OBJECT OF THE INVENTION
[0001] The object of the present invention refers to a safety toe guard for lifts the configuration
and design of which improve its manoeuvrability and use.
[0002] It is particularly applicable in the lift industry area.
TECHNICAL PROBLEM TO BE SOLVED AND BACKGROUND OF THE INVENTION
[0003] Currently, lift regulations require, to prevent falls of users into the lift shaft
when it is stopped anomalously between floors: breakdown, power cut, etc., that a
vertical safety toe guard is installed across the entire width of the cabin base to
prevent said falls into the shaft.
[0004] For this reason, this metal vertical safety toe guard, fixed to the cabin base has
by Regulations a minimum vertical height of 750 mm, and sufficient rigidity to withstand
horizontal forces from 300 N on any point on its surface.
[0005] To make this safety toe guard compatible with the lift operation, the height of the
lift shaft must be such that when the lift cabin is at its lowest level and with its
buffers compressed, the bottom edge of the vertical toe guard is at an obligatory
distance from the floor of the lift pit and, above all, does not collide with it in
order not to be damaged.
[0006] In lifts installed in new buildings, the pit height, among other things, is designed
to be compatible with the vertical height of the safety toe guard. However, in existing
buildings is often impossible to obtain this necessary height, so it is necessary
to use retractable articulated toe guards so that the height when the safety toe guard
is in folded position (standby), is compatible with the pit height and that, when
the cabin is stopped outside the floor level and there is a need to rescue people
shut inside the lift cabin, a rescue protocol is activated that starts by unlocking
and unfolding the safety toe guard in its vertical position so that the minimum vertical
safety height of 750 mm is operative.
[0007] The safety toe guard object of the invention has a configuration and design that
clearly minimises, with respect to currently known systems, the minimum pit height
necessary for this element and that also offers a very simple adaptation to any cabin
on the market. Additionally, it simplifies currently known mechanisms, resulting in
reducing costs and that at the same time makes it easier for the operator to use.
DESCRIPTION OF THE INVENTION.
[0008] The present invention refers to a safety toe guard for lifts that prevents people
from falling into the lift shaft when it is immobilised between two floors.
[0009] To do so, the safety toe guard comprises at least: a fixing surface attached at one
end to the base of the lift cabin, and at the other end to a bridge structure, wherein
said bridge structure is located perpendicular to said fixing surface remaining under
the base of the lift cabin; an initial section and a final section, joined together
by guiding means, to be able to move between each other; the initial section is linked
to the bridge structure by at least one hinged bracket, preferably two hinged brackets,
where one of the ends of the hinged brackets is fixed to the bridge structure and
the other end to the initial section, with said brackets allowing the folding/unfolding,
with an angular rotation of 90°, of the sections with respect to the bridge structure.
[0010] It has been foreseen that the safety toe guard comprises two positions: a folded
position, in which the sections, through retaining means, are gathered in a horizontal
position, wrapped around the bridge structure and laid out parallel to the base of
the lift cabin; and an unfolded position in which the sections are fully extended
and in a vertical position with regard to the floor of the lift cabin.
[0011] In a preferred embodiment of the invention, the retaining means are a latch, located
on the bridge structure, and a support located in the initial section, wherein said
support comprises a hole in which said latch is inserted. However, said retaining
means may be of any other type.
[0012] Moreover, the safety toe guard comprises a cable transmission system operated from
a lock with obligatory triangular key, accessible from the outside of the fixing surface
to unlock the retaining means that keep the sections in the horizontal folded position
and enable the unfolding of the sections to the vertical unfolded position. The locking
of latch in the support is done automatically by an elastic snap.
[0013] The initial and final sections comprise side walls, so that the guiding means of
the initial section comprise telescopic guides located on the outside of the side
walls, while the final section comprises supplementary telescopic guides located on
the inside of the side walls, to move telescopically between each other.
[0014] The hinged brackets include:
- a first plate, articulated at one end to the bridge structure, and at the other end
to a second plate via a common connecting shaft,
- the second plate, is articulated at one end to the first section, and by the other
end to the first plate by said common connecting shaft, and
- a third plate which comprises an angled slot, hinged at one end to a corner of at
least one hinged bracket, and at the other end to the common connecting shaft with
the first and the second plate,
- wherein the common connecting shaft moves through the angled slot.
[0015] The hinged brackets have two positions of use:
- a locking position, automatic, in which the first plate and the second plate are fully
aligned with one another, wherein the common connecting shaft is fitted in an elbow
of the angled slot, so that, in this position, the hinged bracket folding cannot be
folded, and
- an unlocking position, manual, in which the first plate and the second plate are not
aligned with each other, where the common connecting shaft is now not fitted into
the elbow of the angled slot, so that, in this position, the hinged bracket can be
folded.
[0016] According to another possible particular embodiment of the hinged bracket, said hinged
bracket comprises the first plate and the second plate joined by the common connecting
shaft, wherein said first plate comprises a tab, as a stop, to fix the first plate
and the second plate when they are fully aligned between each other.
[0017] Once the sections have been unfolded and are vertical (perpendicular with regard
to the floor of the lift cabin base), the locking position allows said sections to
be in vertical fixed position, even applying a horizontal force of 300 N at any point
of the surface, so ensuring the preventing people from falling into the shaft.
[0018] Additionally, in the case of needing to reduce the height of the initial section
and the final section due to space problems for coupling the safety toe guard under
the base of the cabin, the possibility of incorporating at least one intermediate
section between the initial and final sections exists for the unfolded safety toe
guard to reach the minimum height required by Regulations. At least one intermediate
section comprises side walls with telescopic slides, with said telescopic guides located
on the inside and the outside of said side walls, to be located and telescopically
move between the initial section and the final section.
[0019] The final section comprises a chamfered end, as established by the Regulations, which
helps the operator to accompany the fall of the sections by hand.
[0020] The fact that the final section and the intermediate section are arranged in front
of the initial section allows them to be controlled and manipulated directly from
the lift landing.
BRIEF DESCRIPTION OF THE FIGURES
[0021] To complete the description and in order to help to get a better understanding of
the characteristics of the invention, this descriptive report is accompanied by, as
an integral part thereof, a set of drawings where in an illustrative and not restrictive
manner, the following has been represented:
Figure 1 shows the safety toe guard for the lift in unfolded and operating position,
i.e., with the sections fully extended and in vertical position with regard to the
floor of the lift cabin.
Figure 2a shows the safety toe guard for the lift in folded and non-operating position,
i.e., with the sections gathered in horizontal position, laid out parallel to the
base of the lift cabin.
Figure 2b shows the safety toe guard for the lift in partially unfolded position.
Figure 2c shows the safety toe guard for the lift in operating position, fully unfolded
and vertical with respect to the floor of the lift cabin.
[0022] A list of the various elements represented in the figures that integrate the invention
is provided below:
- 1. Safety toe guard.
- 2. Fixing surface to the base of the lift cabin.
- 3. Bridge structure.
- 4. Initial Section.
- 5. Final section.
- 6. Retractable latch.
- 7. Hinged brackets.
- 8. Telescopic guides.
- 9. Lock with obligatory triangular key.
- 10. Side walls of the sections.
- 11. Intermediate section.
- 12. Chamfered end.
- 13. Support for the latch.
- 14. Hole of the support.
- 15. First plate.
- 16. Second plate.
- 17. Third plate.
- 18. Angled slot.
- 19. Common connecting shaft.
DETAILED DESCRIPTION
[0023] The safety toe guard (1) for lifts object of the invention has a configuration and
design that allow improving its manoeuvrability and therefore its use compared to
currently existing ones, in addition to lowering costs in its manufacturing. It also
allows the space occupied by said safety toe guard (1) in the standby position, i.e.,
folded, to be reduced to the maximum, so allowing smaller pit heights and easy attachment
to any cabin in the market.
[0024] The safety toe guard (1) prevents people falling down the lift shaft when it is immobilised
between two floors. This can happen when the occupants of the lift have to be evacuated
due to a malfunction of it.
[0025] Said safety toe guard (1) is positioned vertically at the bottom of the lift cabin,
more specifically under the cabin door, from the floor of the cabin downwards. The
width of the safety toe guard (1) is similar to that of the cabin door and the vertical
length after unfolding this safety toe guard (1) has to be at least the length required
by regulations.
[0026] The safety toe guard (1) for lifts comprises at least:
- one fixing surface (2) joined at one end to the base of the lift cabin, and at the
other end to a bridge structure (3), wherein said bridge structure (3) is located
perpendicular to said fixing surface (2) which is under the base of the lift cabin,
- an initial section (4) and a final section (5) joined together by guiding means, wherein
both sections (4, 5) comprise side walls (10), so that the guiding means of the initial
section (4) comprise telescopic guides (8) located on the outside of the side walls
(10), while the final section (5) comprises supplementary telescopic guides (8) located
on the inside of the side walls (10), to move telescopically between each other,
- the initial section (4) is joined to the bridge structure (3) by means of two hinged
brackets (7), wherein one end of the hinged brackets (7) is fixed to the bridge structure
(3) and the other end to the initial section (4), allowing said hinged brackets (7)
to fold/unfold, with an angular rotation of 90°, of sections (4, 5) with respect to
the bridge structure (3),
wherein the safety toe guard (1) for lifts comprises two positions:
- a folded, non-operating position, occupying very little space, in which the sections
(4, 5), through retaining means, are gathered in a horizontal position, wrapped around
the bridge structure (3) and arranged parallel to the base of the lift cabin, and
- an unfolded and operating position, in which the sections (4, 5) are fully extended
and in vertical position with regard to the floor of the lift cabin.
[0027] As can be seen in the figures, the guiding means mentioned are preferably telescopic
guides (8). However, the guiding means may be of any other type.
[0028] Each hinged bracket (7) comprises:
- a first plate (15), articulated at one end to the bridge structure (3), and at the
other end to a second plate (16) through a common connecting shaft (19),
- the second plate (16), articulated at one end to the initial section (4) and at the
other end to the first plate (15) through said common connecting shaft (19), and
- a third plate (17), that comprises an angled slot (18), articulated at one end to
the corner of the hinged brackets (7) and by the other end to the common connecting
shaft (19) with the first plate (15) and the second plate (16), wherein the common
connecting shaft (19) moves through the angled slot (18). The hinged brackets (7)
have two positions of use:
- a locking position, automatic, in which the first plate (15) and the second plate
(16) are fully aligned with one another, wherein the common connecting shaft (19)
is fitted in the elbow of the angled slot (18), so that, in this position, the hinged
bracket (7) cannot be folded, and
- an unlocking position, manual, in which the first plate (15) and the second plate
(16) are not aligned with each other, where the common connecting shaft (19) and is
not now fitted in the elbow of the angled slot (18), so that, in this position, the
hinged bracket (7) can be folded.
[0029] According to another possible particular embodiment of the hinged bracket (7), said
hinged bracket (7) comprises the first plate (15) and the second plate (16) joined
by the common connecting shaft (19), wherein said first plate (15) comprises a tab,
as a stop for fixing the first plate (15) and the second plate (16) when they are
fully aligned between each other.
[0030] When the sections are unfolded and left in vertical position (perpendicular with
respect to the floor of the base of the lift cabin), the locking position allows said
sections to remain in fixed position and even applying a force of 300 N, the sections
continue to be vertical, ensuring preventing people from falling into the shaft.
[0031] Additionally, the safety toe guard (1) comprises a cable transmission system operated
from a lock with obligatory triangular key (9), where the operator, through said lock
with obligatory triangular key (9) accessible from the outside of the fixing surface
(2) unlocks the retaining means, so allowing the safety toe guard (1) to go from its
folded and non-operating horizontal position (standby) to the fully unfolded and operative
position. Said retaining means are, preferably a latch (6), located on the bridge
structure (3), and a support (13), located in the initial section (4), where said
support (13) comprises a hole (14) where said latch (6) is introduced.
[0032] For the lift to work normally, obviously, the safety toe guard (1) should be in the
folded position, and for this the latch (6) must be locked in the hole (14) of the
support (13) so that the sections are maintained together with the bridge structure
(3) in the folded and horizontal position.
[0033] However, when the lift stops between floors and people have to be rescued from the
cabin, the operator must change the position of the safety toe guard (1) to the unfolded
position. To do this, the operator is responsible for unlocking the latch (6) of the
support (14) by rotating the lock with obligatory triangular key (9). Logically, when
the latch (6) of the support (14) is unlocked, thanks to the hinged brackets (7),
the sections are unfolded, and arranged in a vertical position. Then the operator
helps the telescopic movement of the sections, and the sections become locked in that
vertical position, due to the locking position of the hinged brackets (7).
[0034] After the rescue operation is over, the operator has to leave the safety toe guard
(1) in the folded position for the lift to be able to work again in normal operation.
The change of position from unfolded to folded (gathering of sections) must be cabin
ried out from the lift pit, as indicated by current regulations, for which the hinged
brackets (7) are manually unlocked, until they are gathered and horizontal, parallel
to the floor of the lift cabin. Again, thanks to the locking of the latch (6) in the
support (13), the safety toe guard (1) will remain in the folded position.
[0035] The joints between the fixing surface (2) to the base of the lift cabin, and the
bridge structure (3), or the joints of the hinged brackets (7) to the bridge structure
(3) and to the initial section (4) are made in a conventional manner, such as screws,
etc.
[0036] In a preferred embodiment, the safety toe guard (1) for lifts comprises an initial
section (4) and a final section (5). However, in the case of having to reduce the
height of the initial section (4) and of the final section (5) due to problems of
space for connecting the safety toe guard (1) under the lift cabin base, the possibility
exists for incorporating at least one intermediate section (11), between the initial
(4) and final (5) sections, so that the unfolded safety toe guard (1) obtains the
minimum height required.
[0037] As can be seen in the figures, the final section (5) comprises a chamfered end (12)
as established by the Regulations, which helps the operator when accompanying the
fall of the section by hand.
[0038] At least one intermediate section (11), which also comprises a side wall (10) comprises
telescopic guides (8) located on the inside and the outside of said side wall (10)
to be able to move telescopically between the initial section (4) and the final section
(5).
[0039] As can be seen in Figure 2c, the width of the sections increases progressively from
the initial section (4) to the final section (5), which is because the telescopic
guides (8) are located on the outside of the side walls (10) of the initial section
(4). Additionally, the operator can accompany the fall of the sections by hand, and
thus manually control the positioning of the sections and therefore using stops and/or
buffers to prevent possible noises and knocks as in current systems is not necessary
. The telescopic guides (8) are responsible for abutting and limiting the spreading
out of the safety toe guard (1).
[0040] In current systems, the sections are very heavy or are not accessible and therefore
the falling movement of the safety toe guard (1) cannot be controlled, and the use
of auxiliary devices is necessary (buffers, pulleys, etc.), which prevent an excessive
knocking when the safety toe guard (1) is unfolded.
[0041] The fact that the end section (5) and the intermediate section (11) are arranged
ahead of the opening section (4) allows them to be controlled and manipulated directly
from the lift landing.
[0042] The present invention should not be limited to the embodiment described herein. Other
configurations may be made by experts in this field in light of the present description.
Accordingly, the scope of the invention is defined by the following claims.
1. A safety toe guard (1) for lifts that prevents people from falling into the shaft
of a lift
characterised in that it comprises at least:
- one fixing surface (2) joined at one end to the base of the lift cabin, and at the
other end to a bridge structure (3), wherein said bridge structure (3) is located
perpendicular to said fixing surface(2) remaining under the base of the lift cabin,
- an initial section (4) and a final section (5) joined together by guiding means,
to be able to move between each other,
- the initial section (4) is joined to the bridge structure (3) by at least one hinged
bracket (7), wherein one of the ends of the at least one hinged bracket (7) is fixed
to the bridge structure (3) and the other end to the initial section (4), allowing
said at least one hinged bracket (7) to fold/unfold the sections (4, 5) with regard
to the bridge structure (3),
wherein the safety toe guard (1) for lifts comprises two positions:
- a folded position, in which sections (4,5), through retaining means, are gathered
in a horizontal position, wrapped around the bridge structure (3) and parallel to
the base of the lift cabin arranged, and
- an unfolded position, in which sections (4, 5) are fully extended and vertical with
regard to the floor of the lift cabin.
2. The safety toe guard (1) for lifts according to claim 1, characterised in that the sections (4, 5) comprise side walls (10), so that the guiding means of the initial
section (4) comprise telescopic guides (8) situated on the outside of the side walls
(10), while the final section (5) comprises the complementary telescopic guides (8)
situated on the inside of the side walls (10), so that they can telescopically move
between each other.
3. The safety toe guard (1) for lifts according to claim 1, characterised in that it comprises a cable transmission system activated from a lock with obligatory triangular
key (9) accessible from the outside of the fixing surface (2) to unlock the retention
means, changing from the folded to the unfolded position.
4. The safety toe guard (1) for lifts according to claim 3, characterised in that the retaining means is a latch (6) located on the bridge structure (3), and a support
(13), located on the initial section, where said support (13) comprises a hole (14)
in which said latch is entered (6).
5. The safety toe guard (1) for lifts according to claim 1,
characterised in that the at least one hinged bracket (7) comprises:
- a first plate (15), articulated at one end to the bridge structure (3), and at the
other end to a second plate (16) through a common connecting shaft (19),
- the second plate (16) is hinged at one end to the initial section (4) and at the
other end to the first plate (15) via said common connecting shaft (19), and
- a third plate (17) comprising an angled slot (18), hinged at one end to a corner
of the at least one hinged bracket (7) and by the other end to the common connecting
shaft (19) with the first plate (15) and the second plate (16), where the common connecting
shaft (19) moves through the angled slot (18).
6. The safety toe guard (1) for lifts according to claim 5,
characterised in that the at least one hinged bracket (7) has:
- a locking position, in which the first plate (15) and the second plate (16) are
fully aligned with one another, where the common connecting shaft (19) is fitted into
an elbow of the angled slot (18), so that, in this position, the hinged bracket (7)
cannot be folded, and
- an unlocking position in which the first plate (15) and the second plate (16) are
not aligned with each other, where the common connecting shaft (19) is disengaged
from the elbow of the angled slot (18), so, in this unlocked position, the hinged
bracket (7) folds.
7. The safety toe guard (1) for lifts according to claim 1, characterised in that the at least one hinged bracket (7) comprises a first plate (15) joined by a common
connecting shaft (19) to a second plate (16), where said first plate (15) comprises
a tab, as a stop, to fix the first plate (15) and the second plate (16) when they
are fully aligned together.
8. Safety toe guard (1) for lifts according to claim 5 or 7, characterised in that once the sections (4,5) have been unfolded and are in the vertical position, the
locking position maintains said sections (4,5) in a fixed position withstanding forces
up to 300 N, preventing people from falling.
9. Safety toe guard (1) for lifts according to any of the previous claims, characterised in that it comprises two hinged brackets (7).
10. Safety toe guard (1) for lifts according to any one of the preceding claims, characterised in that it comprises at least one intermediate section (11) that comprises side walls (10)
with telescopic guides (8), with said telescopic guides (8) located inside and outside
said side walls (10) to be located and move telescopically between the initial section
(4) and the final section (5).
11. Safety toe guard (1) for lifts according to claim 10, characterised in that the end section (5) and the intermediate section (11) are located in front of the
initial section (4) to be controlled and handled from a lift landing.