Technical Field of the Invention
[0001] The present invention relates to a handle lock assembly according to the preamble
of the claim 1.
Background of the Invention
[0002] Handle lock assembly structures, which are suitable for linear movement and have
an arm that the user can move in the vertical direction, have been used for many years.
Such handle lock assemblies of a conventional type have a construction in which: a
main body of the assembly is fixedly mounted on a door of a box or container and a
handle or lever is moved relative to the main body. In this type of handle lock assembly,
a lock plug is also incorporated in the handle wherein the handle is pushed back rearward
relative to the main body and held in its closed position in the main body.
[0003] It may be desirable to change the handle having the lock plug for a variety of reasons.
When such changes are necessary, it is potentially both expensive and time-consuming,
which generally results to change the lock as a whole. In order to change different
types of locking systems in the current technique, the lock must be completely disassembled
and replaced with another one. So, replacing the handle lock assembly with the new
one is relatively time-consuming and may require the services of a skilled professional
locksmith.
[0004] A prior art publication in the technical field of the invention may be referred to
as
EP4023840 (A1), which discloses a handle lock assembly comprising a main body with an arm connection
housing; an arm located along a longitudinal axis of the main body and supported at
one end; and a lock plug on the arm.
Objects of the Invention
[0005] An object of the present invention is to provide a handle lock assembly that allows
easy interchange of a handle of a handle lock assembly.
[0006] Another object of the invention is to provide a handle lock assembly that increases
the versatility of the lock plugs with a plurality of handle configurations.
[0007] Another object of the present invention is to provide an improved gear system for
the handle lock assembly which offers an easier opening and closing and requires less
contact.
[0008] Another object of the present invention is to provide a handle lock assembly of a
relatively simple and inexpensive design.
[0009] Another object of the present invention is to provide a handle lock assembly that
is adapted to various doors that are different from each other in thickness and have
limited space.
[0010] The present invention advantageously expands the scope of use by allowing different
types of handles to be used.
Summary of the Invention
[0011] The invention relates to a handle lock assembly for a door of a cabinet, the handle
lock assembly comprising: a main body having a handle housing extending along a longitudinal
axis of the handle lock assembly; a handle adapted to move between an unlocked position
in which the handle is lifted from the handle housing and a locked position in which
the handle is substantially within the handle housing; and a lock plug provided at
the handle. Said handle lock assembly further comprises: at least one geared portion
formed on the handle, being rotatable within the main body when the handle is lifted;
a movable member having at least one toothed portion for rotating a pinion gear by
the movement of the movable member; a plurality of the engagement holes formed in
the movable member meshing with corresponding teeth of the geared portion so as to
convert a rotational movement from the handle to a linear movement; a movable bearing
member placed within the handle housing; at least one pin receiving portion formed
on the bearing member; and at least one pin formed on the handle, attachable to the
pin receiving portion when placing an interchangeable handle. The present invention
proposes the handle lock assembly, in which the handle can be replaced much easier
and which still offers a high level of security.
Brief Description of the Drawings
[0012] The handle lock assembly which is the subject of the present invention is illustrated
in the accompanying drawings for better understanding thereof, which drawings are
only attached for better explaining the present invention and are not limiting the
invention.
Fig. 1 is an exploded view of a handle lock assembly according to the present invention.
Fig. 2a is a side view of a handle of the handle lock assembly according to the present
invention.
Fig. 2b is a side view of a main body of the handle lock assembly according to the
present invention.
Fig. 2c is a cross-sectional view taken from A-A line in Fig. 2b, according to the
present invention.
Fig. 3a is a perspective view of a first type of handle according to the present invention.
Fig. 3b is a perspective view of a second type of handle according to the present
invention.
Fig. 3c is a perspective view of a third type of handle according to the present invention.
Fig. 4 is a partial perspective view of the handle lock assembly wherein the handle
is removed from the main body, according to the present invention.
Fig. 5a is a partial perspective view of the handle lock assembly wherein the handle
is placed and lifted within the main body and an adjustment member is in a first position,
according to the present invention.
Fig. 5b is a longitudinal cross-sectional view of the handle lock assembly wherein
the handle is lifted, according to the present invention.
Fig. 5c is an upper cross-sectional view of the handle lock assembly, according to
the present invention.
Fig. 6a is a partial perspective view of the handle lock assembly wherein the adjustment
member is rotated and brought to a second position to slide the bearing member under
a handle housing.
Fig. 6b is a longitudinal cross-sectional view of the handle lock assembly shown in
Fig. 6a wherein the handle is lifted, according to the present invention.
Fig. 6c is another longitudinal cross-sectional view of the handle lock assembly,
according to the present invention.
Fig. 7 is a partial perspective view of the handle lock assembly in which a base plate
is removed to show the relation between a pinion gear and a movable member, according
to the present invention.
Fig. 8 is a partial longitudinal cross-section view of the handle lock assembly in
which the handle is removed, according to the present invention.
Detailed Description of the Invention
[0013] The invention will now be explained in detail in this section with reference to the
accompanying drawings and the list of reference numerals used in the appended drawings
is as follows;
- 10.
- Handle lock assembly
- 20.
- Main body
21. Bearing member
22. Pin receiving portion
23. Adjustment member
231. Upper part
232. End of the adjustment member
24. Movable member
241. Upper guiding portion
242. Toothed portion
243. Engagement hole
25. Spring
26. Pinion gear
27. Snap ring
28. Handle housing
281. Upper covering portion
- 29.
- Adjustment member housing
- 30.
- Handle
31. Pin
32. Geared portion
321. Planar lateral surface
322. Tooth
33. Lock plug
34. Lock plug cover
- 40.
- Base plate
41. Fastening member
42. Fastening hole
- 50.
- Transmission bar
- X.
- longitudinal axis of the handle lock assembly
[0014] The present invention relates to a handle lock assembly (10) for a door of a cabinet,
the handle lock assembly (10) comprising: a main body (20) having a handle housing
(28) extending along a longitudinal axis (X) of the handle lock assembly (10); a handle
(30) adapted to move between an unlocked position in which the handle (30) is lifted
from the handle housing (28) and a locked position in which the handle (30) is substantially
within the handle housing (28), and a lock plug (33) provided at the handle (30).
Said handle lock assembly (10) further comprises: at least one geared portion (32)
formed on the handle (30), being rotatable within the main body (20) when the handle
(30) is lifted; a movable member (24) having at least one toothed portion (242) for
rotating a pinion gear (26) by the movement of the movable member (24); a plurality
of the engagement holes (243) formed in the movable member (24) for engaging with
corresponding teeth (322) of the geared portion (32) so as to convert a rotational
movement from the handle (30) to a linear movement; a movable bearing member (21)
placed within the handle housing (28); at least one pin receiving portion (22) formed
on the bearing member (21); and at least one pin (31) formed on the handle (30), attachable
to the pin receiving portion (22) when placing an interchangeable handle (30). So
that different types of handles (30) having a different types of lock plugs (33) can
be easily disassembled and attached to the handle lock assembly (10).
[0015] Referring to Fig. 1, the bearing member (21) has at least one adjustment member (23)
arranged in an adjustment member housing (29) of the bearing member (21) and as can
be seen in Fig. 4 and 6a, one end of the adjustment member (232) is rotatably attached
to the main body (20). This end of the adjustment member (232) can be in the form
of a pin arranged to attach the corresponding hole formed in the main body (20). Advantageously,
said adjustment member (23) is rotatable between a first position in which the bearing
member (21) is retracted and a second position in which the bearing member (21) is
at least partly moved under an upper covering portion (281) of the handle housing
(28). The first position of the adjustment member (23) and the bearing member (21)
can be seen in Fig. 4a wherein the handle (30) is attached to the bearing member (21),
and in Fig. 6a by using a suitable tool (i.e. Allen key) adjustment member (23) is
rotated and the bearing member (21) is at least partly moved under the upper covering
portion (281) of the handle housing (28). So, said adjustment member (23) is used
to change the location of the handle (30) when replacement is needed.
[0016] The adjustment member (23) can be formed as an eccentric pin, so an off-axis upper
part (231) of the adjustment member (23) is housed in the bearing member (21) and
when rotated by the user, the upper part (231) urges the bearing member (21) to move
linearly within the handle housing (28). The upper part (231) is arranged to abut
the adjustment member (23) and urges to move the bearing member (21) when rotated.
The adjustment member housing (29) is preferably circular and is formed with respect
to the adjustment member (23). In a possible embodiment, a snap ring (27) in the form
of a "C" is used to attach the adjustment member (23) to the bearing member (21).
[0017] Referring to Fig. 4, the bearing member (21) has two similar oppositely oriented
pin receiving portions (22) for receiving corresponding pins (31) of the handle (30).
Preferably, two pins (31) are oppositely arranged at the planar lateral surfaces (321)
of the geared portion (32) of the handle (30) to fit into the corresponding pin receiving
portions (22). Fig. 5 shows the engaged position of the corresponding pins (31) within
the corresponding pin receiving portions (22). When the user wants to change the handle,
(s)he can easily rotate the adjustment member (23) to retract the bearing member (21)
from the operating position, so the handle (30) can be removed from its housing. Said
pins (31) can have a circular cross-section and so the pin receiving portions (22)
are shaped and dimensioned with respect to corresponding pins (31). In a possible
embodiment, the pin receiving portions (22) have a U-shaped cross-section for a better
and easy engagement.
[0018] Referring to 7 and 8, the movable member (24) has a plurality of similar engagement
holes (243) for meshing corresponding teeth (322) of the geared portion (32). With
this arrangement, when the handle (30) is lifted (i.e., at least partly rotated around
an axis), the movable member (24) is forced to move in the direction of the longitudinal
axis (X) of the handle lock assembly (10), which causes the pinion gear (26) to rotate.
There is at least one toothed portion (242) with a plurality of engaging teeth (i.e.,
in the form of a rack) on one of the lower walls of the movable member (24) and these
meshing teeth interact with the pinion gear (26) and ensures its rotation. The pinion
gear (26) can have an inner groove that is shaped and dimensioned with respect to
an engagement protrusion of the transmission bar (50). The pinion gear (26) can be
arranged to snap fit with the transmission bar (50) and in a possible embodiment,
both of them are produced as a single part. The transmission bar (50) having a rectangular
or square cross-section can be attached to locking means (not shown) with respect
to the desired locking type (i.e., longitudinal locking rods or a hook/tongue).
[0019] Referring to Fig. 1, the movable member (24) can be used with a spring (25) and is
configured to be spring-loaded with at least one spring (25) to control the movement
of the movable member (24). The spring (25) is kept in an optimum position and the
force of the compressed spring (25) is properly transferred to the handle (30) when
the lock plug (33) is released. Moreover, the movable member (24) can have at least
one vertically arranged upper guiding portion (241) arranged to abut the bearing member
(21). In line with that, the bearing member (21) has a substantially U-shaped cross-section
in which two upper guiding portions (241) are guided, as can be seen in Fig. 5a.
[0020] The present invention advantageously allows the use of more than one different type
of handle (30). The lock plug (33) provided at the handles (30) may also be different.
[0021] Referring to Fig. 3a to 3c, the interchangeable handles (30) have the lock plug (33)
with a lock plug cover (34) for closing or opening a keyhole of the lock plug (33).
For the lock plug (33), after a suitable key is inserted into a keyhole of the lock
plug (33) and then rotated, a spring-biased lock cam (not shown) can retract, and
the handle (30) is released. When the user further lifts the handle (30), the movable
member (13) is moved along the longitudinal axis (X) of the handle lock assembly (10)
causing the pinion gear (26) to be rotated. Fig. 3a and 3c show a first and third
types of lock plugs (33) having a keyhole for inserting a suitable key and a retractable
spring-biased lock cam. Advantageously, the lock plug (33) at the handle (30) may
differ. Figs. 3a and 3c have a similar types of lock plugs (33), and Fig. 3b shows
a push-to-open lock plug (33).
[0022] The numbers and the shapes of the teeth can vary with respect to the geared portions
(32) and the pinion gear (26). The handle lock assembly (10) presented within the
scope of the present invention can be used on cabinets, boxes, or panel doors. The
handle housing (28) is specifically arranged to receive the handle (30) such that
the handle (30) and main body (20) form a single unit when the handle (30) is in the
closed position.
[0023] The handle lock assembly (10) comprises a base plate (40) attached to the main body
(20) for forming the bottom of the handle lock assembly (10) and has a plurality of
fastening holes (42) for receiving fastening members (41) to attach the base plate
(40) to the main body (20). Moreover, the handle (30) and the handle housing (28)
are arranged such that when the handle (30) is in the locked position, the upper surfaces
of the handle (30) and the main body (20) are at the same level. A closing or opening
of the handle lock assembly (10) takes place if the handle (30) is swung up and the
pinion gear (26) is correspondingly adjusted. The handle lock assembly (10) presented
within the scope of the present invention can be used on cabinets, boxes, or panel
doors.
1. A handle lock assembly (10) for a door of a cabinet, the handle lock assembly (10)
comprising:
a main body (20) having a handle housing (28) extending along a longitudinal axis
(X) of the handle lock assembly (10);
a handle (30) adapted to move between an unlocked position in which the handle (30)
is lifted from the handle housing (28) and a locked position in which the handle (30)
is substantially within the handle housing (28); and
a lock plug (33) provided at the handle (30);
characterized in that said handle lock assembly (10) further comprises:
at least one geared portion (32) formed on the handle (30), being rotatable within
the main body (20) when the handle (30) is lifted;
a movable member (24) having at least one toothed portion (242) for rotating a pinion
gear (26) by the movement of the movable member (24);
a plurality of the engagement holes (243) formed in the movable member (24) meshing
with corresponding teeth (322) of the geared portion (32) so as to convert a rotational
movement from the handle (30) to a linear movement;
a movable bearing member (21) placed within the handle housing (28);
at least one pin receiving portion (22) formed on the bearing member (21); and
at least one pin (31) formed on the handle (30), attachable to the pin receiving portion
(22) when placing an interchangeable handle (30).
2. The handle lock assembly (10) according to claim 1, wherein the bearing member (21)
has at least one adjustment member (23) arranged in an adjustment member housing (29)
of the bearing member (21).
3. The handle lock assembly (10) according to claim 2, wherein one end of the adjustment
member (232) is rotatably attached to the main body (20) by passing through the bearing
member (21).
4. The handle lock assembly (10) according to claim 2 or 3, wherein the adjustment member
(23) is an eccentric pin.
5. The handle lock assembly (10) according to claim 4, wherein an off-axis upper part
(231) of the adjustment member (23) is housed in the bearing member (21) and when
rotated by the user, the bearing member (21) is arranged to move linearly within the
handle housing (28).
6. The handle lock assembly (10) according to claim 5, wherein the adjustment member
(23) is rotatable between a first position in which the bearing member (21) is retracted
and a second position in which the bearing member (21) is at least partly moved under
an upper covering portion (281) of the handle housing (28).
7. The handle lock assembly (10) according to any one of the preceding claims, wherein
the bearing member (21) has two similar oppositely oriented pin receiving portions
(22) for receiving corresponding pins (31) of the handle (30).
8. The handle lock assembly (10) according to claim 7, wherein the two pins (31) are
oppositely arranged at the planar lateral surfaces (321) of the geared portion (32)
of the handle (30) for engaging with the corresponding pin receiving portions (22).
9. The handle lock assembly (10) according to claim 8, wherein the pins (31) have a circular
cross-section and the pin receiving portions (22) are shaped and dimensioned with
respect to corresponding pins (31).
10. The handle lock assembly (10) according to any one of the preceding claims, wherein
the handle lock assembly (10) comprises a base plate (40) attached to the main body
(20) for forming the bottom of the handle lock assembly (10).
11. The handle lock assembly (10) according to any one of the preceding claims, wherein
the movable member (24) has at least one vertically arranged upper guiding portion
(241) arranged to abut the bearing member (21).
12. The handle lock assembly (10) according to claim 11, wherein the bearing member (21)
has a substantially U-shaped cross-section in which two upper guiding portions (241)
are guided.
13. The handle lock assembly (10) according to any one of the preceding claims, wherein
the interchangeable handle (30) has a lock plug (33) with a lock plug cover (34) for
closing or opening a keyhole of a lock plug (33).
14. The handle lock assembly (10) according to any one of the preceding claims, wherein
the handle (30) and the handle housing (28) are arranged such that when the handle
(30) is in the locked position, the upper surfaces of the handle (30) and the main
body (20) are at the same level.
15. The handle lock assembly (10) according to any one of the preceding claims, wherein
the pinion gear (26) is arranged to rotate within the movable member (24) by the toothed
portion (242) having engaging teeth wherein the pinion gear (26) is connected with
a transmission bar (50) that rotates with the pinion gear (26) to lock or unlock the
door in which the handle lock assembly (10) is located.