Setting sails on the rig
A conversation with my brother the other day got me thinking about how the IOM rig should work. We both used to sail on dinghies and yachts. Mostly we would sail on fractional rig yachts where the bottom of the mast was controlled by the shrouds, spreaders and runners. The bend was fixed up to the hounds and you increased or decreased that bend, using the runner, however once set the mast was fairly rigid. The trick was to have the mast work for you above the hounds on the un-supported section of the fractional rig. The ideal scenario went like this. If you hit a gust the top of the mast head would bend, flattening the upper part of the mainsail and opening the leech so the boat could accelerate into the gust. As soon as the wind eased the mast would straighten and power was restored. We once sailed on a boat which had the balance of the rig exactly right. It meant you could carry more sail in greater breeze and gave a massive competitive advantage. The boat won a lot of key offshore and inshore races.
However the IOM rig is between a fractional and a masthead rig on a yacht where the forestay and backstay meet at the top of the mast and the bend and therefore mainsail leech control is managed entirely through adjustment of the runners.
Of course you have other adjustments on yachts which are important, eg mainsail foot, cunningham, etc, all of which have to be adjusted through the wind ranges, but in this article I am just focusing on mast bend and impact on the mainsail.
The IOM rig is somewhere between a masthead and fractional rigged yacht. .Our forestay sits above the hounds with a backstay at the top of the mast. The geometry is set up so that with prebend build into the spar, straightened out by the backstay, tension is put into the luff and leech line of the headsail. The position of the jib swivel line to the deck ensures that most of that tension goes down the luff of the jib and not the leech line. Mast bend and therefore mainsail leech shape is controlled throughout the mast ram, spreader rake and tension on the backstay. Jib leech tension is controlled by the leech line.
We want a rig setup that will give a little in puffs so the boat accelerates and drives, rather than heels and stall. So how can that be achieved. If you read all the key advice on rig setup, you tighten your shroud tension just enough to stop the leeward shroud going soft when upwind. This allows the mast to flex a little in puffs providing acceleration. If the mast is too rigid, airflow will stall and the boat will not accelerate in the puff.
Start your boats setup with the boat pointing as though on a run. Trim the back stay so the mast is straight fore and aft. Set the mainsail foot to a depth of 15mm or whatever your sailplane suggests. Set up the kicker tension so the mainsail leech is slightly twisted with the top batten just outside parallel to the main boom. Check both gybes to make sure the mast is straight vertically. The twist should be the same on each gybe. Then point the boat as though on a beat.
I assume you have set the rake as per the boat plan using a measuring stick or tape measure.
Our goal is to set the mainsail so the top batten is parallel to the centreline of the boom by adjusting the backstay and mast ram. Once set up there should be little need for change through the wind ranges other than 1mm tweaks on the backstay. In a recent zoom meeting with Brad Gibson for the Central Park MYG in the US, Brad talked about adjusting the backstay by plus or minus 2mm. I don't know about you, but in the past I was slightly more aggressive about the use of the backstay. Now I understand more about the precision of the setup and know what the top guys do, I am more careful.
With any luck if you have done all this you will have a perfect looking rig, and if you have not overdone the shroud tension, the rig will work for you in the gusts.
There is enough information available on rig setup up on the web, that you should be able to achieve the right setting first time and more important, recreate that setting every time you go sailing.
Here are some pictures to show the impact of 1 mm changes on the B rig backstay. Start from the bottom
在鑽井平台上揚帆
前幾天與我兄弟的一次談話讓我開始思考 IOM 鑽機應該如何工作。我們都曾經在小艇和遊艇上航行。大多數情況下,我們會在部分鑽井平台上航行,其中桅杆的底部由護罩、吊具和滑輪控制。彎道固定在獵犬身上,您可以使用跑步者增加或減少彎道,但是一旦設置好桅杆就相當僵硬。訣竅是讓桅杆在部分鑽機的無支撐部分的獵犬上方為您工作。理想的場景是這樣的。如果你遇到陣風,桅杆的頂部會彎曲,壓平主帆的上部並打開水蛭,這樣船就可以加速進入陣風。風一緩和,桅杆就會伸直,電力就會恢復。我們曾經在一艘船上航行,該船的鑽機平衡完全正確。這意味著您可以在更大的微風中攜帶更多的帆,並提供巨大的競爭優勢。這艘船贏得了許多重要的近海和近海比賽。
然而,IOM 鑽機介於遊艇上的部分鑽機和桅杆鑽機之間,其中前撐和後撐在桅杆頂部和彎道處相遇,因此主帆水蛭控製完全通過調節滑輪進行管理。
當然,您對遊艇還有其他重要的調整,例如主帆腳、坎寧安等,所有這些都必須通過風力範圍進行調整,但在本文中,我只關注桅杆彎曲和對主帆的影響。
IOM 鑽機介於桅頂和部分索具的遊艇之間。 .我們的前桅位於獵犬上方,桅杆頂部有一個後撐。幾何形狀的設置使得預彎曲構建到主梁中,由後撐桿拉直,張力被施加到前帆的luff和leech線中。懸臂旋轉線到甲板的位置確保大部分張力沿著懸臂而不是水蛭線向下傳遞。桅杆彎曲和主帆水蛭形狀在整個桅杆撞錘、吊具耙和後拉索上的張力中得到控制。吊臂水蛭張力由水蛭線控制。
我們想要一個可以稍微充氣的鑽機設置,這樣船就會加速和行駛,而不是後跟和失速。那麼如何才能做到這一點。
如果您閱讀了有關鑽機設置的所有關鍵建議,那麼您可以將護罩張力收緊到足以阻止背風護罩在逆風時變軟。這允許桅杆在抽吸時稍微彎曲以提供加速。如果桅杆太硬,氣流會失速,船不會在噴氣中加速。
開始您的船設置,船指向就好像在奔跑一樣。修剪後撐桿,使桅杆前後伸直。將主帆腳設置為 15 毫米的深度或任何您的滑翔機建議的深度。設置起升器張力,使主帆水蛭略微扭曲,頂部板條位於與主臂平行的外側。檢查兩個陀螺儀以確保桅杆垂直筆直。每個 gybe 上的扭曲應該是相同的。然後像在節拍一樣指向船。
我假設您已經使用量尺或捲尺根據船計劃設置了耙子。
我們的目標是通過調整後撐桿和桅杆柱塞來設置主帆,使頂部板條與吊桿的中心線平行。設置完成後,除了對後撐桿進行 1 毫米調整外,幾乎不需要更改風範圍。在最近與 Brad Gibson 在美國中央公園 MYG 的一次變焦會議上,Brad 談到將後撐調整正負 2 毫米。我不了解你,但在過去,我對後撐的使用稍微激進一些。現在我對設置的精度有了更多的了解,也知道頂級球員的所作所為,我更加小心了。
幸運的是,如果您完成了所有這些工作,您將擁有一個外觀完美的鑽機,如果您沒有過度拉伸護罩,該鑽機將在陣風中為您服務。
網絡上有足夠的關於鑽機設置的信息,您應該能夠在第一時間實現正確的設置,更重要的是,每次航行時都要重新創建該設置。
下面是一些圖片,顯示了 1 毫米變化對 B 鑽機後撐的影響。 從底部開始
從底部開始並處理一組圖片。它們顯示了內置於桅杆中的預彎件,以及長達 5 毫米的附加後撐桿的逐漸影響。您可以看到對浸出液的軟化效果最好。在你自己的船上試試這個,看看你的裝備是什麼樣的。忽略吊臂的設置,因為水蛭太緊,吊臂可以稍微放鬆。下次我嘗試這個時,我會將相機安裝在三腳架上,這樣照片之間的角度就不會改變。明天我會為 A 鑽機拍一組類似的照片。
鑽機設置 - 5mm 對 A 鑽機的影響
只是一個簡短的帖子,以反映我對 A 裝備的使用以及對不同風和斬波條件設置的想法。請看下面的照片。當然,在微風中,風帆的外觀會略有不同。
配備 15 毫米英尺深度和直桅杆的鑽機。設置為波濤洶湧的水。在微風中將失去扭曲以在波浪上加速
圖中顯示瞭如何從直桅杆開始,在 A 型鑽機上增加 5 毫米後撐桿的影響。 超過 10 毫米的後撐導致帆變形