Information
-
Patent Grant
-
6564598
-
Patent Number
6,564,598
-
Date Filed
Friday, May 17, 200222 years ago
-
Date Issued
Tuesday, May 20, 200321 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 070 208
- 070 210
- 070 213
- 070 219
- 070 311
- 070 312
- 292 3363
- 292 DIG 31
-
International Classifications
-
Abstract
Although a door locking handle assembly is small as a whole in thickness in construction, it permits, through its computerized personal management system, a large number of persons or users to have easily and quickly access to their instruments contained in a box provided with the door locking handle assembly. In this assembly, a combination lock (19), which is opened by turning each of a set of its specially marked dial discs (22) a given number of times to establish a unique combination of marks of the dial discs (22), is incorporated in a door handle (13) or in a base body (1). In operation, a locking member (24) of the assembly prevents the door handle (13) from being pulled out of the base body (1), and is driven to reach its unlocked position when the combination lock (19) is opened.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a door locking handle assembly with a built-in combination lock of a pull-out and side-swinging lever-action type, in which a door handle is pivoted to a base body of the assembly so as to be pulled out forward and pushed back rearward relative to the base body and turned on its pivoted end.
2. Description of the Related Art
As is well known in the art, a door locking handle assembly of a conventional type shown in U.S. Pat. No. 5,467,623, herein incorporated by reference, has a construction in which: a base body of the assembly is fixedly mounted on a door; a door handle is pivoted to the base body so as to be pulled out forward and pushed back rearward relative to the base body and further turned sideward on its pivoted end after completion of its pulling-out operation; when the door handle is pulled out of the base body to assume its pulled-up or raised inclination position relative to the base body or turned sideward after completion of its pulling-out operation, a catch plate or rack which serves as a door bolt directly or indirectly connected with the door handle is released from a receiving portion of a stationary frame element (i.e., door frame for supporting a door). In this type of conventional door locking handle assembly, a cylinder lock is incorporated in either the door handle or the base body. On the other hand, the door handle is pushed back rearward relative to the base body and held in its folded or locked position in the base body.
In the conventional door locking handle assembly, an available space for mounting the assembly is extremely limited in each of opposite sides of the door to which the assembly is fixedly mounted because the interior space of a box or container for housing various instruments therein is relatively limited due to the presence of these various instruments housed therein Due to this, it is necessary to considerably limit in height the projections of the assembly in opposite directions perpendicular to the plane of the door's surface.
In order to fulfill the above need, it is necessary to reduce in thickness the assembly as a whole by reducing in thickness the door handle and in depth the base body. However, this forces a cylinder lock of the assembly to be small in thickness.
On the other hand, in a thin-type cylinder lock, since the number of sets of disc tumblers and/or pin tumblers incorporated in the cylinder lock as components of its internal locking mechanism is small, the number of available keys of the cylinder lock is naturally limited. Due to this, in the case where there are a large number of eligible users of the instruments contained in the box provided with the door locking handle assembly which employs the cylinder lock in a condition in which these users are controlled through a computerized personal management system, it is difficult to use the conventional door locking handle assembly which employs the thin-type cylinder lock.
Although the conventional door locking handle assembly described above has been fully appreciated by users, a need exists in the art for an improved one of such door locking handle assembly, which is improved in performance.
SUMMARY OF THE INVENTION
Under such circumstances, the present invention was made. Consequently, it is an object of the present invention to provide a door locking handle assembly, which is small in thickness as a whole and capable of providing a very large number of available keys of a combination lock incorporated in the assembly, wherein a large number of eligible persons or users of various instruments contained in a box or container provided with the door locking handle assembly are precisely controlled through a computerized personal management system.
It is possible to accomplish the above object of the present invention by providing:
In a door locking handle assembly with a built-in combination lock (
19
), the assembly being provided with a base body (
1
) which is fixedly mounted on a door (
2
), wherein a door handle (
13
) is pivoted to the base body (
1
) so as to be capable of being pulled out forward and pushed back rearward relative to the base body (
1
) and also turning sideward on a locking shaft (
10
) after completion of its pulling-out operation, wherein a rack (
12
) serving as a door bolt for the door (
2
) is directly or indirectly connected with the door handle (
13
) so as to be engaged with and disengaged from a receiving portion of a stationary frame element such as a main body of a box when the door handle (
13
) is pulled out forward and then turned sideward on the locking shaft (
10
) after completion of the pulling-out operation of the door handle (
13
), the rack (
12
) being slidably supported and guided in its up and down linear motion relative to the door (
2
), wherein the door (
2
) is swingably supported by the stationary frame element, the improvement wherein:
the combination lock (
19
), which is provided with a plurality of marked dial discs (
22
), is incorporated in the door handle (
13
) and opened by turning each of the marked dial discs (
22
) a given number of times to establish a predetermined combination of marks provided in outer peripheral surfaces of the dial discs (
22
);
a locking member (
24
) for preventing the door handle (
13
) from being pulled out of the base body (
1
) is juxtaposed with an inner surface of the door handle (
13
) to pass through a central portion of each of the plurality of the marked dial discs (
22
) of the combination lock (
19
);
the base body (
1
) is provided with a projection portion (
40
) in an inner peripheral surface of its lower end portion, wherein the projection portion (
40
) is provided with a front cam slope (
42
) and a rear cam slope (
41
) to have each of the cam slopes (
42
,
41
) be engageable with a lower-end latch member (
35
) which is connected with a lower end portion of the locking member (
24
), wherein the rear cam slope (
41
) of the projection portion (
40
) drives the lower-end latch member (
35
) upward against a resilient force exerted by a spring member (
27
) when the door handle (
13
) is pulled out of the base body (
1
) after the combination lock (
19
) is unlocked; and
all the marked dial discs (
22
), the locking member (
24
) and the lower-end latch member (
35
) are resiliently urged downward under the influence of the resilient force exerted by the spring member (
27
), which permits the lower-end latch member (
35
) to be engaged with and disengaged from the projection portion (
40
) of the base body (
1
) when the combination lock (
19
) is locked and unlocked, respectively.
In the door locking handle assembly of the present invention having the above construction, a control operator of the instruments housed in the box allocates to each of a large number of eligible users or owners of these instruments a unique combination of marks of the marked dial discs of the combination lock for unlocking and locking the combination lock.
In opening a door of the box to use the instruments contained in the box, it is necessary for each of the eligible users to establish his or her own allocated unique combination of the marks by turning in a normal or a reverse direction each of the marked dial discs a given number of times, wherein the marks are provided in an outer peripheral surface of each of the dial discs.
When the allocated unique combination of the marks of the dial discs is established, the combination lock is unlocked to permit the locking member and the lower-end end latch member connected with the lower end portion of the locking member to move to their unlocked positions, so that the door handle is released from the base body, which permits the door handle is pulled out of the base body to assume its raised position.
When the door handle is then swung sideward in its raised position, the rack, which is slidably supported and guided in the door latch mechanism of the door, is moved up and down relative to the door latch mechanism and engaged with and disengaged from the receiving portion of the stationary frame element of the box, which permits the door of the box to be closed and opened, respectively.
BRIEF DESCRIPTION OF THE DRAWINGS
The above and other objects, advantages and features of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings in which:
FIG. 1
is a front view of an embodiment of the door locking handle assembly of the present invention in its locked condition in which the rack is moved up as shown in phantom lines;
FIG. 2
is a left side view of the door locking handle assembly shown in
FIG. 1
;
FIG. 3
is a plan view of the door locking handle assembly shown in
FIG. 1
;
FIG. 4
is a rear view of the door locking handle assembly shown in
FIG. 1
in a condition in which a door latch mechanism including the rack is removed;
FIG. 5
is a longitudinal sectional view of the door locking handle assembly, taken along the line A—A of
FIG. 1
;
FIG. 6
is a longitudinal sectional view of the door locking handle assembly, taken along the line B—B of
FIG. 2
;
FIG. 7
is a longitudinal sectional view of the door locking handle assembly, taken along the line A—A of
FIG. 1
, which illustrates the door handle having been unlocked from the base body in the beginning of unlocking process of the door handle;
FIG. 8
is a longitudinal sectional view of the door locking handle assembly, taken along the line A—A of
FIG. 1
, which illustrates the door handle after completion of its unlocking process;
FIG. 9
is a side view of the locking member incorporated in the door locking handle assembly shown in
FIG. 1
;
FIG. 10
is a front view of the lower-end latch member connected with the lower end portion of the locking member shown in
FIG. 9
;
FIG. 11
is a side view of the lower-end latch member shown in
FIG. 10
;
FIG. 12
is a plan view of the lower-end latch member shown in
FIG. 10
;
Fog.
13
is a cross-sectional view of the lower-end latch member, taken along the line C—C of
FIG. 10
;
FIG. 14
is a front view of the door handle employed in the door locking handle assembly shown in
FIG. 1
;
FIG. 15
is a left side view of the door handle shown in
FIG. 14
;
FIG. 16
is a rear view of the door handle shown in
FIG. 14
;
FIG. 17
is a longitudinal sectional view of the door handle, taken along the line D—D of
FIG. 14
;
FIG. 18
is a plan view of the door handle shown in
FIG. 14
;
FIG. 19
is a cross-sectional view of the door handle, taken along the line E—E of
FIG. 16
;
FIG. 20
is a cross-sectional view of the door handle, taken along the line F—F of
FIG. 16
;
FIG. 21
is a cross-sectional view of the door handle, taken along the line G—G of
FIG. 16
;
FIG. 22
is a cross-sectional view of the door handle, taken along the line H—H of
FIG. 16
;
FIG. 23
is a cross-sectional view of the door handle, taken along the line I—I of
FIG. 16
;
FIG. 24
is a cross-sectional view of the door handle, taken along the line J—J of
FIG. 16
;
FIG. 25
is a cross-sectional view of the door handle, taken along the line K—K of
FIG. 16
;
FIG. 26
is a front view of the back plate member employed in the door handle shown in
FIG. 14
;
FIG. 27
is a plan view of the back plate member shown in
FIG. 26
;
FIG. 28
is a left side view of the back plate member shown in
FIG. 26
;
FIG. 29
is a rear view of the back plate member shown in
FIG. 26
;
FIG. 30
is a longitudinal sectional view of the back plate member, taken along the line of L—L of
FIG. 26
;
FIG. 31
is a cross-sectional view of the back plate member, taken along the line M—M of
FIG. 26
;
FIG. 32
is a cross-sectional view of the back plate member, taken along the line N—N of
FIG. 26
;
FIG. 33
is a cross-sectional view of the back plate member, taken along the line O—O of
FIG. 26
;
FIG. 34
is a cross-sectional view of the back plate member, taken along the line P—P of
FIG. 26
;
FIG. 35
is a cross-sectional view of the back plate member, taken along the line Q—Q of
FIG. 26
;
FIG. 36
is a front view of the dial disc incorporated in the door locking handle assembly shown in
FIG. 1
;
FIG. 37
is a plan view of the dial disc shown in
FIG. 36
;
FIG. 38
is a longitudinal sectional view of the dial disc, taken along the line R—R of
FIG. 37
;
FIG. 39
is a plan view of the cam disc incorporated in the door locking handle assembly shown in
FIG. 1
;
FIG. 40
Is a bottom view of the cam disc shown in
FIG. 39
;
FIG. 41
is a front view of the cam disc shown in
FIG. 39
;
FIG. 42
is a rear view of the cam disc shown in
FIG. 39
;
FIG. 43
is a left side view of the cam disc shown in
FIG. 39
;
FIG. 44
is a longitudinal sectional view of the cam disc, taken along the line S—S of
FIG. 39
;
FIG. 45
is a front view of the resilient detent member incorporated in the door locking handle assembly shown in
FIG. 1
;
FIG. 46
is a left side view of the resilient detent member shown in
FIG. 45
;
FIG. 47
is a plan view of the resilient detent member shown in
FIG. 45
;
FIG. 48
is a longitudinal sectional view of the door locking handle assembly shown in
FIG. 1
, illustrating the components of the combination lock in its locked condition;
FIG. 49
is a cross-sectional view of the door locking handle assembly, taken along the line T—T of
FIG. 48
;
FIG. 50
is a cross-sectional view of the door locking handle assembly, taken along the line U—U of
FIG. 48
;
FIG. 51
is a longitudinal sectional view of the door locking handle assembly shown in
FIG. 1
, illustrating the lower-end latch member held in its retracted position;
FIG. 52
is a cross-sectional view of the door locking handle assembly, taken along the line V—V of
FIG. 51
; and
FIG. 53
is a cross-sectional view of the door locking handle assembly, taken along the line W—W of FIG.
51
.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
The best modes for carrying out the present invention will be described in detail using embodiments of the present invention with reference to the accompanying drawings.
In an embodiment of a door locking handle assembly with a built-in combination lock according to the present invention, as shown in
FIG. 5
, a base body
1
of the door locking handle assembly is fixedly mounted on a front surface of a door
2
, which is provided with a mounting hole
3
. The door
2
is swingably supported by a stationary frame element or door frame (not shown) such as a box containing various types of instruments therein. More specifically, as shown in
FIG. 5
, a screw
7
is inserted into a through-hole
8
of a fastening casing
5
from its rear side, passes through this fastening casing
5
forward, and is then threadably engaged with a threaded hole
6
formed in a rear portion of the base body
1
, so that a door
2
is firmly sandwiched between the base body
1
and the fastening casing
5
. Incidentally, the fastening casing
5
is combined with a rack
12
to form a door latch mechanism
4
, wherein the rack
12
is slidably supported and guided to serve as a door bolt for the door
2
.
On the other hand, a bearing hole
9
is formed in an upper portion of the base body
1
to extend in a direction perpendicular to a front surface of the door
2
. Rotatably received in such a bearing hole
9
of the base body
1
in an insertion manner is a locking shaft
10
. As is clear from
FIG. 5
, the locking shaft
10
is provided with a shoulder portion in its substantially intermediate portion. This intermediate shoulder portion of the locking shaft
10
prevents the locking shaft
10
from axially sliding relative to the base body
1
. The locking shaft
10
is provided with a square hole
10
a
in its rear portion. Fixedly received in such a square hole
10
a
of the locking shaft
10
in an insertion manner is a corresponding square column portion formed in a front end portion of a pinion shaft
11
. As is clear from
FIG. 6
, the pinion shaft
11
is provided with a pinion gear formed in an outer peripheral surface of its rear end portion. Such a pinion gear of the pinion shaft
11
meshes with a rack
12
. The rack
12
serves as a door bolt for the door
2
. The rack
12
is slidably supported and guided in the door latch mechanism
4
of the door
2
, and capable of moving up and down relative to the door latch mechanism
4
so as to be engaged with and disengaged from a receiving portion “3” of a stationary frame element “2” of a box containing the various types of instruments therein, which permits the door “1” of the box to be opened, wherein: the reference numerals “3”, “2” and “1” enclosed in double quotation marks are used in the prior art: U.S. Pat. No. 5,467,623, herein incorporated by reference.
As is clear from
FIG. 5
, formed in an upper rear portion of the door handle
13
is a concave portion
14
. The concave portion
14
assumes a substantially fan-like shape in longitudinal section to swingably receive therein a front end portion of the locking shaft
10
. More specifically, the door handle
13
had its upper end portion corresponding to its concave portion
14
pivoted to the front end portion of the locking shaft
10
through a cross pivot
15
. The cross pivot
15
extends in parallel with a front surface of the door
2
in a direction perpendicular to the longitudinal axis of the door handle
13
. In operation, when the door handle
13
is folded down so as to be embedded in the base body
1
, it is possible for a front concave portion
16
of the base body
1
to receive therein a rear portion of an essential part of the door handle
13
. As shown in
FIGS. 1 and 2
, formed in each of opposite sides of a lower end portion of the door handle
2
is a flange serving as a fingertip engaging edge portion
17
, which bulges out sideward in a direction perpendicular to the longitudinal axis of the door handle
13
. As is clear from
FIG. 2
, even when the door handle
13
is in its folded position, both the fingertip engaging edge portions
17
of the door handle
13
are still spaced apart forward from a front surface of the corresponding lower portion of the base body
1
, which enables the user to pick up the lower free end portion of the door handle
13
in an easy manner.
On the other hand, when the door handle
13
is in its raised position in which the door handle
13
is inclined forward as viewed in
FIG. 8
, it is possible for the user to swing sideward or rotate the door handle
13
on the locking shaft
10
relative to the base body
1
. In construction, as shown in
FIG. 5
, the locking shaft
10
has its rear end portion coaxially fixed to a pinion shaft
11
. As shown in
FIG. 6
, the pinion shaft
11
is provided with a pinion gear in an outer peripheral surface of its rear end portion. Due to the above construction, the locking shaft
10
thus rotated together with the door handle
13
rotatably drives the pinion shaft
11
so as to rotate the pinion gear of the pinion shaft
11
. As shown in
FIG. 6
, since the pinion gear of the pinion shaft
11
meshes with the rack
12
serving as the door bolt of the door
2
, the rack
12
is slidably moved up and down relative to the door
2
when the door handle
13
is turned on the locking shaft
10
. As a result, the door
2
is unlocked or released from the stationary frame element which is denoted by the reference numeral “2” in the prior art: U.S. Pat. No. 5,467,623, herein incorporated by reference. This makes it possible for the user to open the door
2
by simply pulling the door handle
13
forward. Consequently, it is possible for the user to inspect and maintain his or her own instruments contained in the main body of the box.
Formed in an intermediate portion of the door handle
13
to extend in the longitudinal direction of the door handle
13
is an elongated hollow portion
20
(shown in
FIG. 5
) for receiving therein a combination lock
19
. The hollow portion
20
of the door handle
13
is open at the rear side of the door handle
13
to form an opening which is covered by a back plate member
21
.
The combination lock
19
is constructed of a plurality of its components. Essential ones of these components of the combination lock
19
are: a plurality of marked dial discs
22
; a plurality of cam discs
23
combined with the dial discs
22
; a rod-shaped locking member
24
; and, a lower-end latch member
35
connected with a lower end portion of the locking member
24
for preventing the door handle
13
from being pulled out of the base body
1
As is clear from
FIG. 5
, a lower end portion of the locking member
24
is bent to form a lower-end bent portion which is inserted in a bent recess
35
a
(shown in
FIG. 7
) of the lower-end latch member
35
, so that the locking member
24
is connected with the lower-end latch member
35
.
As is clear from Fig.
FIG. 50
, each of the cam discs
23
assumes a short cylindrical shape, and is provided with a through-hole
23
a
which extends in a direction perpendicular to the paper of
FIG. 50
to axially pass through a center of the cam disc
23
. The looking member
24
passes through the through-hole
23
a
of the cam disc
23
. On the other hand, as shown in
FIG. 38
, each of the marked dial discs
22
is provided with a small-diameter bore portion
22
a
and a large-diameter bore portion
22
b
. These bore portions
22
a
,
22
b
are combined with each other to form a through-hole, which axially passes through a center of each of the dial discs
22
. As is clear from
FIG. 51
, a spring member
27
is constructed of a compression coil spring to exert its resilient force on the uppermost one of the cam discs
23
. In operation, when the lowermost one of the cam discs
23
is axially moved upward against a resilient force exerted by the coil spring member
27
relative to the corresponding dial disc
22
to have its upper end portion enter the small-diameter bore portion
22
a
of the corresponding dial disc
22
, this cam disc
23
has an interlocking projection
26
of its outer peripheral surface engaged with an interlocking groove
25
of an inner peripheral surface of the small-diameter bore portion
22
a
of the corresponding dial disc
22
. In contrast with this, in locked condition of operation shown in
FIG. 48
, the cam disc
23
has its lower portion extend downward from the small-diameter bore portion
22
a
of the corresponding dial disc
22
under the effect of the resilient force exerted by the spring member
27
. Consequently, as is clear from
FIG. 48
, in this locked condition of operation, the interlocking projection
26
(shown in
FIG. 44
) of the cam disc
23
is disengaged from the interlocking groove
25
(shown in
FIG. 38
) of the corresponding dial disc
22
.
As shown in
FIG. 40
, the cam disc
23
is provided with a plurality of positioning projections
26
a
in its outer peripheral surface. The number of these positioning projections
26
a
is equal to the number of a plurality of marks having been applied to an outer peripheral surface of the dial disc
22
. These marks are denoted by the Roman numerals, for example such as “4”, “3”, “2”, as shown in
FIG. 36
, and spaced apart from each other at predetermined equal angular intervals. As shown in
FIG. 44
, the positioning projection
26
a
of the cam disc
23
is formed in a proximal end portion of the interlocking projection
26
. On the other hand, the back plate member
21
is fixedly mounded on the inner surface of the door handle
13
by means of a plurality of screws
30
(shown in FIG.
7
), each of which screws
30
is threadably engaged with a threaded hole
29
(shown in
FIG. 23
) of each of a plurality of guide projections
28
. As shown in
FIG. 26
, the back plate member
21
is provided with at least one positioning groove
31
, which is engaged with at least one of the positioning projections
26
a
of the cam disc
23
(shown in FIG.
41
).
As shown in
FIG. 37
, a plurality of detent grooves
32
are formed in an outer peripheral surface of the dial disc
22
at predetermined equal angular intervals in a manner such that each of the detent grooves
32
is sandwiched between adjacent ones of the numeral marks having been applied to the outer peripheral surface of the dial disc
22
. Consequently, the number of the detent grooves
32
is equal to that of the marks applied to the outer peripheral surface of the dial disc
22
. As shown in
FIG. 49
, a detent leaf spring
33
is fixedly mounted in the elongated hollow portion
20
of the door handle
13
to have its free end portion detachably engaged with each of the detent grooves
32
of the dial disc
22
. This enables each of the dial discs
22
to be held in its predetermined angular position, and therefore to establish a unique combination of the marks of the dial discs
22
.
It is possible for the user to arbitrarily modify such a unique combination for unlocking the combination lock
19
by simply turning any one of dial discs
22
using his or her fingertip.
Such modification procedure of the combination of the marks is accomplished as follows: namely, in a condition in which the door handle
13
is in its raised position shown in
FIG. 8
, at first, it is necessary for the user to push up the lower-end latch member
35
into a hollow portion
36
(shown in
FIG. 5
) of the door handle
13
by using his or her finger, as shown in FIG.
51
. When the lower-end latch member
35
is pushed up relative to the door handle
13
, the lowermost one of the cam discs
23
is moved upward against a resilient force exerted by the coil spring member
27
since the lowermost cam disc
23
has its bottom surface abut against an interlocking ring
37
which is fixedly mounted on the locking member
24
. As is clear from
FIG. 51
, the locking member
24
has its lower end portion engaged with the lower-end latch member
35
, which makes it possible to move up the lowermost one of the cam discs
23
against the resilient force exerted by the coil spring member
27
when the lower-end latch member
35
is moved up into the hollow portion
36
of the door handle
13
. As a result, an upper end portion of the cam disc
23
enters the small-diameter bore portion
22
a
of the dial disc
22
(FIG.
51
), so that the positioning projection
26
a
of the cam disc
23
is axially moved up out of the positioning groove
31
(shown in
FIG. 34
) of the back plate member
21
. At this time, the interlocking projection
26
of the cam disc
23
(shown in
FIGS. 41
to
43
) is engaged with the corresponding interlocking groove
25
of the dial disc
22
(shown in
FIGS. 36
to
38
).
As a result, the cam disc
23
is interlocked with the corresponding dial disc
22
. Consequently, under such circumstances, when the dial disc
22
is turned through a predetermined angle by the user, the cam disc
23
is also turned through the same predetermined angle. After completion of modification in combination of the marks, when the lower-end latch member
35
is released from the pressure applied by the user's finger, the coil spring member
27
drives the cam disc
23
downward to force the upper end portion of the cam disc
23
to separate from the small-diameter bore portion
22
a
of the corresponding dial disc
22
. As a result, only the dial disc
22
thus separated from the corresponding cam disc
23
become rotatable. Under such circumstances, when the dial disc
22
thus separated from the cam disc
23
is turned arbitrarily, it is possible to move the interlocking groove
25
of the dial disc
22
to an angular position in which the interlocking groove
25
fails to align with the interlocking projection
26
of the corresponding cam disc
23
. In such an angular position, it is not possible for the cam disc
23
to enter the small-diameter bore portion
22
a
of the corresponding dial disc
22
. This realizes the locked condition of operation.
When the eligible user who knows the unique combination of the marks of the dial discs
22
establishes such unique combination by turning the individual dial discs
23
, the interlocking grooves
25
of the dial discs
22
align in angular position with the corresponding interlocking projections
26
of the cam discs
23
to receive these projections
26
therein, so that the combination lock
19
is unlocked.
As is clear from
FIG. 51
, a plurality of the cam discs
23
are vertically stacked into a neat pile between the coil spring member
27
and the interlocking ring
37
in a manner such that such a neat pile of the cam discs
23
are resiliently urged against the interlocking ring
37
under the effect of a resilient force exerted by the coil spring member
27
which is mounted over an upper end portion of the locking member
24
.
In order to make it easy for the user to catch the marks applied to the outer peripheral surfaces of the dial discs
22
and also make it easy for the user to turn these dial discs
22
using his or her fingertip, the dial disc
22
is so arranged as to have a part thereof extended forward (as shown in
FIGS. 1 and 2
) from a slot
38
formed in the front surface of the door handle
13
. In this embodiment, as is clear from
FIG. 36
, each of the marks of the dial discs
22
is constructed of a predetermined numeric character, for example such as any one of numerals from “0” to “9”. These marks or numerals are angularly spaced apart from each other at predetermined equal angular intervals. On the other hand, the locking member
24
passes through the though-holes
23
a
formed in the centers of the cam discs
23
.
As for the lower-end latch member
35
connected with the lower end portion of the locking member
24
, it is also possible to make the lower-end latch member
35
an integral part of the locking member
24
. As is clear from
FIG. 7
, the lower-end latch member
35
extends out of the hollow portion
36
of the door handle
13
through its lower-end opening
39
to engage with the projection portion
40
of the base body
1
, wherein the projection portion
40
assumes substantially a triangular shape in cross section. In other words, the projection portion
40
of the base body
1
is provided with a front cam slope
42
and a rear cam slope
41
. When the door handle
13
is in its folded position, the lower-end latch member
35
is brought into press-contact with the rear cam slope
41
of the projection portion
40
of the base body
1
.
When the unique combination of the marks of the dial discs
22
is established by the eligible user who knows such unique combination, the interlocking groove
25
of the dial disc
22
is aligned in angular position with the interlocking projection
26
of the cam disc
23
to receive therein the interlocking projection
26
of the cam disc
23
when the cam disc
23
is moved upward in
FIG. 51
, which permits the combination lock
19
to be unlocked.
Under such circumstances, when the user has his or her fingertip engaged with the fingertip engaging edge portions
17
of the lower free end portion of the door handle
13
and swingably pulls forward the door handle
13
from the front surface of the base body
1
, as shown in
FIGS. 7 and 8
, the locking member
24
is pushed upward through the lower-end latch member
35
against a resilient force exerted by the coil spring member
27
since the lower end portion of the lower-end latch member
35
having been connected with the locking member
24
is pushed upward by means of a rear cam slope
41
of a projection portion
40
which is provided in an inner peripheral surface of a lower end portion of the base body
1
, as is clear from
FIGS. 7 and 8
.
In a brief summary, a time when the door handle
13
is released from the base body
1
is a time when the lower-end latch member
35
is pushed upward to reach its uppermost position shown in FIG.
7
. After the lower-end latch member
35
reaches its uppermost position, the door handle
13
is further pulled up or swung forward through a predetermined angle, as shown in FIG.
8
. Then, the door handle
13
is turned sideward on the locking shaft
10
through a predetermined angle in a direction perpendicular to the paper of
FIG. 8
, so that the rack
12
of the door
2
is retracted from a stationary frame element of the box, wherein such a stationary frame element is disclosed in the prior art: U.S. Pat. No. 5,467,623, herein incorporated by reference. As a result, the door
2
is unlocked from the stationary frame element of the box.
In the door locking handle assembly of the present invention having the above construction, a control operator of the instruments housed in the box allocates to each of a large number of eligible users a unique combination of marks of the marked dial discs
22
of the combination lock
19
for unlocking and locking the combination lock
19
. Due to this, even when the door locking handle assembly using the combination lock
19
is small as a whole in thickness, the door locking handle system of the present invention is capable of permitting, through its computerized personal management system, a plurality of persons or users to have easily and quickly access to their instruments contained in the box provided with the door locking handle assembly of the present invention.
Each of the eligible users is capable of unlocking the combination lock
19
of the door locking handle assembly by turning in a normal or a reverse direction each of the marked dial discs
22
a given number of times to establish the unique combination having been allocated to each user, wherein the marks are provided in an outer peripheral surface of each of the dial discs
22
.
Once such a unique combination of the marks is established, the combination lock
19
is capable of moving to its unlocking position. Through this movement to the unlocking position of the combination lock
19
, the locking member
24
or the lower-end latch member
35
connected with the lower end portion of the locking member
24
is released from its restricted condition and capable of moving to its unlocking position. Due to this, the door handle
13
is released from the base body
1
of the door locking handle assembly to move to its pulled-up or inclined position. At this time, i.e., when the door handle
13
is swingably pulled out of the base body
1
, the lower-end latch member
35
, which is connected with the lower end portion of the locking member
24
and brought into press-contact with the rear cam slope
41
of the projection portion
40
of the base body
1
, is pushed upward against the resilient force, which is exerted by the coil spring member
27
on the lower-end latch member
35
through the locking member
24
, to permit the lower-end latch member
35
to be disengaged from the rear cam slope
41
of the projection portion
40
of the base body
1
. As a result, it is possible for the user to turn the door handle
13
forward through a predetermined angle up to its pulled-up or raised position.
When the door handle
13
is pulled forward out of the base body
1
and then turned on its locking shaft
10
sideward, the rack
12
serving as a door bolt for the door
2
is slidably moved downward relative to the door
2
and therefore disengaged from the receiving portion of the stationary frame element such as the main body of the box, which permits the door
2
of the box to be opened.
As is clear from the above, in the door locking handle assembly of the present invention with the built-in combination lock
19
, since the locking member
24
is so arranged as to pass through the central through-hole
22
a
,
22
b
of each of the dial discs
22
of the combination lock
19
and to extend in parallel with the longitudinal axis of the door handle
13
, it is possible for the door handle
13
to remarkably reduce its thickness as a whole in construction, which permits the height of the door locking handle assembly of the present invention from the front surface of the door
2
to the front surface of the door handle
13
of the assembly to be the lowest possible level.
Furthermore, in the door locking handle assembly of the present invention: the lower-end latch member
35
connected with the lower end portion of the locking member
24
is detachably engaged with the projection portion
40
of the base body
1
; both the dial discs
22
and the locking member
24
including the lower-end latch member
35
connected therewith are resiliently urged downward by means of the coil spring member
27
; and, the projection portion
40
of the base body
1
is provided with the rear cam slope
41
for driving the lower-end latch member
35
upward against a resilient force exerted by the spring member
27
when the door handle
13
is pulled out of the base body
1
after the combination lock
19
is unlocked. Due to the above construction, in the door locking handle assembly of the present invention, there is little need to construct a means for driving the locking member
24
with separate components. This enables the door locking handle assembly of the present invention to considerably reduce the number of its components and therefore considerably simplify its construction and reduce the manufacturing cost to a large extent.
While the present invention has been particularly shown and described with reference to the preferred embodiments and a modification thereof, it will be understood by those skilled in the art that various modifications and changes may be made therein without departing from the spirit of the present invention as defined by the appended claim.
Claims
- 1. In a door locking handle assembly with a built-in combination lock (19), the assembly being provided with a base body (1) which is fixedly mounted on a door (2), wherein a door handle (13) is pivoted to said base body (1) so as to be capable of being pulled out forward and pushed back rearward relative to said base body (1) and also turning sideward on a locking shaft (10) after completion of its pulling-out operation, wherein a rack (12) serving as a door bolt for said door (2) is directly or indirectly connected with said door handle (13) so as to be engaged with and disengaged from a receiving portion of a stationary frame element such as a main body of a box when said door handle (13) is pulled out forward and then turned sideward on said locking shaft (10) after completion of the pulling-out operation of said door handle (13), said rack (12) being slidably supported and guided in its up and down linear motion relative to said door (2), wherein said door (2) is swingably supported by said stationary frame element, the improvement wherein:said combination lock (19), which is provided with a plurality of marked dial discs (22), is incorporated in said door handle (13) and opened by turning each of said marked dial discs (22) a given number of times to establish a predetermined combination of marks provided in outer peripheral surfaces of said dial discs (22); a locking member (24) for preventing said door handle (13) from being pulled out of said base body (1) is juxtaposed with an inner surface of said door handle (13) to pass through a central portion of each of said plurality of said marked dial discs (22) of said combination lock (19); said base body (1) is provided with a projection portion (40) in an inner peripheral surface of its lower end portion, wherein said projection portion (40) is provided with a front cam slope (42) and a rear cam slope (41) to have each of said cam slopes (42, 41) be engageable with a lower-end latch member (35) which is connected with a lower end portion of said locking member (24), wherein said rear cam slope (41) of said projection portion (40) drives said lower-end latch member (35) upward against a resilient force exerted by a spring member (27) when said door handle (13) is pulled out of said base body (1) after said combination lock (19) is unlocked; and all said marked dial discs (22), said locking member (24) and said lower-end latch member (35) are resiliently urged downward under the influence of said resilient force exerted by said spring member (27), which permits said lower-end latch member (35) to be engaged with and disengaged from said projection portion (40) of said base body (1) when said combination lock (19) is locked and unlocked, respectively.
- 2. The door locking handle assembly of claim 1, wherein said door handle (13) is connected to said rack (12) by a pinion shaft (11) and pinion gear, whereby a sideward turning of said door handle (13) and said locking shaft (10) can move said rack (12) upward and downward relative to said door (2).
- 3. The door locking handle assembly of claim 1, wherein said combination lock (19) includes said plurality of said marked dial discs (22) in an alternating relationship with an equal number of adjacent cam discs (23), said dial discs (22) and said cam discs (23) being rotatably mounted on said elongated locking member (24).
- 4. The door locking handle assembly of claim 3, wherein said marked dial discs (22) can each be interlocked to each adjacent said cam disc (23) by a plurality of positioning projections (26a) which are inserted axially into a mating positioning groove (31).
- 5. The door locking handle assembly of claim 3, wherein each said marked dial disc (22) has a plurality of detent grooves (32) provided equally spaced apart on the dial disc outer periphery, each said dial disc (22) being held in a predetermined angular position by a detent leaf spring (33) fixedly mounted in said handle (13).
- 6. The door locking handle assembly of claim 4, wherein said door handle (13) has an elongated hollow portion (20) covered by a backplate member (21) which is provided with at least one positioning groove (31) which is engaged with a positioning projection (26a).
- 7. In a door locking handle assembly with a built-in combination lock (19), the assembly being provided with a base body (1) which is fixedly mounted on a door (2), wherein a door handle (13) is pivoted to said base body (1) so as to be capable of being pulled out forward and pushed back rearward relative to said base body (1) and also turning sideward on a locking shaft (10) after completion of its pulling-out operation, wherein a rack (12) serving as a door bolt for said door (2) is directly or indirectly connected with said door handle (13) so as to be engaged with and disengaged from a receiving portion of a stationary frame element such as a main body of a box when said door handle (13) is pulled out forward and then turned sideward on said locking shaft (10) after completion of the pulling-out operation of said door handle (13), said rack (12) being slidably supported and guided in its up and down linear motion relative to said door (2), the improvement wherein:said combination lock (19), which is provided with a plurality of marked dial discs (22), is incorporated in said door handle (13) and opened by turning each of said marked dial discs (22) a given number of times to establish a predetermined combination of marks provided in outer peripheral surfaces of said dial discs (22); each said marked dial discs (22) being held in a desired angular position by detent leaf spring (33) fixedly mounted in said door handle (13); a locking member (24) for preventing said door handle (13) from being pulled out of said base body (1) is juxtaposed with an inner surface of said door handle (13) to pass through a central portion of each of said plurality of said marked dial discs (22) and an equal number of cam discs (23) provided each located adjacent to the dial discs (22) of said combination lock (19); said base body (1) is provided with a projection portion (40) in an inner peripheral surface of its lower end portion, wherein said projection portion (40) is provided with a front cam slope (42) and a rear cam slope (41) to have each of said cam slopes (42, 41) be engageable with a lower-end latch member (35) which is connected with a lower end portion of said locking member (24), wherein said rear cam slope (41) of said projection portion (40) drives said lower-end latch member (35) upward against a resilient force exerted by a spring member (27) when said door handle (13) is pulled out of said base body (1) after said combination lock (19) is unlocked; all said marked dial discs (22), said locking member (24) and said lower-end latch member (35) are resiliently urged downward under the influence of said resilient force exerted by said spring member (27), which permits said lower-end latch member (35) to be engaged with and disengaged from said projection portion (40) of said base body (1) when said combination lock (19) is locked and unlocked, respectively, said marked dial discs (22) being provided in an alternating relationship with an equal number of adjacent cam discs (23) all rotatably mounted on said elongated locking member (24); whereby said marked dial discs can be interlocked to each adjacent said cam disc (23) by a plurality of positioning projections (26a) which are inserted into a mating positioning groove (31); and said door handle (13) is connected to said rack (12) by a pinion shaft (11) and pinion gear, whereby a sideward turning of said door handle (13) and said locking shaft (10) can move said rack (12) upward and downward relative to said door (2).
Priority Claims (1)
Number |
Date |
Country |
Kind |
2001-173589 |
Aug 2001 |
JP |
|
US Referenced Citations (10)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2037868 |
Jul 1980 |
GB |