Title: Over-center latch
Abstract: An over-centre latch (8) comprising a base plate (10) defining a plane of attachment (P), a pivotally mounted lever (16), and a claw (24) pivotally mounted to the lever, in use the claw operably engaging a catch plate in order to close the latch, wherein a safety catch, comprising a catch member (42) pivotably moveable to an engaged position about an axis that is generally orthogonal to the plane of attachment when the latch is closed, operably prevents opening of the latch when the catch member is in the engaged position.
Patent Number: 6,840,551 Issued on 01/11/2005 to Evans
| Inventors:
|
Evans; Norman (Redditch, GB)
|
| Assignee:
|
Howard S Cooke & Co Limited (Worcestershire, GB)
|
| Appl. No.:
|
311551 |
| Filed:
|
May 9, 2003 |
| PCT Filed:
|
June 18, 2001
|
| PCT NO:
|
PCT/GB01/02672
|
| 371 Date:
|
May 9, 2003
|
| 102(e) Date:
|
May 9, 2003
|
| PCT PUB.NO.:
|
WO01/98610 |
| PCT PUB. Date:
|
December 27, 2001 |
Foreign Application Priority Data
| Current U.S. Class: |
292/113; 24/68CD; 292/247; 292/336.3 |
| Intern'l Class: |
E05C 005/00 |
| Field of Search: |
292/113,247,336.3
24/68 CD,909,170
70/73
|
References Cited [Referenced By]
U.S. Patent Documents
| 2710214 | Jun., 1955 | Mills | 292/247.
|
| 2795946 | Jun., 1957 | Check.
| |
| 2994934 | Aug., 1961 | Kraus.
| |
| 3584906 | Jun., 1971 | Budzyn.
| |
| 3602723 | Aug., 1971 | Swanson | 292/113.
|
| 3818548 | Jun., 1974 | Meyerson | 24/170.
|
| 3826473 | Jul., 1974 | Huber | 242/388.
|
| 3892434 | Jul., 1975 | Caldwell | 292/247.
|
| 3998481 | Dec., 1976 | Anthone.
| |
| 4243255 | Jan., 1981 | Hornak.
| |
| 4428608 | Jan., 1984 | Cooke et al.
| |
| 4755144 | Jul., 1988 | Gordon et al. | 439/37.
|
| 5131246 | Jul., 1992 | Bonzer.
| |
| 5154400 | Oct., 1992 | Rotharmel | 242/388.
|
Other References
Patents Act 1977, Search Report under Section 17, Date of Search: Oct. 27,
2000.
|
Primary Examiner: Estremsky; Gary
Attorney, Agent or Firm: Carlson, Gaskey & Olds
Claims
What is claimed is:
1. An over-center latch comprising a base plate defining a plane of
attachment, a pivotally mounted lever, and a claw pivotally mounted to the
lever, in use the claw operably engaging a catch plate in order to close
the latch, wherein a safety catch, comprising a catch member pivotally
moveable to an engaged position about an axis that is generally orthogonal
to the plane of attachment when the latch is closed, operably prevents
inadvertent opening of the latch when the catch member is in the engaged
position, in which the lever has a generally first U-shaped cross section
defined by two first side portions and a first connecting portion, wherein
the two first side portions each have a first slot within which the catch
member moves with the catch member being pivotable with or about a shaft
mounted on the first connecting portion of the lever.
2. An over-center latch according to claim 1 wherein the catch member
operably engages the claw.
3. An over-center latch according to claim 2 wherein the lever is pivotally
mounted to the base plate.
4. An over center latch according claim 1 wherein the catch member operably
engages the base plate.
5. An over-center latch according to claim 4 wherein the lever is pivotally
mounted to the base plate.
6. An over-center latch according to claim 4 in which the base plate has a
second generally U-shaped cross section defined by two second side
portions and a second connecting portion wherein the catch member engages
a second slot of one of the second side portions of the base plate when
the latch is in the closed position.
7. An over-center latch according to claim 6 in which the first generally
U-shaped cross section of the lever faces the second generally U-shaped
cross section of the base plate when the latch is in the closed position.
8. An over-center latch comprising a base plate defining a plane of
attachment, a pivotally mounted lever, and a claw pivotally mounted to the
lever, in use the claw operably engaging a catch plate in order to close
the latch, wherein a safety catch, comprising a catch member pivotally
moveable to an engaged position about an axis that is generally orthogonal
to the plane of attachment when the latch is closed, operably prevents
inadvertent opening of the latch when the catch member is in the engaged
position, in which the base plate has a generally first U-shaped cross
section defined by two first side portions and a first connecting portion,
wherein the two first side portions each have a first slot within which
the catch member moves and wherein the catch member operably self engages
the lever with the catch member being pivotable with or about a shaft
mounted on the first connecting portion of the base plate.
9. An over-center latch as defined in claim 8 in which, with the
over-center latch in a closed position the claw pivot is situated between
the lever pivot and the catch member.
10. An over-center latch according to claim 8 wherein the catch member
operably engages the lever.
11. An over-center latch according to claim 8 wherein the lever is
pivotally mounted to the base plate.
12. An over-center latch according to claim 8 in which the lever has a
second generally U-shaped cross section defined by two second side
portions and a second connecting portion wherein the catch member engages
a second slot of one of the second side portions of the lever when the
latch is in the closed position.
13. An over-center latch as defined in claim 12 in which the catch member
engages second slots of each of the second side portions of the lever when
the latch is in the closed position.
14. An over-center latch according to claim 12 in which the first generally
U-shaped cross section of the base plate faces the second generally
U-shaped cross section of the lever when the latch is in the closed
position.
15. An over-center latch comprising a base plate defining a plane of
attachment, a pivotally mounted lever, and a claw pivotally mounted to the
lever, with the lever being pivotally mounted to a bolt member that
slideably engages the base plate, in use the claw operably engaging a
catch plate in order to close the latch, wherein a safety catch,
comprising a catch member pivotally moveable to an engaged position about
an axis that is generally orthogonal to the plane of attachment when the
latch is closed, operably prevents inadvertent opening of the latch when
the catch member is in the engaged position, in which the bolt member has
a first generally U-shaped cross section defined by two first side
portions and a first connecting portion wherein the two first side
portions each have first slots within the catch member moves with the
catch member being pivotable with or about a shaft mounted on the first
connecting portion of the bolt member.
16. An over-center latch according to claim 15 wherein the catch member
operably engages the lever.
17. An over-center latch according to claim 15 in which the lever has a
second generally U-shaped cross section defined by two second side
portions and a second connecting portion wherein the catch member engages
a second slot of one of the second side portions of the lever when the
latch is in the closed position.
18. An over-center latch as defined in claim 17 in which the first
generally U-shaped cross section of the bolt member is nested with the
second generally U-shaped cross section of the lever when the latch is in
the closed position.
19. An over-center latch according to claim 1 wherein at least one first
slot limits pivotable movement of the catch member.
20. An over-center latch according to claim 1 wherein at least one first
slot limits actual movement of the catch member.
21. An over-center latch according to claim 1 in which the catch member is
operable by a tool.
22. An over-center latch according to claim 1 in which the catch member is
pivotable with the shaft mounted on the first connecting portion of the
lever, in which the catch member is operably by a tool and the tool
engages the shaft.
Description
This invention relates to over-centre latches, particularly such latches
used to fasten lids and doors to cases and other equipment.
Over-centre latches are well known in the field of fasteners and are
typically used to fasten hinged lids or doors on cases, and other articles
including items of machinery. They may also be used as part of a band
clamp or strap securing system. Over-centre latches generally comprise a
base plate a pivotally mounted lever, a claw pivotally mounted to the
lever and a catch plate. In use, one end of the claw engages the catch
plate and is locked in position by an over-centre action by moving the
lever about its pivot on the base plate. Simple over-centre latches are
prone to become unfastened through the inadvertent movement of the lever.
Such inadvertent opening may be prevented by incorporating a safety catch
feature wherein the lever may be locked in its closed position. One type
of safety-catch uses a curved sheet of resilient material one end of which
is attached to the base plate and the other end of which engages a slot in
an upper face of the lever. While such safety catches are effective, they
can require a considerable force, usually applied by the thumb of a user,
to release them and are therefore awkward to use. Furthermore since the
resilient member projects from the face of the lever, it is possible to be
inadvertently knocked risking unlatching of the latch. While more complex
alternatives to this simple safety catch are known these often require a
combination of several machined parts, and are thus relatively expensive
to manufacture.
An object of the present invention is to provide an improved over-centre
latch. Another object is to provide an over-centre latch with a safety
catch that may be readily disengaged. A further object of the invention is
to provide an over-centre latch with a safety catch that is simple and
inexpensive to manufacture. A further object of the invention is to
provide an over-centre latch which is stronger than known latches.
According to the present invention there is provided an over-centre latch
comprising a base plate defining a plane of attachment, a pivotally
mounted lever, and a claw pivotally mounted to the lever, in use the claw
operably engaging a catch plate in order to close the latch, wherein a
safety catch, comprising a catch member pivotally moveable to an engaged
position about an axis that is generally orthogonal to the plane of
attachment when the latch is closed, operably prevents opening of the
latch when the catch member is in the engaged position, in which the lever
or base plate have a generally first U-shaped cross section defined by two
first side portions and a first connecting portion, wherein the two first
side portions each have a first slot within which the catch member moves.
According to further aspects of the present invention those provided an
over-centre latch comprising a base plate defining a plane of attachment,
a pivotally mounted lever, and a claw pivotally mounted to the lever, with
the lever being pivotally mounted to a bolt member that slideably engages
the base plate, in use the claw operably engaging a catch plate in order
to close the latch, wherein a safety catch, comprising a catch member
pivotally moveable to an engaged position about an axis that is generally
orthogonal to the plane of attachment when the latch is closed, operably
prevents opening of the latch when the catch member is in the engaged
position, in which the bolt member has a first generally u-shaped cross
section defined by two first side portions and a first connecting portion
wherein the two first side portions each have first slots within which the
catch member moves.
Embodiments of the invention will now be described, by way of example only,
with reference to the following drawings in which:
FIG. 1 is a plan view of a over-centre latch according to the invention
(excluding catch plate) in a closed position,
FIG. 2 is a side view of the over-centre latch of FIG. 1 in a closed
position,
FIG. 3 is a side view of the over-centre latch of FIG. 1 in an open
position,
FIG. 4 is an underside view of the over-centre latch of FIG. 1 with the
safety catch engaged,
FIG. 5 is an underside view of the over-centre latch of FIG. 1 with the
safety catch disengaged,
FIG. 6 is a perspective view of another embodiment of the invention showing
an over-centre latch in an open position,
FIG. 7 is a perspective view of the over-centre latch of FIG. 6 in the
closed position,
FIG. 8 is a perspective view of the underside of the over-centre latch of
FIG. 6,
FIG. 9 is a cross section view of the over-centre latch of FIG. 6,
FIGS. 10 to 12 are plan and side elevation views of the over centre latch
of FIG. 6,
FIGS. 13 and 14 are plan and side elevation views of a further embodiment
of an over-centre latch according to the present invention,
FIGS. 15 and 16 are plan and side elevation views of the over-centre latch
of FIG. 13 in an open position,
FIGS. 17 and 18 are plan and side elevation views of a further embodiment
of an over-centre latch according to the present invention, and
FIGS. 19 and 20 are plan and side elevation views of the over-centre latch
of FIG. 17 shown in an open position.
In a first embodiment (see FIGS. 1 to 5) the invention provides an
over-centre latch 8 with a generally "U shaped" base plate 10 comprising
two side walls 12 and base portion 14. Base portion 14 defines a plane of
attachment P of the latch to a case the like. The latch further includes a
lever 16 with two first side portion 20 jointly a first connecting portion
18, pivotally mounted proximal to a first end 16a by rivets 22 passing
through holes in side walls 12 and side faces 20 such that the lever 16
may pivot in a direction orthogonal to the plane of the side walls 12.
Lever 16 has a generally first "U-shaped" cross section. A claw 24 is
pivotally mounted close to the first end 16a of lever 16 by means of pin
26 that engages holes in side portion 20 of lever 16 and allows hinge
portion 28 of claw 16 to pivot in a direction orthogonal to the plane of
the side walls 12. An over-centre action is provided by ensuring that the
pivotal axis of the lever 16 lies between the pivot axis of the claw and
the second end 16b of the lever 16 when the lever is in a closed position
(FIG. 2). The hinge portion 28 of claw 24 may be formed by folding a
single sheet of material around pin 28 and fixing the ends with rivets 30,
a female threaded portion 32 being provided between rivets 30 to engage
threaded shaft 34 that extends to hook portion 36 of claw 16. Hinge
portion 28 has a rectangular hole 38 and has slots 40 sized so that the
claw may pivot without touching the inside portions of rivets 22.
A safety catch comprising a catch member 42 is mounted so that it may pivot
about pin 44 the axis of which is generally orthogonal to the plane of
attachment when the latch is in the closed position. Pin 44 passes through
a hole near one end of the catch member 42 and a notch 46 is provided near
the other end of the catch member 42. Portions 42a and 42b of catch member
42 pass through first slots 48 located in first side portions 20 of lever
16, thus preventing the catch member from sliding off pin 44. When the
safety catch is in an engaged position notch 46 hangs over the distal end
face 28A of hinge portion 28 (see FIG. 4) and the latch is locked. A
resilient spring 50 is provided to bias the catch member 42 toward this
engaged position.
The safety catch may be readily disengaged (see FIG. 5) thereby unlocking
the latch by applying moderate finger or thumb pressure to a thumb portion
52 that extends from end 42a of the catch member, thus pivoting the catch
member about pin 44 so that the notch 46 moves clear of hinge portion 28
thereby allowing pivotal movement of lever 16 to open the latch. Notch 46
has a ramped portion 46a that momentarily pushes catch member 42 to the
disengaged position (see FIG. 5) as the lever is pivoted towards the claw
(see below).
Base plate 10 is provided with several holes 54 to facilitate fixing, for
example to a case. A catch plate (not shown) of conventional design would
be fixed to a lid or door of the case so that in the closed position the
claw may engage the catch plate in the normal manner. Lever 16 may have a
raised portion 56 on the top face 18 of its second end to facilitate
gripping of the lever.
In use, lever 16 is pivoted away from claw 24, typically through an angle
of about 180.degree., claw 24 is engaged in a catch plate in the normal
manner. It should be noted that in this position the resilient spring
biases the catch member, which biasing action is resisted by the catch
member contacting an end one of the first slots 48. Lever 16 is then
pivoted towards claw 24 until it is in the position shown in FIG. 2.
During the last part of this pivoting movement the distal end face 28A of
hinge portion 28 engages ramp portion 46a of notch 46 and thereby
momentarily urges the catch to its disengaged position, prior to the hinge
member being seated against the inside of top face 18 of lever 16 and
notch 46 moving to an engaged position where it overhangs the distal end
face of hinge portion 28, thus locking the latch in a "slam" or "snap
shut" manner.
It should also be noted that when the catch member is moved by thumb
pressure to an open position opposite ends of slot 48 can act to limit
pivotal movement of the catch member.
In another embodiment the invention takes the form of an over-centre latch
58 incorporating a bolt mechanism (see FIGS. 6-8). A base plate 60
defining a plane of attachment comprises flange portions 62 and mid
portions, of quadrangular cross section 64a and 64b at each end, housing a
bolt member 66. Bolt member 66 has two first side portions 70 joined by a
first connecting portion 68, formed from sheet material and having a
generally first U-shaped cross section. Bolt 66 is slideably mounted
within base plate 60 such that when the latch is in the closed position
the tapered first end 66a of the bolt engages catch plate 72. Catch plate
72 comprises flange portions 74 and a mid portion 76 of quadrangular cross
section and sized to operably engage first end 66a of the bolt.
Between mid portions 64a and 64b there is a space in the base plate 60
provided to allow movement of an enlarged portion 88 of the bolt (see
below). Base plate 60 and catch plate 72 have fixing holes 78 and 80
respectively. A lever 82 comprising two opposing second side portions 86
joined by a second connecting portion 84 is formed from sheet material and
having a generally second U-shaped cross section. The lever 82 is
pivotally mounted to the enlarged portion 88 of the bolt 66 by rivets 90
that locate holes located proximal to first end 82a of the lever. Enlarged
portion 88 in combination with mid portions 64a and 64b of the base plate
60 limits sliding movement of the bolt 66, providing end stops against
which the enlarged portion 88 abuts at the extremes of its slide path 66.
However, with the over-centre latch in a closed condition there would
typically be a small gap of perhaps 1 mm between enlarged portion 88 and
mid portion 64a to ensure the latch can always close properly.
A generally U-shaped claw or clasp 92 is pivotably mounted by rivets 94 to
the side faces 86 of the lever at points between rivets 90 and the second
end 82b of the lever 82. As described in the earlier embodiment this
feature provides the required over-centre action. A second slot 96 is
provided in one second side portion 86 of the lever for engagement with a
safety catch mechanism (see below).
A safety catch 100 (see FIG. 8) having a catch member 102 is mounted so
that it may pivot about pin 104 the axis of which is orthogonal to the
plane of attachment. Pin 104 passes through a hole in the catch member 102
and the ends 102a and 102b of catch member pass through first slots 106
located in first side portions 70 of bolt 66, thus preventing the catch
member from moving axially along pin 104, while allowing limited pivotal
movement. A trigger portion 108 extends from end 102a of the catch member
102. When the safety catch is in the engaged position trigger portion 108
engages second slot 96. A resilient spring 110 is provided to bias the
catch member 102 towards this engaged position. The safety catch may be
readily disengaged by applying moderate pressure, applied for example by
the thumb of a user, to trigger portion 108, thus pivoting the catch
member about pin 104 so that trigger portion 108 moves clear of second
slot 96 thereby allowing pivotal movement of lever 82. Below second notch
96, on side face 86 of the lever, a ramped portion 112 is provided such
that as lever 82 is moved downwardly to a point near its fully closed
position (see FIG. 7) it momentarily pushes trigger 108 backwards to the
disengaged position by pivotal movement of the catch member.
The bolt 66 is biased to an open position by means of helical spring 114,
located within the U-shaped profile of bolt 66 and held under compression
between the inside surface of a flange (not shown) of the base plate 60
and end stops 116 formed by folding protrusions formed in side faces 70 of
the bolt along a fold line lying in a direction generally parallel to the
axis of helical spring 114.
In use, lever 82 is pivoted away from bolt 66, typically through an angle
of about 130.degree., claw 92 is engaged with notch 118 of catch plate in
the normal manner, lever 82 is then pivoted towards bolt 66 until it is in
the position shown in FIG. 7. This latches claw 92 over notch 118 and also
slides bolt 66, against the biasing action of spring 114, such that the
bolt 66 engages catch plate 72. During the last part of this pivoting
movement the ramped portion 112 of side face 86 of the lever engages part
of trigger portion 108 of the catch member and thereby momentarily urges
the catch to its disengaged position, prior to the lever 82 being seated
in a nested position (see especially FIGS. 9 and 12)over bolt 66 wherein
the catch is urged to its engaged position thus locking the latch. The
safety catch 100 may be readily disengaged by applying only moderate thumb
or finger pressure against the biasing action of spring 110.
With reference to figures 13 to 16 there is shown a further embodiment of
an over-center latch 210 having a base plate 212, a lever 214, and a claw
216 rotatably mounted to the lever. In use of the claw operably engages a
catch plate (not shown) in order to close the latch.
The base plate as a generally first U-shaped cross section defined by the
first side portions 218 and a first connecting portion 220. The two first
side portions each have a first slot 222.
A catch member 224 is mounted rotatably fast with pin 226, with the pin
being rotatably mounted on the first connecting portion 220. A spring 228
biases the catch member 224 in an anti-clockwise direction when viewing
FIG. 15, which anticlockwise rotation is limited by end of first lots 222.
Lever 224 has a second generally U-shaped cross section defined by two
second side portions 230 and a second connecting portion 232. In this case
a second side portion 230 includes second slots 234 and 235 for engagement
by the catch member 224.
With the latch 210 in a closed position, the first generally U-shape cross
section of the base plate faces the second generally U-shaped cross
section of the lever. This can be contrasted with the nested position of
the U-shaped lever and bolt as shown in FIG. 9.
With reference to figures 17 to 20 there is shown a further embodiment of
an over-center latch assembly 310 having a base plate 312, a lever 314, a
claw 316, a catch member 324, a pin 326 and a spring 328.
In this case the lever has a generally first U-shaped cross section defined
by two first side portions 340 and a first connecting portion 342. The two
first side portions each have a first slot 344 within which the catch
member moves.
The base plate has a second generally U-shaped cross section defined by two
second side portions 350 and a second connecting portion 352.
In this case the catch member is mounted rotatably fast on pin 326. The end
of pin 326 remote from the catch member includes a hexagonal recess 346
for engagement by an allen key. Rotation of pin 326 by an allen key or
other similar hexagonal ended tool in a clockwise direction when viewing
FIG. 17 causes the catch member to disengage second slot 348.
In further embodiments alternative shapes of recess (such as slots, square
recesses or posi-drive (RTM) etc could be used, to be operated by
appropriate tools. Alternatively, various forms of projection could be
used such as hexagonal or square projections to be operated by a spanner
or similar tool could be used.
A tool operated safety catch beneficially results in a safety catch that
cannot be operated in the absence of an appropriate tool, and in
particular cannot be operated simply by the use of fingers.
*
