Technical Field of the Invention
[0001] The present invention relates to a hardware lockset, in particular to an anti-theft
lockset for a pin tumbler lock.
Background of the Invention
[0002] There are various kinds of locksets which are diverse in structure, of course, among
which there are locksets having excellent anti-theft performance. However, most of
locksets, as they have less anti-theft orientations due to their simple structure,
may be unlocked in a very short time. This is so-called technical unlocking. Burglaries
thus happen, and people's property and security are threatened. Undoubtedly, there
are always some "forward-looking" merchants who conduct research on a lockset having
excellent anti-theft performance to develop some tools or instruments against the
anti-theft performance. Given the increasingly developed internet today, criminals
can always buy some tools against the anti-theft performance, and thus can easily
technically unlock some anti-theft facilities such as anti-theft doors, anti-theft
locks, etc.
Summary of the Invention
[0003] An objective of the present invention is to provide a lockset having excellent anti-theft
performance, to solve the problems in the prior art.
[0004] For this purpose, the present invention employs the following technical solutions:
an anti-theft lockset is provided, including a key, a lock cylinder and a lock shell,
a first pin tumbler hole and a second pin tumbler hole being provided in the front
part of the lock shell, a third pin tumbler hole and a fourth pin tumbler hole corresponding
to the first pin tumbler hole and the second pin tumbler hole on the lock shell being
provided in the front part of the lock cylinder, a fifth pin tumbler hole being provided
in the rear part of the lock shell, a sixth pin tumbler hole corresponding to the
fifth pin tumbler hole being provided in the rear part of the lock cylinder, a corresponding
pin tumbler being provided in each of the pin tumbler holes, the key being matched
with the lock cylinder, characterized in that the key includes a key handle, a connecting
portion and a key head, the key head being mounted on the connecting portion, the
connecting portion being connected to the key handle; columns are provided around
a hole, into which the key head is to be mounted, on the connecting portion; a long
hole is formed on the key head; sliders corresponding to the columns are provided
in the lock cylinder, and a conical chute or bulge fitted with the pin tumbler in
the fourth pin tumbler hole is provided on the slider; the pin tumbler in the third
pin tumbler hole is matched with biting on the key head; a slide bar is provided in
the lock cylinder, with a plurality of flanges different in the outer diameter being
provided on the slide bar; the pin tumbler in the sixth pin tumbler hole is resisted
against the outer circumferential walls of the flanges; the slide bar can extend into
the long hole of the key head; and springs are provided at ends of both the slider
and the slide bar.
[0005] The connecting portion and the key handle form an integrated structure. A slope is
provided between the flanges different in the outer diameter.
[0006] The columns around the hole on the connecting portion are different in height.
[0007] In the present invention, not only the biting on the key head is matched with the
pin tumblers in the pin tumbler holes, but also the conical chute on the slider is
matched with the pin tumblers in the pin tumbler holes, and even the step-like flanges
on the slide bar are matched with the pin tumblers in the pin tumbler holes. That
is, there are three anti-theft functions. When in a locked state, after a criminal
inserts an unlocking tool into the lock cylinder and then pushes the slide bar, the
step-like flanges on the slide bar are pushed immediately. As a result, the pin tumblers
and the matched flanges among those flanges are completely misaligned, and it is thus
less able to accomplish unlocking. In this way, the possibility of technical unlocking
is eliminated. Hence, the present invention has a scientific and reasonable structure
and excellent anti-theft performance.
Brief Description of the Drawings
[0008] Details of the preset invention will be further described below with reference to
the accompanying drawings, in which:
Fig. 1 is an exploded view of an overall structure of the present invention;
Fig. 2 is a structural diagram of a key according to the present invention;
Fig. 3 is a structural diagram according to the present invention, when each of pin
tumblers is matched with a key, a slider and a slide bar;
Fig. 4 is a structural diagram of a slide bar according to the present invention;
Fig. 5 is a locked state diagram according to the present invention;
Fig. 6 is a locked state diagram according to the present invention;
Fig. 7 is a locked state diagram according to a second embodiment of the present invention;
Fig. 8 is a locked state diagram according to the second embodiment of the present
invention; and
Fig. 9 is a structural diagram of a slider according to the second embodiment of the
present invention.
Detailed Description of the Invention
[0009] With reference to Fig. 1 to Fig. 5, such an anti-theft lockset includes a key, lock
cylinder 12 and a lock shell 20, first pin tumbler hole 18 and a second pin tumbler
hole 19 being provided in the front part of the lock shell 20, a third pin tumbler
hole 11 and a fourth pin tumbler hole 10 corresponding to the first pin tumbler hole
18 and the second pin tumbler hole 19 on the lock shell 20 being provided in the front
part of the lock cylinder 12, a fifth pin tumbler hole 21 being provided in the rear
part of the lock shell 20, and a sixth pin tumbler hole 13 corresponding to the fifth
pin tumbler hole 21 being provided in the rear part of the lock cylinder 12. The "front
part of the lock shell 20" herein refers to an end close to a key insertion hole,
and an end far away from the key insertion hole is the rear part of the lock shell
20. Corresponding pin tumblers 26, 25, 22, 23, 27, and 24 are arranged in the first
pin tumbler hole 18, the second pin tumbler hole 19, the third pin tumbler hole 11,
the fourth pin tumbler hole 10, the fifth pin tumbler hole 21 and the sixth pin tumbler
hole 13, and a small spring is arranged in each of the pin tumbler holes within the
lock shell 20. The key is matched with the lock cylinder 20. The pin tumblers assembled
in the lock cylinder are all conical, and the lock shell 20 is mounted within a lock
sleeve 6. Those are well known and will not be repeated herein. The key includes a
key handle 1, a connecting portion 2 and a key head 4, the key head 4 being mounted
on the connecting portion 2, the connecting portion 2 and the key handle 1 being connected
to form an integrated structure. Five columns 3 different in height are uniformly
distributed around a hole, into which the key head 4 is to be mounted, on the connecting
portion 2. A long hole 28 is formed on the key head 4. Five sliders 7 corresponding
to the columns 3 are arranged in the lock cylinder 12. As the height of the columns
3 may be designed arbitrarily, the length of the slider 7 corresponding thereto is
different. Locksets manufactured in this way have various variations, and this avoids
opening various locks with a same key. It is thus clear that, as there are many variations
of height of the columns 3, the possibility of opening various locks with a same key
is extremely low. A conical chute 8 fitted with the pin tumbler 23 in the fourth pin
tumbler hole 10 is arranged on the slider 7. The pin tumbler 22 in the third pin tumbler
hole 11 is fitted with the biting 5 on the key head 4. The slide bar 14 is arranged
in the lock cylinder 12, with a plurality of flanges 15 different in the outer diameter
being provided on the slide bar 14, and the outer diameter of the flanges 15 is gradually
increased. The pin tumbler 24 in the sixth pin tumbler hole 13 is resisted against
the outer circumferential wall of each of the flanges, and a slope 29 is arranged
between adjacent flanges for transition, so that the pin tumbler 24 can easily move
among the flanges 15. The slide bar 14 can be inserted into the long hole 28 of the
key head 4. Springs 9 and 17 are arranged at ends of both the slider 7 and the slide
bar 14, respectively. In the present invention, a deep hole 16, into which the spring
17 at an end of the slide bar 14 is partially placed, is formed on the slide bar 14.
In this way, the stable elasticity of the spring 17 is maintained. The second embodiment
of the present invention is to replace the conical chute 8 on the slider 7 with a
bulge 30 structure, referring to Fig. 7 to Fig. 9. Of course, there is a conical surface
31 provided for transition between the location of the bulge 30 and the main body
of the slider 7, and this facilitates the movement of the pin tumbler 24 from the
main body of the slider 7 onto the bulge 29. The remaining structures are all the
same.
Working principle:
[0010] During unlocking, the key is inserted into the lock cylinder 12, and the biting 5
on the key head 4 is matched with the pin tumbler 22 in the third pin tumbler hole
11 on the lock cylinder 12. Meanwhile, after the key is inserted, the columns 3 on
the connecting portion 2 push the corresponding slider 7 in the lock cylinder 12,
and after the slider 7 moves, the pin tumbler 23 in the fourth pin tumbler hole 10
on the lock cylinder 12 exactly slides into the conical chute 8 of the slider 7, or
exactly moves to the top of the bulge 29 of the slider 7. After the key is pushed
inward, the slide bar 14 will be inserted into the long hole 28 on the key head 4.
When the key is pushed to the proper position, the slide bar 14 will move, so that
the pin tumbler 24 in the sixth pin tumbler hole 13 falls onto the corresponding flanges
15 different in the outer diameter. At this moment, the pin tumblers in the third
pin tumbler hole 11, the fourth pin tumbler hole 10 and the sixth pin tumbler hole
13 on the lock cylinder 12 are exactly flushed with the outer circumferential surface
of the lock cylinder 12; meanwhile, the pin tumblers in the first pin tumbler hole
18, the second pin tumbler hole 19 and the fifth pin tumbler 21 in the lock shell
20 are exactly flushed with the inner circumferential surface of the lock shell 20.
In this case, when the key is rotated, the lock cylinder 12 may be rotated and unlocking
is realized.
[0011] When the key is pulled out, the key head 4 is pulled out too. The pin tumbler 22
in the third pin tumbler hole 11 moves upward along with the biting 5 on the key head
4, so that the pin tumbler 22 in the third pin tumbler hole 11 partially comes into
the first pin tumbler hole 18. The spring 9 at an end of the slider 7 drives the slider
7 to move, so that the pin tumbler 23 in the fourth pin tumbler hole 10 moves out
from the conical chute 8 or the pin tumbler 23 in the fourth pin tumbler hole 10 moves
down from the top of the bulge 29. In this step, after moving out from the conical
chute 8, the pin tumbler 23 also partially comes into the second pin tumbler hole
19, and after the pin tumbler 23 slides down from the top of the bulge 29, the pin
tumbler 25 in the second pin tumbler hole 19 partially comes into the fourth pin tumbler
hole 10. Meanwhile, the slide bar 14 is pushed by the spring 17 at an end of the slide
bar 14, so that the position of each of the flanges 15 changes. The pin tumbler 24
in the sixth pin tumbler hole 13 moves among the flanges 15, so that the pin tumbler
24 in the sixth pin tumbler hole 13 partially comes into the fifth pin tumbler hole
21 within the lock shell 20, or the pin tumbler 27 in the fifth pin tumbler hole 21
partially comes into the sixth pin tumbler hole 13. From above, it can be seen that,
when the key is pulled out, the positions of the pin tumblers in the pin tumbler holes
shift and the lock cylinder 12 and the lock shell 20 are thus joined together. That
is, the lock cylinder 12 is snapped with the lock shell 20. In this way, locking is
realized.
[0012] In the present invention, when in locked state, the slide bar 14 in the lock cylinder
12 may be moved by an external object. The slide bar 14 moves immediately when the
external object comes into contact with the slide bar 14. After the slide bar 14 moves,
the flanges 15 different in the outer diameter move correspondingly. After the flanges
15 moves, the position of the pin tumbler 24 in the sixth pin tumbler hole 14 changes
correspondingly. Only when the slide bar 14 moves to the accurate position, the pin
tumblers 24 in the sixth pin tumbler hole 13 will be flushed with the outer circumferential
surface of the lock cylinder 12. When the slide bar 14 is moved by an external object,
it is difficult to apply a force exactly the same as that of inserting a key as the
position of the flanges 15 is unknown. Hence, it is very difficult to move the pin
tumbler to the unlocked state and thus difficult to perform technical unlocking.
1. An anti-theft lockset, comprising a key, a lock cylinder and a lock shell, a first
pin tumbler hole and a second pin tumbler hole being provided in the front part of
the lock shell, a third pin tumbler hole and a fourth pin tumbler hole corresponding
to the first pin tumbler hole and the second pin tumbler hole on the lock shell being
provided in the front part of the lock cylinder, a fifth pin tumbler hole being provided
in the rear part of the lock shell, a sixth pin tumbler hole corresponding to the
fifth pin tumbler hole being provided in the rear part of the lock cylinder, a corresponding
pin tumbler being provided in each of the pin tumbler holes, the key being matched
with the lock cylinder, characterized in that the key comprises a key handle, a connecting portion and a key head, the key head
being mounted on the connecting portion, the connecting portion being connected to
the key handle; columns are provided around a hole, into which the key head is to
be mounted, on the connecting portion; a long hole is formed on the key head; sliders
corresponding to the columns are provided in the lock cylinder, and a conical chute
or bulge fitted with the pin tumbler in the fourth pin tumbler hole is provided on
the slider; the pin tumbler in the third pin tumbler hole is matched with biting on
the key head; a slide bar is provided in the lock cylinder, with a plurality of flanges
different in the outer diameter being provided on the slide bar; the pin tumbler in
the sixth pin tumbler hole is resisted against the outer circumferential walls of
the flanges; the slide bar can extend into the long hole of the key head; and springs
are provided at ends of both the slider and the slide bar.
2. The anti-theft lockset according to claim 1, characterized in that the connecting portion and the key handle form an integrated structure.
3. The anti-theft lockset according to claim 1, characterized in that a slope is provided between the flanges different in the outer diameter.
4. The anti-theft lockset according to claim 1, characterized in that the columns around the hole on the connecting portion are different in height.