|
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
I would like to know whether eight toggle bolts (such as the one from
FASCO Fastener) are strong enough for bolting down a seat (like a seat/cooler combo unit). Currently, the seat is only screwed into the core material of my deck and the core material is totally rottened. I will add epoxy bedding to strengthen the fasteners area of the deck, and I want to use bolts instead of screws to secure the seat. The problem is that there is no access to the underside of the deck where the seat is (the boat is a small 18-ft power boat). And I cannot get my hand into that area through a nearby inspection hole because there is a structure frame blocking my way. I am wondering if the toggle-bolts are a good way to secure the seat in my situation. But I normally don't use toggle bolts for anything other than hanging pictures, towel bars that sort of things. I am not sure if toggle bolts are strong enough to secure a seat. I saw someone used toggle bars in a boating TV show; but that was for securing a battery, not anything too heavy. I am wondering if this is a good choice... Thanks in advance for any info. Jay Chan |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
|
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
wrote in message oups.com... I would like to know whether eight toggle bolts (such as the one from FASCO Fastener) are strong enough for bolting down a seat (like a seat/cooler combo unit). Currently, the seat is only screwed into the core material of my deck and the core material is totally rottened. I will add epoxy bedding to strengthen the fasteners area of the deck, and I want to use bolts instead of screws to secure the seat. The problem is that there is no access to the underside of the deck where the seat is (the boat is a small 18-ft power boat). And I cannot get my hand into that area through a nearby inspection hole because there is a structure frame blocking my way. I am wondering if the toggle-bolts are a good way to secure the seat in my situation. But I normally don't use toggle bolts for anything other than hanging pictures, towel bars that sort of things. I am not sure if toggle bolts are strong enough to secure a seat. I saw someone used toggle bars in a boating TV show; but that was for securing a battery, not anything too heavy. I am wondering if this is a good choice... Thanks in advance for any info. Toggle bolts are designed for sheetrock not marine use. You want to cut a proper access hole, repair any damage, use stainless fender washers (or better yet a stainless sheetmetal plate) and bolt through into the seat mount. Your primary concern on a boat is 'doing it right the first time' and a toggle bolt is not even worth considering! |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
Andrew Butchart wrote:
"frOg" wrote in message news:oAjhg.13035$523.5422@trnddc07... wrote in message oups.com... I would like to know whether eight toggle bolts (such as the one from FASCO Fastener) are strong enough for bolting down a seat (like a seat/cooler combo unit). Currently, the seat is only screwed into the core material of my deck and the core material is totally rottened. I will add epoxy bedding to strengthen the fasteners area of the deck, and I want to use bolts instead of screws to secure the seat. The problem is that there is no access to the underside of the deck where the seat is (the boat is a small 18-ft power boat). And I cannot get my hand into that area through a nearby inspection hole because there is a structure frame blocking my way. I am wondering if the toggle-bolts are a good way to secure the seat in my situation. But I normally don't use toggle bolts for anything other than hanging pictures, towel bars that sort of things. I am not sure if toggle bolts are strong enough to secure a seat. I saw someone used toggle bars in a boating TV show; but that was for securing a battery, not anything too heavy. I am wondering if this is a good choice... Thanks in advance for any info. I went onto the FASCO web site and they don't have any pictures of their stainless steel marine toggle bolts. I've used toggle bolts in concrete with limited success - what I've found is that it really depends on how the bolt will grab on under and into the surface you are attaching to, and how strong it is. I don't know if the un-reinforced layer of fiberglass would be solid enough. -- Andrew Butchart Seem like I have left out too much info about the toggle bolts that I was talking about. Sorry about this. Despite the fact that both the manufacturer and the mail order place call these "togglers", these togglers look quite different from the conventional toggle bolts that we use for securing a towel bar onto dry wall. This type of togglers has a metal plate with a threaded hole at the center (this serves as both a backing-plate and a nut), and there is a plastic strip connecting to the metal plate, as shown he http://www.westmarine.com/webapp/wcs...allpartial/0/0 (You can reach the same page by searching for "fasco togglers" in West Marine web site). The idea is to drill a hole on the deck just big enough to insert the metal plate through the hole, and we hold on with the plastic strip. By pulling the plastic strip tight, the metal plate is pressed against the underside of the deck, and the threaded hole will be aligned with the hole on the deck, and we can insert a bolt through the deck hole into the threaded hole of the metal plate. This way we can connect the bolt to the metal plate (that is under the deck), and then we can cut the plastic strip away (it has served its purpose). This is the idea. Yes, I have checked FASCO web site. But they don't have any picture, nor any specification as of how much strength their togglers can provide. This is the reason why I want to ask around here to see if anyone has personal experience about this type of togglers. I intend to put a layer of thick solid fiberglass with epoxy to replace the core material in the area where I will bolt the seat onto. Hopefully, this will be strong enough. If the idea of using togglers doesn't work, I will have to permanently mount a backing plate (with nuts welded on it) onto the underside of the deck; I will have to open up the deck to replace the rottened core material anyway, and I can cut open the inner skin of the deck and repair it later. But aligning the holes of the buts with the mounting holes on the seat can be a big challenge, and I am not looking forward to this. Jay Chan |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
The real problem I see with the toggle bolts you show is they appear to
spread the load out onto the two edges of the plate that ends up under the deck. This is not a flat bearing surface, and concentrates the load on two relatively thin edges. This is not a good idea on a laminate surface, as it will easily crush the laminate, even if you've reinforced it with thickened, high-density filler, epoxy. The load really needs to be spread out over a large surface area when working with laminates. The toggle bolts can't do thisÑthe concentrate the loading stresses onto an area smaller than that of a proper backing washer... |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
Oh boy, just when I thought I can safely use the toggle bolt to secure
the bench on my boat... Seem like I will have to somehow mount a metal plate underneath the deck with a pre-drilled hole for each toggle bolt in order to spread the load. This will mean that I need to cut open the inner skin of the cored deck in order to insert that metal plate. The other alternative was to weld the nuts on the metal plate before I put the metal plate under the deck. But this would be very tricky to line up the welded nuts if the metal plate with the mounting holes of the bench seat. I guess I am better off using the toggle bolts but with metal-plate and epoxy re-inforcement. Oh well... This is getting more tricky than I thought. Jay Chan dog wrote: The real problem I see with the toggle bolts you show is they appear to spread the load out onto the two edges of the plate that ends up under the deck. This is not a flat bearing surface, and concentrates the load on two relatively thin edges. This is not a good idea on a laminate surface, as it will easily crush the laminate, even if you've reinforced it with thickened, high-density filler, epoxy. The load really needs to be spread out over a large surface area when working with laminates. The toggle bolts can't do thisÑthe concentrate the loading stresses onto an area smaller than that of a proper backing washer... |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
I find an easy way out. I can simply place the metal plate above the
inner skin of the cored deck, add two layers of fiberglass cloth over the metal plate, and then place the thickened epoxy and the outer skin over it -- kind of encapsulating the metal plate inside the deck. Then I don't need to cut open the inner skin. Jay Chan wrote: Oh boy, just when I thought I can safely use the toggle bolt to secure the bench on my boat... Seem like I will have to somehow mount a metal plate underneath the deck with a pre-drilled hole for each toggle bolt in order to spread the load. This will mean that I need to cut open the inner skin of the cored deck in order to insert that metal plate. The other alternative was to weld the nuts on the metal plate before I put the metal plate under the deck. But this would be very tricky to line up the welded nuts if the metal plate with the mounting holes of the bench seat. I guess I am better off using the toggle bolts but with metal-plate and epoxy re-inforcement. Oh well... This is getting more tricky than I thought. Jay Chan dog wrote: The real problem I see with the toggle bolts you show is they appear to spread the load out onto the two edges of the plate that ends up under the deck. This is not a flat bearing surface, and concentrates the load on two relatively thin edges. This is not a good idea on a laminate surface, as it will easily crush the laminate, even if you've reinforced it with thickened, high-density filler, epoxy. The load really needs to be spread out over a large surface area when working with laminates. The toggle bolts can't do thisÑthe concentrate the loading stresses onto an area smaller than that of a proper backing washer... |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
This is probably a really bad idea for several reasons.
1) The thermal expansion coefficient of metal is far greater than that of foam, wood or fiberglass. The heating and cooling cycles will cause stress cracks and delamination. 2) The metal plate will cause hard edges along the laminate, which will be natural stress points and probably fracture the laminate along them. 3) Prepping the metal to accept the epoxy can be a pain, and it may not bond well enough to prevent a void. 4) installing the plate, and having the holes in the proper position is difficult to do without introducing additional voids into the area of laminate directly under the high load area. 5) If it fails, it will likely tear a section of deck away that is the size of the metal plate or slightly larger. :D Fun Fun Fun. But it is your choice. On 2006-06-26 12:32:42 -0400, said: I find an easy way out. I can simply place the metal plate above the inner skin of the cored deck, add two layers of fiberglass cloth over the metal plate, and then place the thickened epoxy and the outer skin over it -- kind of encapsulating the metal plate inside the deck. Then I don't need to cut open the inner skin. Jay Chan\ |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
Good point about the metal will expand/contract more than the epoxy
will. I didn't think of that. But I can easily avoid this problem by leaving the metal plate kind of free floating by only sticking the middle section of the metal plate with epoxy, and leaving the rest of the metal plate free floating -- similarly to the way woodworker takes care of wood expansion not to crack the joint. As of epoxy doesn't bond well to the metal plate, this may not be a problem if I intend the metal plate to be free floating anyway. Please note that metal plate will be pressed against a new layer of fiberglass not directly against the foam core. Basically, I use the metal plate as somekind of a washer to distribute the load; therefore, it being free floating should not be a problem. As of the metal plate will have a hard edge against the laminate, I think we can round the edge to minimize the problem. Thanks for pointing this out. But this should not be a major issue considering the fact that the metal plate is there to distribute the load; therefore, the load gets to the edge of the metal plate should be minimum (at least that is what I think). As of this will tear a large part of the deck out, I really don't think there is any mounting method can get around this if the force is so great that it can tear out the deck. I don't worry about this. Thanks for your reply though. Jay Chan dog wrote: This is probably a really bad idea for several reasons. 1) The thermal expansion coefficient of metal is far greater than that of foam, wood or fiberglass. The heating and cooling cycles will cause stress cracks and delamination. 2) The metal plate will cause hard edges along the laminate, which will be natural stress points and probably fracture the laminate along them. 3) Prepping the metal to accept the epoxy can be a pain, and it may not bond well enough to prevent a void. 4) installing the plate, and having the holes in the proper position is difficult to do without introducing additional voids into the area of laminate directly under the high load area. 5) If it fails, it will likely tear a section of deck away that is the size of the metal plate or slightly larger. :D Fun Fun Fun. But it is your choice. On 2006-06-26 12:32:42 -0400, said: I find an easy way out. I can simply place the metal plate above the inner skin of the cored deck, add two layers of fiberglass cloth over the metal plate, and then place the thickened epoxy and the outer skin over it -- kind of encapsulating the metal plate inside the deck. Then I don't need to cut open the inner skin. Jay Chan\ |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
On Fri, 07 Jul 2006 04:41:35 GMT, dog wrote:
This is probably a really bad idea for several reasons. 1) The thermal expansion coefficient of metal is far greater than that of foam, wood or fiberglass. The heating and cooling cycles will cause stress cracks and delamination. My data book gives linear thermal expansivities as follow: glass 8 to 9 X 10-6 /degC epoxy resin 39 X 10-6/degC 18/8 stainless 16 X 10-6 /degC Aluminum 23 X 10-6/degC Bronze 17 X 10-6/degC Hardwood 10 X 10-6/degC on up.... Plastics 80 to 240 X 10-6/degC Seems like they are all in the same ball park except the plastics in general? Brian Whatcott Altus OK |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
Interesting numbers. We typically use a glass reinforced epoxy which would
seem to put the composite's coefficient somewhere between 8e-6 and 39e-6. The average is squarely on top of aluminum's 23e-6. Roger (I'd put the reinforcement under the deck, myself) http://home.insightbb.com/~derbyrm "Brian Whatcott" wrote in message ... On Fri, 07 Jul 2006 04:41:35 GMT, dog wrote: This is probably a really bad idea for several reasons. 1) The thermal expansion coefficient of metal is far greater than that of foam, wood or fiberglass. The heating and cooling cycles will cause stress cracks and delamination. My data book gives linear thermal expansivities as follow: glass 8 to 9 X 10-6 /degC epoxy resin 39 X 10-6/degC 18/8 stainless 16 X 10-6 /degC Aluminum 23 X 10-6/degC Bronze 17 X 10-6/degC Hardwood 10 X 10-6/degC on up.... Plastics 80 to 240 X 10-6/degC Seems like they are all in the same ball park except the plastics in general? Brian Whatcott Altus OK |
Does Toggle Bolt Strong Enough to Bolt Down a Seat?
Brian Whatcott wrote:
On Fri, 07 Jul 2006 04:41:35 GMT, dog wrote: This is probably a really bad idea for several reasons. 1) The thermal expansion coefficient of metal is far greater than that of foam, wood or fiberglass. The heating and cooling cycles will cause stress cracks and delamination. My data book gives linear thermal expansivities as follow: glass 8 to 9 X 10-6 /degC epoxy resin 39 X 10-6/degC 18/8 stainless 16 X 10-6 /degC Aluminum 23 X 10-6/degC Bronze 17 X 10-6/degC Hardwood 10 X 10-6/degC on up.... Plastics 80 to 240 X 10-6/degC Seems like they are all in the same ball park except the plastics in general? Brian Whatcott Altus OK Honestly, I don't know how to read that thermal expansion coefficient table. I assume you mean that the expansion rate of a 18/8 stainless steel metal is close to epoxy resin, and we should not need to worry about the difference in their expansion rate. I guess this may explain the reason why people use epoxy as a bedding to secure metal fitting onto the boat in addition to metal fasteners. Great! This means I can embed the whole metal plate in epoxy instead of free-floating it, and I will have one less thing to worry about. Thanks for the info. Jay Chan |
| All times are GMT +1. The time now is 11:31 PM. |
Powered by vBulletin® Copyright ©2000 - 2025, Jelsoft Enterprises Ltd.
Copyright ©2004 - 2014 BoatBanter.com