Information
-
Patent Grant
-
6499327
-
Patent Number
6,499,327
-
Date Filed
Friday, July 28, 200024 years ago
-
Date Issued
Tuesday, December 31, 200222 years ago
-
Inventors
-
Original Assignees
-
Examiners
- Knight; Anthony
- Walsh; John B.
Agents
-
CPC
-
US Classifications
Field of Search
US
- 070 159
- 070 423
- 070 424
- 070 427
- 070 428
- 070 455
- 070 345
- 070 387
- 070 405
- 070 DIG 34
- 220 210
-
International Classifications
-
Abstract
A lockable cap is disclosed which includes a base having an opening penetrating through the base plate, an openable cover pivotably mounted on the base for releasably covering the opening, an elastic member for elastically thrusting the cover in an opening direction for exposing the opening, a latch member for retaining the cover in a closed position with respect to the base against elastic thrust applied by the elastic member, a key-operated lock disposed in the base, a key-for setting and opening the key-operated lock, and a latch releasing member attached to the key-operated lock for releasing the latch member to open the cover when the key is inserted into the lock to open.
Description
FIELD OF THE INVENTION
The present invention relates to a lockable cap that is attached to a locking device mounted on a door plate or the like closure means, and allows setting and opening operation of the locking device when an openable cover of the cap is opened by opening a key-operated lock disposed in the cap for locking the cover.
BACKGROUND ART
Lockable caps are known as means that are attached to a locking device mounted on a door plate and allow setting and opening operation of the locking device when an openable cover of the cap is opened by opening a key-operated lock disposed in the caps for locking the cover. The lockable caps, when opened by opening the key-operated lock therein, expose an insertion opening, through which a lock operation means such as a detachable handle is inserted and rotated, to thereby lock or unlock the door.
With the conventional lockable caps of such a structure, however, the key slot of the key-operated lock extends horizontally, and the key is inserted into the key slot from the front side of the cap. This structure of the lock inevitably thickens the entire cap, and causes intrusion of water inside through the key slot, fomenting corrosion of the interior parts.
SUMMARY OF THE INVENTION
The present invention aims to solve the above problems of the conventional lockable caps. It is therefore an object of the present invention to provide a lockable cap having a reduced thickness of the entire structure including the key-operated lock.
It is another object of the present invention to provide a lockable cap that can prevent intrusion of water and dust inside.
It is yet another object of the present invention to provide the lockable cap of the above type with a simple structure at low cost.
According to the present invention, there is provided a lockable cap comprising:
a base having an opening penetrating through said base plate,
an openable cover pivotably mounted on said base for releasably covering said opening,
an elastic member for elastically thrusting said cover in an opening direction for exposing said opening,
a latch member for retaining said cover in a closed position with respect to said base against elastic thrust applied by said elastic member,
a key-operated lock disposed in said base,
a key for setting and opening said key-operated lock, and
a latch releasing member attached to said key-operated lock for releasing said latch member to open said cover when said key is inserted into said lock to open.
According to this structure, insertion of the key into the key-operated lock causes the latch releasing member to advance with the key, which advancement in turn presses the latch member toward latch releasing direction to disengage the latch member from the openable cover, allowing the cover to open.
Then the elastic thrust of the elastic member assists in pivotally displacing the cover away from the base to expose the opening, thereby allowing insertion of a lock operation means through the opening for operating the locking device placed on the rear side of the cap to lock or unlock the door. The key may be drawn out of the lock when the key-operated lock is opened, and the latch member as well as the latch releasing member automatically returns to its initial position.
After the setting or opening of the locking device is completed, the lock operation means is drawn out of the opening. The openable cover is manually rotated for closing the opening, and pressed further downward against the thrust of the elastic member. The openable cover is then held in a closed state by the latch member, which state is kept even after the manual pressing is removed.
The lock operation means may be a conventional detachable handle having a boss or a recess of a variety of shapes including triangular, rectangular, or polygonal shape, and adapted to be inserted into an operation slot or fitted on an operation shaft of a locking device.
The elastic member may be an elastic seal in the form of a ring or plate capable of covering the free end or the entirety of the opening. The elastic member provides water-tight seal at the opening when the openable cover is closed, and elastic thrust for assisting in opening the openable cover, when the latch member is released, to the extent that the latch cannot re-engage with the cover.
The key-operated lock may be a lock of a key-insertion type containing pins or a corrugated plate. By structuring the lock to have the key inserted upwards from below the lock, the entire cap may be made thinner and intrusion of water and dust may be prevented.
Further, by providing in the key insertion port a shutter that can be opened upon insertion and draw of the key, the intrusion of water and dust through the key insertion port may be prevented more effectively.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a front view of one embodiment of the lockable cap according to the present invention.
FIG. 2
is a side view of the lockable cap of FIG.
1
.
FIG. 3
is a longitudinal cross sectional view of the lockable cap of FIG.
1
.
FIG. 4
is a front view of the lockable cap of
FIG. 1
with the openable cover and fixed cover removed.
FIG. 5
is a perspective view of the latch member of the lockable cap of FIG.
1
.
FIG. 6
is a front view of another embodiment of the lockable cap according to the present invention.
FIG. 7
is a rear view of the lockable cap of
FIG. 6
with the openable cover removed.
FIG. 8
is a front view of the lockable cap of
FIG. 6
with the openable cover opened.
FIG. 9
is a top plan view of the lockable cap of
FIG. 6
with the openable cover opened and positioned at 180° with respect to the base.
FIG. 10
is a rear view of the lockable cap of
FIG. 6
with the openable cover and the back plate removed.
FIG. 11
is a rear view of the lock block shown in
FIG. 10
with associated parts removed.
FIG. 12
is a rear view of the key reception case shown in FIG.
10
.
FIG. 13
is a front view of the key reception case of FIG.
12
.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
Preferred embodiment of the present invention will now be described in detail with reference to the attached drawings.
FIGS. 1
to
5
illustrate one embodiment of the lockable cap in accordance with one aspect of the present invention. The lockable cap is used as a cap for a locking device that is operated with a detachable operation handle and is mounted on a closure means such as a door plate of a container shelter. For installation, the lockable cap is attached with respect to the locking device to cover at least a part of the front face of the locking device.
The lockable cap includes a base
11
. As shown in
FIGS. 3 and 4
, the base
11
has a generally flat plate
11
a
smoothly tapered in its lower end portion and an uprising rim
11
b
extending contiguously along the left side, lower side, and right side of the plate
11
a.
In the middle of the upper portion of the plate
11
a
is provided an opening
12
penetrating through the plate
11
a
. The opening
12
is defined by a cylindrical member
13
which slightly projects from the plate
11
a
. The height of the cylindrical member
13
, i.e. the height of the member
13
from the surface of the flat plate
11
a
may be, for example, not higher than 10 mm, with the free end of the cylindrical member
13
being smoothed. When the lockable cap is mounted with respect to a locking device, the opening
12
registers with a portion of the device which receives the detachable operation handle, so that the handle may be inserted into that portion of the device through the opening
12
of the lockable cap.
An openable cover
15
having a bracket
16
at the upper end thereof is pivotably mounted on the base
11
to cover the upper portion of the base
11
, with the bracket
16
being pivotably supported via a pivot axis (not shown) between a pair of brackets
14
that are integrally formed at the upper end of the flat plate
11
a
of the base
11
. In the brackets
14
and
16
, click members (not shown) of a conventional type are accommodated for retaining the openable cover
15
at a predetermined angular position, for example at 180°, with respect to the base
11
. The click members may be of a conventional design that include an annular member having notches of a triangular cross section and an annular member having a projection of a triangular cross section being thrusted against the first annular member.
Referring to
FIG. 3
, the openable cover
15
is provided on its inner face with a disk-shaped elastic member K, which is positioned so as to face to and register with the cylindrical member
13
when the cover
15
is closed with respect to the base
11
. The elastic member K functions as a seal for closing the free end of the cylindrical member
13
in an air- and water-tight manner in cooperation with the openable cover
15
. The elastic member K also promotes, with its elastic thrust, initial opening action of the cover
15
upon release of a latch as will be described later.
The openable cover
15
is also provided with an engagement projection
18
on its inner face near its free end. The projection
18
has a sloped surface
18
a
in its tip portion, and an engagement aperture
17
penetrating the projection
18
in a generally parallel direction to the cover
15
. The engagement aperture
17
detachably receives a claw
20
of a latch member
19
as discussed below.
The latch member
19
has a general configuration as shown in
FIG. 5
, and is provided with a claw
20
integrally formed thereon, a projection
21
for restricting rotational movement of the latch member
19
, and an axial bore
23
for receiving a horizontal axis
22
therein, on which axis the latch member
19
is rotatably supported. As shown in
FIG. 4
, the axis
22
is in turn supported at both ends on a pair of brackets
25
provided on the base
11
, and has a spring
24
fitted therearound for rotationally thrusting the latch member
19
constantly toward the engagement of the claw
20
with the engagement aperture
17
. The claw
20
has a sloped surface
20
a
for facilitating smooth slide of the claw
20
on the sloped surface
18
a
of the projection
18
.
The lower portion of the base
11
is covered with a fixed cover
28
that is fixed to the base
11
with a space defined therebetween, and has a cut-out
27
at its lower end acting as a key insertion port for receiving an operation key
38
for a lock
26
to be discussed later. This cut-out
27
is openably closed from inside the cover
28
with a shutter
31
, which is disposed in the cut-out
27
and rotatably supported on a horizontal shaft
29
. The shaft
29
is supported at both ends by a pair of brackets
30
projecting from the base
11
. The shutter
31
is constantly thrusted by a torsion spring (not shown) or the like means toward the direction for closing the cut-out
27
.
In the space defined between the base
11
and the fixed cover
28
, there is disposed a key-operated lock
26
on the base
11
below the latch member
19
. The lock
26
is relatively thin in overall structure and may be of a conventional key-insertion type containing pins or a corrugated plate. In this embodiment, the thin lock
26
is mounted on a block (not show) thrusted by a spring, and is opened or set with an operation key
38
, which is made of a metal plate of a predetermined length and has a plurality of recesses
39
provided therein (FIG.
1
). On the fixed cover
28
above the cut-out
27
, there is provided a number indicator
40
that indicates the number of the appropriate operation key
38
by marking or printing.
The lock
26
includes a key reception case
32
and a plurality of pins
33
for fitting in the plurality of corresponding recesses
39
in the operation key
38
when the key
38
is inserted into the case
32
. To the key reception case
32
is attached a latch releasing member
34
in the form of a thin plate, with the lower end of the latch releasing member
34
fastened to the upper end of the case
32
with a screw. The upper end of the latch releasing member
34
is in contact with the latch member
19
rotatably thrusted with the torsion spring
24
. The key reception case
32
is constantly thrusted downwards with a spring
37
interposed between the upper face of the case
32
and a support piece
36
projecting from the base
11
.
The lockable cap of the design discussed above may be mounted facing to a locking device provided in a door plate, for example, of a container shelter for locking the shelter.
For locking or unlocking operation of the door, the operation key
38
of the number indicated on the number indicator
40
on the fixed cover
28
, is first inserted upward through the cut-out
27
acting as a key insertion port, as shown in
FIG. 1
by the arrow. This inwardly presses the shutter
31
, which has closed the cut-out
27
, to open, and the key
38
is then guided into the key reception case
32
. When the key
38
reaches a predetermined location, all the pins
33
of the lock
26
fit in the corresponding recesses
39
in the key
38
, allowing the key reception case
32
to advance with the key
38
in the direction of the key insertion. The key reception case
32
is displaced further upward against the resisting force of the spring
37
, until the tip of the latch releasing member
34
on the upper end of the case
32
presses the latch member
19
upward against the resisting force of the torsion spring
24
. This causes the latch member
19
to rotate clockwise as seen in
FIG. 3
around the horizontal shaft
22
, thereby releasing the claw
20
of the latch member
19
from the engagement aperture
17
in the projection
18
on the openable cover
15
.
The disengagement of the latch member
19
releases the closed cover
15
, and the elastic thrust of the elastic member K at the same time assists in opening the cover
15
to slightly expose the free end of the cylindrical member
13
. When the insertion of the key
38
is then stopped, the key reception case
32
returns downwardly to its initial position due to the recovering force of the spring
37
, and the key
38
is allowed to be drawn out of the case
32
. The downward return of the case
32
releases the pressure applied to the latch member
19
by the latch releasing member
34
. This allows the claw
20
of the latch member
19
to rotate into its initial position toward re-engagement with the engagement aperture
17
of the engagement projection
18
, which has already been displaced away due to the opening of the openable cover
15
. Thus, the claw
20
cannot re-engage with the engagement aperture
17
, and the openable cover
15
may further be opened wider manually.
When the openable cover
15
is opened, the cover
15
may be maintained, for example, at 180° with respect to the base
11
by means of the click members disposed in the brackets
14
and
16
. Thus the opening
12
defined by the cylindrical member
13
is exposed to allow insertion of a lock operation means such as a detachable operation handle (not shown) from the front side. The handle is then fit in the insertion opening of the locking device mounted on the door plate, and rotated to lock or unlock the door.
When the desired locking or unlocking operation is completed, the detachable handle is drawn out of the insertion opening through the opening
12
, and the cover
15
is manually rotated toward closure of the opening
12
beyond the position at which the cover
15
is maintained by means of the click members. When the cover
15
is displaced further, the sloped surface
18
a of the engagement projection
18
contacts with and slides on the sloped surface
20
a
provided on the claw
20
of the latch member
19
, to rotatably open the latch member
19
clockwise as seen in
FIG. 3
, allowing the claw
20
of the latch member
19
to automatically fit in the engagement aperture
17
. As a result, the cover
15
is maintained in the closed position with respect to the base
11
by the latch member
19
, closing the opening
12
.
In the embodiment hitherto been described, the key-operated lock
26
is opened with the particular key
38
. It is understood, however, by those skilled in the art that the lock
26
cannot be opened or set with a key not matching the number and position of the pins arranged in the key reception case
32
, and thus the latch releasing member
34
cannot be operated to enable opening of the cover
15
.
Next, another embodiment of the present invention is described with reference to
FIGS. 6
to
13
, wherein
FIGS. 6 and 7
are front and rear views of the lockable cap of this embodiment, respectively;
FIG. 8
is a front view of the cap with a cover opened;
FIG. 9
is a plan view with the cover opened; and
FIG. 10
is a rear view of the cap showing the detail.
Referring to
FIG. 6
, the lockable cap of this embodiment includes a base
41
produced, for example, by die-casting of aluminum, and an openable cover
42
produced, for example, also by die-casting of aluminum and pivotably connected to the base
41
. As may be understood from
FIG. 8
, the base
41
has a longitudinally varying thickness or steps, namely, a thickest lock housing section
41
a
located in the lowermost portion, an openable cover engagement section
41
b
with a medium thickness located in the middle portion, and a thinnest handle receiving section
41
c
located in the uppermost portion.
Integrally formed on the back of the lock housing section
41
a
are a pair of lock supporting members
43
a
,
43
b
projecting from the base
41
. Each of the lock supporting members
43
a
and
43
b
is provided with guiding protrusions
46
a
,
46
b
,
47
a
,
47
b
and a fixation tongue
45
a
,
45
b
having therein a screw hole
44
a
,
44
b
, respectively, all of which are formed integrally with the member
43
a
or
43
b
. The lock supporting members
43
a
and
43
b
support between them a lock M of a key-insertion type containing pins, which lock has a lock block
48
as shown in rear view in
FIG. 11 and a
key reception case
53
as shown in
FIGS. 12 and 13
.
The lock block
48
may be produced by die-casting of aluminum, and is of a generally rectangular shape. The block
48
has channels
49
a
,
49
b
,
50
a
, and
50
b
in its outer surface near the corners, which channels receive the guiding protrusions
46
a
,
46
b
,
47
a
, and
47
b
, respectively, to guide and place the lock M in a proper location between the lock supporting members
43
a
and
43
b
. The block
48
is also provided with a plurality of apertures
51
(six apertures in this embodiment) penetrating the block
48
, in which apertures pins (not shown) are fitted to be displaced by an operation key
67
inserted into the lock M. Below the apertures
51
, a longitudinally elongated opening
52
is provided for slidably receiving and guiding a part of the key reception case
53
as will be discussed later. The opening
52
also accommodates a coil spring
98
that constantly thrusts the key reception case
53
downward into the initial position.
The key reception case
53
slidably engages with the lock block
48
on the front side of the block
48
(in
FIG. 10
, the rear side of the lock block
48
).
FIG. 12
illustrates the rear side, i.e. the side in slidable contact with the lock block
48
, of the key reception case
53
, and
FIG. 13
illustrates the front side of the case
53
.
Referring to
FIG. 12
, the key reception case
53
has on its upper end a pair of latch releasing members
54
that protrude forward in FIG.
12
. Below the latch releasing member
54
are provided the same number of apertures
55
as the apertures
51
in the lock block
48
at locations facing to and in registration with the apertures
51
for receiving pins and springs for thrusting these pins toward the apertures
51
.
An opening
56
for receiving a shutter
61
therein as will be discussed later is formed in the lower half of the key reception case
53
. At the lower end of the case
53
in the middle thereof, a spring supporting ledge
57
is provided projecting forward (as shown in
FIG. 12
) for supporting the spring
98
thereon. The ledge
57
has a spring engagement projection
58
formed integrally with the ledge
57
and projecting upward. Near the root of the ledge
57
is provided a spring supporting projection
59
projecting upward from the lower end of the case
53
.
At the lower corners of the key reception case
53
, a pair of shaft bearing protrusions
60
project forward as shown in
FIG. 12
on the right and left sides of the opening
56
. A shaft
62
of the shutter
61
is rotatably supported in the bearing protrusions
60
, so that the shutter
61
is positioned in the opening
56
between the bearing protrusions
60
and above the spring supporting ledge
57
. The shaft
62
has a cut-out
63
for receiving, in cooperation with the spring supporting projection
59
, a spring
64
therein that constantly thrusts the shutter
61
in the closing direction.
Referring now to
FIG. 13
, from the front side of the key reception case
53
along the right and left sides thereof are projecting a pair of guiding members
65
a
,
65
b
that have an inverted L-shaped cross section and define guide channels
66
a
and
66
b
, respectively. The channels
66
a
and
66
b
smoothly guide the operation key
67
inserted into the key reception case
53
from below.
As shown in
FIGS. 6 and 8
, a generally rectangular cut-out
68
and a key insertion path
69
contiguous therewith are provided at the lower end of the lock housing section
41
a of the base
41
for receiving the key
67
. The front surface of the shutter
61
having the number of the key indicated thereon registers with the cut-out
68
and can be seen through the cut-out
68
. In the openable cover engagement section
41
b
, a pair of apertures
70
a
,
70
b
are formed penetrating the base
41
. A portion of latch members to be discussed later projects laterally into each of the apertures
70
a
,
70
b
and is exposed therethrough.
Referring to
FIG. 10
, a pair of support pins
71
a
and
71
b
are provided on the rear face of the base
41
, projecting on either side of the lock M. Each of the pins
71
a
and
71
b
rotatably supports one end of a latch member
72
a
,
72
b
. The latch members
72
a
and
72
b
have latch portions
73
a
and
73
b
, respectively, projecting laterally toward each other from the other end of the latch members
72
a
,
72
b
. The latch portions
73
a
and
73
b
have sloped surfaces
74
a
and
74
b
, respectively, downwardly sloped toward each other as shown in FIG.
8
.
The latch members
72
a
and
72
b
further have engagement projections
75
a
and
75
b
, respectively, projecting laterally toward each other. The free ends of the projections
75
a
and
75
b
have tapered guide surfaces
76
a
and
76
b
, respectively, slanted symmetrically from inner top toward outer bottom. The guide surfaces
76
a
and
76
b
are in contact with the upper corners of the latch releasing members
54
on the key reception case
53
as shown in FIG.
10
.
Still referring to
FIG. 10
, the latch members
72
a
and
72
b
respectively have spring positioning portions
77
a
and
77
b
projecting laterally outwardly. In the proximity of the spring positioning portions
77
a
and
77
b
, support pins
78
a
and
78
b
project, respectively, from the rear face of the base
41
, on which pins torsion springs
79
a
and
79
b
are supported in the middle portion thereof.
One end of each spring
79
a
,
79
b
abuts the latch member
72
a
,
72
b
via the spring positioning portion
77
a
,
77
b
, while the other end of the spring
79
a
,
79
b
abuts the inner surface of a plate
80
fixed on the inner periphery of the base
41
. The latch members
72
a
and
72
b
are thus constantly thrusted by the springs
79
a
and
79
b
rotatably in clockwise and counterclockwise directions, respectively, around the pins
71
a
,
71
b.
Along a portion of the periphery of the cut-out
70
a
,
70
b
, a wall
81
a
,
81
b
is formed projecting forward (in
FIG. 10
) from the rear face of the base
41
, one end of which wall limits the rotation of the latch member
72
a
,
72
b.
The handle receiving section
41
c
has a large opening
82
penetrating the base
41
for allowing insertion of a detachable handle. The periphery of the opening
82
is defined by a cylindrical member
83
projecting rearward from the rear face of the base
41
for a predetermined height, and a cylindrical member
85
projecting forward from the front face of the base
41
for a predetermined height, both members
83
and
85
being formed integrally with the base
41
. Around the cylindrical member
83
, four apertures
84
are provided for fixing a base packing (not shown) on the rear face of the base
41
.
As shown in
FIG. 8
, the base
41
has at its upper end a pair of brackets
86
a
and
86
b
, between which a bracket
87
formed at one end of the openable cover
42
is rotatably supported via shafts
88
a
and
88
b
projecting from either side of the bracket
87
. In the brackets
86
a
,
86
b
, and
87
, click members (not shown) are disposed for retaining the cover
42
at a predetermined angle with respect to the base
41
.
A cylindrical member
89
having a larger diameter than the cylindrical member
85
projects from the inner surface of the openable cover
42
. In the cylindrical member
89
, an elastic member K is fitted as a seal with a height (thickness) higher than that of the cylindrical member
89
. The cylindrical member
89
is arranged symmetrically to the cylindrical member
85
with respect to the central axis of the bracket
87
. A pair of side walls
90
a
and
90
b
project from the inner surface of the cover
42
. Also projecting from the inner surface of the cover
42
are a pair of generally L-shaped projections
91
a
and
91
b
located near the free end of the cover
42
. The projections
91
a
and
91
b
have curved end surfaces
92
a
and
92
b
, respectively, and flat engagement surfaces
93
a
and
93
b
, respectively, located opposite to the curved surfaces
92
a
and
92
b
and extending laterally outwards.
The rear faces of the lock housing section
41
a
and the openable cover engagement section
41
b
are covered with a back plate
94
as shown in
FIG. 7
, which plate
94
is fixed to the base
41
with screws
95
screwed into the screw holes
44
a
and
44
b.
As shown in
FIG. 10
, a spring presser plate
96
is fitted on the lock block
48
to cover a portion of the block
48
, and supports the coil springs accommodated in the apertures
51
with the pins. The presser plate
96
has a spring engagement portion
97
projecting laterally from the lower portion of the plate
96
. The coil spring
98
is supported between the spring engagement portion
97
and the spring supporting ledge
57
of the key reception case
53
. The spring
98
thus thrusts the key reception case
53
constantly downward with respect to the lock block
48
.
Next, operation of the lockable cap as hitherto been discussed is described below. The lockable cap is attached with respect to a locking device mounted on a door plate, with the openable cap
42
closed as shown in FIG.
6
. For locking or unlocking the door, the key
67
of the number indicated on the shutter
61
is inserted into the key insertion path
69
and advanced upwards. This opens the shutter
61
, which has closed the opening
56
, and the tip of the key
67
is guided along the guide channels
66
a
and
66
b
into the key reception case
53
.
At a predetermined key position, tips of the plurality of pins (not shown) projecting through the apertures
55
of the case
53
fit in a slot provided on the key
67
.
With the pins fitted in the slot, the key reception case
53
is advanced upwards against the thrusting force of the spring
98
as the key
67
is inserted deeper, which causes the latch releasing members
54
on the case
53
to press on the tapered guide surfaces
76
a
and
76
b
of the latch members
73
a
and
73
b
. The latch members
73
a
and
73
b
thus rotate in opposite directions around the pins
71
a
and
71
b
against the force of the torsion springs
79
a
and
79
b
. This rotation of the latch members
72
a
and
72
b
displaces the latch portions
73
a
and
73
b
laterally outwards away from each other to be disengaged from the engagement surfaces
93
a
and
93
b
of the projections
91
a
and
91
b
on the closed cover
42
.
As a result, the openable cover
42
is freed to rotate around the shafts
88
a
and
88
b
, and opened instantaneously to expose the opening
82
at least partially, due to the elastic thrust of the elastic member K pressing the cylindrical member
85
. When the insertion of the key
67
is then stopped, the latch members
72
a
and
72
b
rotate toward each other due to the thrust of the torsion springs
79
a
and
79
b
, and the tapered guide surfaces
76
a
and
76
b
of the latch members
72
a
and
72
b
in contact with the latch releasing members
54
press the members
54
downward into its initial position. At the same time, the key reception case
53
is pressed downward with respect to the lock block
48
due to the thrust of the spring
98
, until the spring supporting ledge
57
contacts the lower surface of the opening
52
and stops. In this state, the key
67
may be drawn out of the key reception case
53
.
When the openable cover
42
is released through the above operation, the cover
42
may be held, for example, at 180° with respect to the base
41
by means of the click members (not shown) provided in the brackets
87
,
86
a
, and
86
b
. Thus, a lock operation means such as a detachable handle may be inserted through the opening
82
from the front side of the lockable cap, fitted in the insertion opening of the locking device mounted on the door plate, and rotated to lock or unlock the door.
When the door is locked or unlocked as desired, the detachable handle is drawn out through the opening
82
, and the cover
42
in the state as shown in
FIG. 8
is manually closed by rotating the cover
42
around the shafts
88
a
and
88
b
beyond the position at which the cover
42
has been held with the click members, into the state as shown in FIG.
6
. In the rotation of the cover
42
, the curved surfaces
92
a
and
92
b
of the projections
91
a
and
91
b
shown in
FIG. 9
slidably contact with the sloped surfaces
74
a
and
74
b
of the latch portions
73
a
and
73
b
to press the latch portions
73
a
and
73
b
away from each other. This causes counterclockwise and clockwise rotation of the latch members
72
a
and
72
b
(in
FIG. 10
) away from each other, respectively, around the support pins
71
a
and
71
b
, thereby displacing the latch members
72
a
and
72
b
to open.
When the latch portions
73
a
and
73
b
are displaced to their outermost positions through the slidable contact with the curved surfaces
92
a
and
92
b
, the portions
73
a
and
73
b
then snap-fit with the engagement surfaces
93
a
and
93
b
due to the thrust of the torsion springs
79
a
and
79
b
. This engagement is held by means of the thrust of the springs
79
a
and
79
b
, and thus the cover
42
is kept closed. The closed cover
42
may be opened through the operation as described before, by re-insertion of the key
67
accompanied by rotation of the latch members
72
a
and
72
b.
As hitherto been discussed, according to the present invention, only when the correct key is inserted into the key-operated lock disposed in the lockable cap from below the lock, operation of the latch releasing member and thus disengagement of the cover from the latch member is enabled to allow the opening for receiving the lock operation means to be exposed for setting or opening operation of the locking device using the lock operation means. Therefore a lock security system is established easily by simply attaching such a lockable cap with respect to a locking device of various types and manufacturers.
According to the present invention, upon disengaging the openable cover from the latch member, the elastic member assists in opening the cover to a predetermined extent with its elastic thrust, so that undesired re-closing of the cover by the return of the latch member may be avoided. Further, by orienting the key insertion port of the key-operated lock downward, and by providing in the key insertion port a shutter that opens upon insertion of the key, intrusion of water droplets and dusts into the interior of the key-operated lock may be prevented.
In addition, the use of the lock of a key-insertion type containing pins or a corrugated plate reduces the entire thickness of the lockable cap, thereby minimizing the height of the lockable cap projecting from the door surface and improving appearance. Further, when the openable cover is closed to cover the opening for receiving the lock operation means, the elastic member acts as an excellent seal at the opening.
Although the present invention has been described with reference to the preferred embodiment, it should be understood that various modifications and variations can be easily made by those skilled in the art without departing from the spirit of the invention. Accordingly, the foregoing disclosure should be interpreted as illustrative only and is not to be interpreted in a limiting sense. The present invention is limited only by the scope of the following claims.
Claims
- 1. A lockable cap comprising:a base having an opening penetrating through said base, an openable cover pivotally mounted on said base for releasably covering said opening, an elastic member for elastically thrusting said cover in an opening direction for exposing said opening, a latch member for retaining said cover in a closed position with respect to said base against elastic thrust applied by said elastic member, a key-operated lock having in-line tumblers disposed in said base, a key for setting and opening said key-operated lock by moving said key linearly, and a latch releasing member attached to said key-operated lock and advanced with said key to press said latch member in a direction of insertion of said key for releasing said latch member to open said cover when said key is inserted into said lock to open.
- 2. The lockable cap of claim 1 wherein said elastic member is a seal member attached to said openable cover and closing said opening in an air-tight manner when said cover is in the closed position.
- 3. The lockable cap of claim 1 wherein said key-operated lock has a key insertion port oriented downward.
- 4. The lockable cap of claim 3 wherein said key operated lock is a lock with in-line tumblers and said key is moved linearly.
- 5. The lockable cap of claim 3 further comprising a shutter disposed in said key insertion port.
- 6. A lockable cap comprising: a base having an opening penetrating through said base,an openable cover pivotally mounted on said base for releasably covering said opening, an elastic member for elastically thrusting said cover in an opening direction for exposing said opening, a latch member for retaining said cover in a closed position with respect to said base against elastic thrust applied by said elastic member, a key-operated lock disposed in said base, a key for setting and opening said key-operated lock, and a latch releasing member attached to said key-operated lock and advanced with said key to press said latch member in a direction of insertion of said key for releasing said latch member to open said cover when said key is inserted into said lock to open, wherein said key-operated lock is a lock of a key-insertion type containing pins or a lock of a key-insertion type containing a corrugated plate.
Priority Claims (1)
Number |
Date |
Country |
Kind |
11-218458 |
Aug 1999 |
JP |
|
US Referenced Citations (21)