B2 (en) Lifting equipment
JP7104526B2 (en) Bulk storage equipment and bulk carriers
JP6155299B2 (en) Lifting equipment
JP2001030980A (en) Cargo handling gear of cargo ship
JP6772206B2 (en) Unloading device
GB2098138A (en) Slurry carrying ship with drainage devices
JPH06127470A (en) Cargo handling equipment utilizing slurry ship
JP2017013574A (en) Unloading device
JPS629197Y2 (en)
JPS5815354B2 (en) Method of unloading powder and granular cargo from a ship and powder and granular cargo carrier
JPH05278675A (en) Bulk carrier
JP2006044347A (en) Carrying-out device for bulk cargo in hold

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20141219

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20151021

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20151110

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20160105

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20160607

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20161108

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20161111

R150 Certificate of patent or registration of utility model

Ref document number: 6056034

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250