If there was a moderately sized earthquake and your kitchen cabinet doors swung open, what would happen next? Well, anything in those cabinets could (and frequently does) fall out: breakable bottles of various things, dishes, glasses, and even heavy appliances like blenders. Look in your cabinets and imagine the mess, loss, and potentially even injuries suffered by small children and pets who might get hit by falling objects. Even if nobody is hurt, if none of the humans are home but a dog or cat is there unattended, there’s now a bunch of sharp or potentially toxic things all over the floor for the pet to lick and eat before you get home. Clearly, it’s better just to prevent the doors from opening in the first place with quake-resistant latches.
The problem is that many people are lulled into optimism by
a variety of pinch-style latches, magnetic latches, etc., that can make the
cabinet door tough to open without some effort.
Some cabinet doors are harder to open than others; but you know that if
you pull hard enough on the outside, they will open. Guess what: that means that if the items
inside the cabinets are pushing hard enough on them, they will open. In some cases, the vibration itself can make
the doors swing open and then everything can fall out.
Some people install the child safety latches that allow the door to open an inch and you have to slide your fingers behind it to move a lever before the door can be fully opened, but because this can be really inconvenient, I have installed push latches on my cabinet doors. That is, the door can’t be opened by pulling on it; you have to push first and the latch disengages, and then when you close it, you push again and it re-engages. While it’s theoretically possible that vibration in just the right direction might make the door push itself and open, I think it’s unlikely.
Some people install the child safety latches that allow the door to open an inch and you have to slide your fingers behind it to move a lever before the door can be fully opened, but because this can be really inconvenient, I have installed push latches on my cabinet doors. That is, the door can’t be opened by pulling on it; you have to push first and the latch disengages, and then when you close it, you push again and it re-engages. While it’s theoretically possible that vibration in just the right direction might make the door push itself and open, I think it’s unlikely.
I feel that the latches are pretty important, but they are a
bit of a pain to install and they take some trial and error. That’s where this blog comes in; I try to
save people from having to go through the same learning process that I went
through, so here I’ll be giving you some hints on installation; things I’ve
learned in the several times that I have installed these latches.
Installation
There are a few different kinds of push latches (touch
latches) out there, some of which are not very good. All of my personal experience over many years
has been with one type (shown here) and I’ll focus on that one for this
article. The two videos embedded after this paragraph show how they work. I occasionally
see them in hardware stores but not very often, and these days, I just go
straight to the Internet. The two sites
at which I have found them are Sunset Enterprises* and Woodworker’s Hardware.
The prices vary slightly; and at the
time of this writing, the latter site actually has a better selection of colors
and also a low-profile version that I have not tried yet. [*Update comment on 4/28/14: this Sunset Enterprises site no longer works and a current site for the company makes it difficult to look up products, so I've deactivated the link.] These can be a bit tricky to install, because
unlike normal latches that can keep the door closed to the maximum extent, the
push latches only work if the door can be pushed in slightly farther than the "closed" position to
disengage the latch. In fact, if you
accidentally install them without enough extra pushing space, then you close
the door and never open it again! (That
happened to me once, on a single cabinet door, so there was no way to access
the latch; I had to pry the darned thing open and it was really hard to
do! That reassured me that the doors
will not easily open if objects inside the cabinet are trying to push their way
out.) For this reason, if you have
double and single cabinet doors like most kitchens do, I recommend that you do
the double doors first just in case you have beginner’s unluck.
These latches have a claw that is attached to the main
cabinet on a shelf, and a ball-on-a-peg that sticks out from the inside of the
door and gets caught by the claw. Some
of the latches come with instructions about how much distance to have the claw
part protrude from the shelf, but I have found that those instructions sometimes
give you too much space and sometimes not enough. Too much pushing space is not good either,
because the less closed the door is when latched, the less flat it will be, and
with double doors, you can get a slight angling or tenting effect. You’ll have a little of this anyway but you
might as well minimize it (there's a photo of this several paragraphs below). By the way,
these come in dark brown, white, and black, but don’t be afraid to mix and
match if it suits your cabinets better, as you can see in this photo from my
kitchen (above right). (Alas, they don’t come in light
brown; they should!)
The best way to become familiar with how this should look is
by starting with one door of a double door, with the other one open so you can
see inside. Have a pencil, some tool
with a sharp point or nail to make starter holes, double-stick tape, an
appropriate screwdriver, and an electric drill (optional but useful). Engage the peg in the claw to make one unit,
put the whole thing into roughly the desired position, and hold
it down to the shelf with one hand tightly so that it can’t slide (as shown in
the photo at the left). With the other hand, close
the door and experiment a few times to see where the latch needs to be to make
it disengage and re-engage with the door is pushed a few times. Find the spot at which there’s the minimum
space necessary to allow the latch to disengage. Don't let the claw part move. You’ll see that the main body of the claw
part is probably sticking out slightly over the shelf, but as you can see in
the group of three photos (below) from different cabinets in my kitchen, sometimes the
optimal position is even with the edge, and sometimes it’s recessed a bit. It depends on how that particular cabinet is
put together and how far away the edge of the shelf is from the inside of the
cabinet door. The instructions assume
that all cabinets are built the same; don’t make this assumption!
Now that you have this basic feel, leaving the claw part
firmly held in place with one hand, take a pencil and mark where the holes
are. Some of the holes are actually wide
enough to give fudging room so I try to outline the entire hole with the pencil
if I can. Remove the claw and use the
sharp pointed tool or nail to gouge a starter hole right in the middle of the
pencil mark. Then, if you can fit your
electric drill into the space (not always possible), make a small hole in the
wood appropriate in size for the screw (that is, slightly smaller than the
diameter of the main part of the screw not including its threads, so that it
will still take some effort to screw it in).
Please don’t drill all the way to the other side... Then attach the claw part to the shelf with
the included screws (the screws for the claw are different from the screws for
the peg; don’t mix them up!)
At this point, I’m always tempted to use my power
screwdriver, but I rarely can because I find it usually does not fit due to the
hole being so close to the main body of the latch. Just be ready to use a manual screwdriver and
some effort.
You are probably wondering what to do with the single doors. You’re right; unless you knock out a wall of
the cabinet or enlist the services of a small elf, you can’t really test the
latch in the way I just described for the double doors. In this case, you can put the latch (in one
unit as before) loosely on the shelf where you will mount it, but sticking out
too far; and then slowly and gently close the door all the way and open it
again. The complete latch should get
pushed back by the door to about the right place, but too far because there's no extra room to push. Move it ever so slightly forward, about 3 mm, to give yourself
some push room, hold it down firmly without moving it but make sure that it
is straight, trace the holes, and proceed as above.
Either way, now that your claw is in place, put some
double-stick tape on the back of the peg and close the door. Push again to open the door and the peg
should be stuck to the door in the correct position. Take your sharp point and press through the
hole, through the tape, to make a puncture mark that will still be there when
you remove the peg and tape. Then you can
drill it (DEFINITELY don’t drill through to the other side) and attach the peg
with its screws.
Some of these latches are now being shipped with a little
bit of quake putty that you can use to stick the peg to the door while
positioning. This is meant to be left in
place during the installation. I can’t
imagine why anyone would want to do that; you can see the putty when you open
the door and it holds the peg farther out from the door, leading to larger gaps
and more tenting effect. The double-stick tape works just fine; keep the quake putty for use elsewhere as...quake
putty! (One of these days, I will write
an article about the hundreds of other things you can do with quake putty.) A little tenting is unavoidable, as you can see
in the upper photo at the right, taken from below the cabinet looking upward, but from the front as shown in the lower photo,
it’s not that bad.
Special circumstances
That was a description of the ideal case, but I keep running
into non-ideal situations that I need to solve, so here are some examples of
solutions:
In one cabinet, there was no room for the latches on the
bottom shelf due to a large spice rack, so I needed to put them on a middle shelf, which was too shallow to
reach the inside of the closed door.
That meant that the latches had to stick out into thin air to reach the
door. Here, the quake putty really came
in handy; as you can see from the photo taken from below that shelf, I used the
two rear screws and then wadded up as much quake putty as could fit into the
fortuitously placed crevices in the underside of the latch. Between the two rear screws and the quake
putty, those latches are actually quite firmly stuck to the shelf (see photo at right, taken from below the shelf). This would have been really difficult to do with a single door; being able to hold the latch in place while positioning was crucial.
If you attach them to a middle shelf that isn’t attached to
the cabinet, make sure that it can’t easily slide forward because then you
haven’t really latched the door to anything solid.
One thing they don’t warn you is that if the door is narrow
enough, and closes with a tight arc, the peg will move into the claw with a
strong curve and the mechanism might not work.
One solution is to mount the claw sideways on the wall of the cabinet
rather than on the shelf; as shown in these photos from my desk cabinet door.
On the other hand, look at this funky kitchen cabinet that
houses the duct for the over-stove fan vent.
There’s no place to put the latch at the edge of the cabinet, and
putting it in the middle by that blender didn’t work; and doing a side
mount just wasn’t practical. The blender
is heavy; I didn’t want that falling out.
My solution was to forgo the push-latch altogether and install a catch
on the front of the doors; effective, but less convenient and certainly not
pretty. A sliding bolt would have worked
as well. For pairs of doors that are
hardly ever opened, you could even put a heavy rubber band between the handles,
although that doesn’t look very refined.
My last example is from an apartment in which we were
renting, which had two problems; the difficulty in putting holes in the
woodwork of a rental, and the fact that the shelf was slightly lower than the
edge of the cabinet (as in the photo). I
had installed these things in cabinets in a previous apartment without much
thought because the cabinets were archaic and full of holes already, but this
was a brand new apartment, never used.
My solution, as shown in the photo, was to use plenty of quake putty
(love that stuff) under a piece of plywood that brought up the level of the
shelf to match the edge. Then, to avoid
holes, I used 3M Command strips (the adhesive strips that release when you pull
the tab) to attach the latch to the plywood.
For the pegs, well, I admit that I put some holes in the inside of the
door, but in my defense, there were actually starter holes in the right place
already as if they had been made to accommodate a latch of some sort...and I
filled those tiny holes with wood putty before moving out.
The challenge faced by renters in making effective quake
preparations in their apartments is a whole topic itself, which I will tackle
in a future article.
By the way, I suggest that you do NOT use the “shocklock,” which
is supposed to have a piece fall into place when the shaking starts to prevent
the door from opening. I got one of
these things and tried my hardest to make it work by shaking violently; the piece fell occasionally
and only after many seconds of shaking, and only if the shaking was in the right
direction. I think it has been
discontinued. There are better versions
of this for industrial lab cabinets that look pretty good from what I can tell
(I’ll explore them in the future), but they are too big to be practical in a
home kitchen cabinet.
Here’s one more issue to consider, do you remove the handles
from the cabinet doors? Handles are
meant to be pulled, and YOU know that you should push the door first, but any
helpful guest will automatically pull the doors open, and either they are in
for a shock, or they will keep trying until they break something. In the old apartment with archaic cabinets, I
removed the handles (I kept them for when I moved out) and temporarily filled
the holes with a waxy wood filler that matched the color of the cabinets. That can work, somewhat imperfectly, with
dark stained wood; although I think it would be pretty obvious with light
wood. In our current kitchen, the
handles are still on the doors and we just warn guests when they go into the
kitchen. It’s a great way to trick them
into an impromptu discussion about earthquake preparedness!
Matt - thanks so much for this source for the push-pull cabinet latch! This is the very latch we have been using for years (see QuakePrepare.com), and it's no longer carried by our wholesaler. I just found out about your earthquake preparedness education work. I've been doing in-home EQ preparedness consultations for almost 8 years, and I'm so happy to know about you.
ReplyDeleteLarry Guillot, QuakePrepare
larry@quakeprepare.com
Thanks Larry, and I just checked out QuakePrepare.com; good website! Readers, there's another good source of information; check it out.
ReplyDeleteI just installed a couple of these, and they are easy to use. However, if I shake the doors of the cabinets just a little bit, the latch comes undone because the shaking pushes the latches in and they get released. I have a hard time imagining they would actually work very well in an earthquake, though they're better than nothing. I'm curious if you've actually seen some of these work in a sizable quake.
ReplyDeleteThanks Erin for raising this issue. I've wondered whether there's any motion generated by earthquakes that could make the cabinets open. Clearly there's one motion that's intended to do so, pushing the part near the opening end of the doors. However, since the other end is fixed in the hinge, the motion would need to be a radial motion (if I'm describing it correctly); that is, pivoting around the hinge. I suspect that if the whole cabinet is shaking, it wouldn't set up the appropriate motion to pivot around the hinge, although it's difficult to model with a real cabinet.
DeleteI do know that these latches have been on cabinets that have experiences sizable quakes and haven't opened (just based on what I have heard from other people). For what it's worth, I've heard from one person specifically that their latched doors didn't open and their neighbors' doors did. That doesn't mean that there couldn't be a perfect motion that could open them up, but having the hinge end and the latch end moving at the same time PROBABLY wouldn't do it. (If you hold the door in one spot and move it in and out, that sets up the pivoting motion, not the motion that is constant on both ends.)
I've been tempted to set up my own little experiment in which I have a box with a hinged door with the latch, such that I can shake the whole box from side to side. There's enough preparation required to make this possible that I haven't done it, although I wonder if anyone has, and could report the results here.
...this is a good time to reiterate that I have no financial or other conflict of interest regarding these latches or their suppliers :-)
DeleteI have something to add to this worthwhile topic of the possibilities that shaking could make the doors push in and then open. As I mentioned above, I think the angle and motion of the shaking would make it difficult to open the latches because the latch end and hinge end of the cabinet would be moving simultaneously, rather than having the latch end pushed in with a radial motion around the hinge. It's difficult to model this with a cabinet built into the wall. However, I have a free-standing cabinet in a hallway (strapped to a wall stud) in which I had installed these latches, with a double door and latch on each door. I just tried shaking the cabinet back and forth in the direction perpendicular to the wall, with various forces and magnitudes and frequencies. For what it's worth, these doors did not budge. That doesn't mean that someone's cabinet won't open up, if given the perfect motion for that cabinet, but it doesn't appear that the doors unlatch from general shaking in that direction.
DeleteThese latches may be more prone to failure during shaking than previously thought; see update bulletin at the beginning of the article
DeleteIn case anyone still gets updates about this comment thread, please read my new blog post on 8/3/18 about this issue.
Deletethe low profile one holds less pounds for sq inch or weight pushing against it. There's another type that a friend has on her cabinets...that I see on this same site. I wonder if you have had any feed back on them. They are metal and have a hook. A review on Amazon that said they were good but that the original manufactured one was better, which of course I'd like to get and that the one on Amazon was NOT the original one and didn't function as well. Any knowledge of this one or intuition?
ReplyDelete.
http://www.wwhardware.com/wood-technology-mechanical-touch-latch-sp266
Thanks for this alternate suggestion. I have no experience with the type pictured at that link. I just did a search for it on other sites and (not the search was not exhaustive) I only found a photo or sketch with minimal description; and I can't figure out from the static photo how this latch actually works. There are some touch latches that don't securely hold a door closed, so it's hard to tell what this one does. The reviews currently on Amazon are good for the most part but they address how securely these hold in earthquakes. If anyone reading this has one of these latches installed and can take a short video of how the mechanism works, I'd love to see it and can report back. Of course, anyone please feel free to reply to this reply thread if they have more information.
DeleteNO...they don't open with shaking. It's proven. You have to push them IN...they will not shake open...
ReplyDeleteThanks; the issue here is that while shaking that pushes the latch outward won't open it (since by definition, the latch holds against an outward motion), there's a theoretical possibility that shaking could jiggle the handle part of the door in and out, and the inward motion could be great enough to mimic the intentional push to open the latch. I can see that happening in theory, although as discussed above, I haven't been able to make that happen and there are reports from others that these latches have held door closed in quakes. Still, it's important to repeat for this and all other discussions of quake precautions, that any of these measures can reduce the chances of a problem but they can't completely guarantee against a problem.
DeleteThese latches may be more prone to failure during shaking than previously thought; see update bulletin at the beginning of the article
DeleteFantastic instructions. Am about to install these in my kitchen and know this will save me a few headaches. Thanks so much!
ReplyDeleteHi Matt:
ReplyDeleteWe want to install these latches in our kitchen for EQ proofing. Here is my question: they come in various "pull forces" from 6 lbs to 17 lbs. I assume that means how strong they are and how much force they will withstand before opening. So what do you recommend for the average kitchen cupboard with plates and glasses in it? Do we need the heavy duty or is 6 lbs of "pull force" adequate? Thank you. Margaret
It sounds like you are referring to the low-profile version (6.6 lb) from the same manufacturer of the ones I normally use (17.6 lb). I have not experimented with these myself, so I could not guarantee. I do know from experience that the large latches are extremely hard to pull open, as I found out once with a single door cabinet in which I didn't allow enough space to push the latch and the cabinet wouldn't open (see the main article above). All I could say would be that without knowing the force being applied by heavy objects being accelerated inside the cabinet, the safest approach would be to use the larger on unless the size was a problem. I suppose that if you were only going to have relatively light things in the cabinet (like small drinking glasses), you could feel safe with the smaller latches, but using the larger ones gives you more flexibility to put other, larger things in that cabinet later on.
DeleteIf anyone reading this has experience with the low profile latches in an actual earthquake, please let us know how they performed!
Hi
ReplyDeleteThanks for info on the latch
I have this latch for my tv cabinet.
It use to work fine but one day I moved my tv cabinet to different location and since that day I am not able to open the door.
Latch is locked permenantly
How can I open it ?
That sure sounds frustrating, especially if you can’t watch TV! It sounds likely that something happened during the furniture move. I doubt the latch itself would be damaged by jostling but if the door was moved out of alignment a bit, it could be putting stress in on the latch. Remember that the door needs to be able to close a little more than its closed position or else you can’t push it in to release it, which is why a little gap is left behind the door when installing the latches. Without seeing it, my two first guesses would be either that something has moved into the gap and is preventing the door from pushing in a far as it did before, or a change in alignment is pulling the door our subtly and not allowing it to push in as far. You might look externally for signs that the door is not as perfectly straight as before and perhaps play around with putting sideways pressure in the door to see if it lets the latch open, then fix the misalignment. This might sound like it goes without saying, but you could also try pressing in really hard and see if you get past the obstruction. And, if something actually fell into the gap like a little fragment of something or shred of something, perhaps jostling the cabinet again will dislodge it.
DeleteIf you can’t figure it out from the outside, then you’ll have to get in there somehow. If there are two doors with latches and one does not open but the other does, then you can go in the other door with a screwdriver and unscrew the latch on the closed side. If it’s one door, or two doors where one has to open before the other, then your options are less desirable... opening up hinges or pulling off the back of the cabinets depending on its construction. I screwed up once when I was new at this and installed a latch in a single cabinet that was part of my built-in cabinets and didn’t allow enough room for the door to push closed, and ended up with a permanently closed cabinet with no access. I actually was able to put a screwdriver behind the door and pry it open; the latch actually popped up and when I put enough pressure on it. That is not ideal, of course. Hopefully you can solve this by one of the approaches in the first paragraph!
Let me know what happens; I’m curious!
The Woodworker's Hardware link is broken. Here is a new link that works: https://www.wwhardware.com/catalog/product/view/id/209/s/sugatsune-non-magnetic-touch-latch-sumc37/category/832/
ReplyDeleteAlso, the cheapest I was able to find them was at Rok Hardware: https://www.rokhardware.com/sugatsune-lamp-non-magnetic-touch-latch-safe-push-brown.html where they are $4.79 each if you buy 20 or more.
Thank you for the comment! I will update the links later today when I get the chance.
Delete