FIELD OF THE INVENTION
[0001] The present invention relates to a barrier panel for a temporary edge protection
system, and to a temporary edge protection system comprising such a barrier panel.
BACKGROUND OF THE INVENTION
[0002] When raising or maintaining a building temporary edge protection systems are used
to safeguard the workers. Typically the temporary edge protection system comprises
several post arrangements, which are fastened at a floor, a wall, a beam, or the like,
of the building, and several barrier panels carried by the post arrangements. At some
buildings only widely spaced columns are available for fastening the post arrangements.
To bridge the distance between two columns at least two barrier panels need to be
interconnected with no post support at the interconnection position. Since typically
the temporary edge protection system is to be mounted at a high height, a sky lift
or the like has to be used for parts of the mounting operation. With the current temporary
edge protection systems this is a rather complicated and time consuming operation,
requiring the sky lift to be moved several times back and forth between the columns
and the interconnection position.
SUMMARY OF THE INVENTION
[0003] It would be advantageous to provide a solution which facilitates the mounting of
the temporary edge protection system in the situation described above.
[0004] To better address this concern, in a first aspect of the invention there is presented
a barrier panel for a temporary edge protection system, wherein the barrier panel
is arranged for quick-coupling with another barrier panel. The barrier panel comprises
a horizontal lower frame element having opposite first and second ends, wherein the
lower frame element comprises a male connector at the first end thereof and a female
connector at the second end thereof. The male and female connectors are arranged to
be quick coupled to respective female and male connectors of other barrier panels
by receiving the male connector into the female connector. Further, the barrier panel
comprises a horizontal upper frame element with opposite first and second ends, wherein
the upper frame element comprises a first connection part at the first end thereof,
and a second connection part at the second end thereof. The first and second connection
parts are arranged to be quick coupled with respective second and first connection
parts of other barrier panels. The quick coupling arrangements simplify the mounting
operation when interconnecting two barrier panels.
[0005] In accordance with an embodiment of the barrier panel, the male connector comprises
a protrusion, which protrudes horizontally from the first end of the lower frame element,
and wherein the female connector comprises a cavity extending inside of the lower
frame element from the second end towards the first end. Thereby the interconnection
of the female and the male connector is facilitated.
[0006] In accordance with an embodiment of the barrier panel, the female connector comprises
a plastic sleeve, which defines the cavity. This embodiment provides for a lower friction
that for instance metal against metal which is advantageous for connection as well
as disconnection of the barrier panels.
[0007] In accordance with an embodiment of the barrier panel, the female connector comprises
a locking device, which is vertically movable between a locked state where the locking
device, when the female connector is interconnected with a male connector, is engaged
with the male connector, and an unlocked state, where the locking device is disengaged
with the male connector. The locking device improves safety.
[0008] In accordance with an embodiment of the barrier panel, the locking device is spring
biased towards the locked state and arranged for a click-in engagement with the protrusion
of the male connector in conjunction with a quick-coupling operation, and wherein
the male connector comprises a rest portion, upon which a protruding portion of the
locking device can be temporarily rested when the locking device has been moved to
the unlocked state, and thereby held in the unlocked state, to enable uncoupling of
the male and female connectors. Thereby safety as well as simplicity of mounting and
demounting is enhanced.
[0009] In accordance with an embodiment of the barrier panel, the protrusion is generally
V-shaped, with the tip of the V-shape constituting the outer end of the protrusion.
This embodiment is advantageous in that the interconnection of two barrier panels
is facilitated. As an additional feature contributing to the same advantage, the width
of the protrusion can be arranged to decrease from the first end of the lower frame
element towards the tip of the V-shape.
[0010] According to another aspect of the present invention, there is provided a temporary
edge protection system comprising a barrier panel, as described above, and a post
arrangement. The post arrangement comprises a structure attachment, a post device,
adapted to be mounted at the structure attachment at a lower portion of the post device,
and a barrier panel holder, connectable with the post device at an upper portion thereof.
This temporary edge protection system provides the same simplification as the barrier
panel as such.
[0011] In accordance with an embodiment of the temporary edge protection system, the structure
attachment has post holding hooks, wherein the post device comprises, at a lower end
thereof, a beam structure having hook receivers, which are arranged to engage with
the hooks. Thereby it is simple to first mount the structure attachment at a structure,
and then engage the post device with the hooks.
[0012] In accordance with an embodiment of the temporary edge protection system, the beam
structure comprises a locking device for preventing unintentional removal of the beam
structure from the hooks.
[0013] In accordance with an embodiment of the temporary edge protection system, the beam
structure has a horizontal tubular first beam, which comprises one of the hook receivers,
which hook receiver constitutes an end portion of the first beam, at a first end thereof,
which is an open end, wherein the first beam further comprises the locking device,
which comprises a locking pin extending internally of the first beam along the length
thereof, wherein the locking pin is arranged to interact with the hook receiver and
to prevent release of the hook from the hook receiver when the locking device is in
a locked state. In this embodiment the locking device is advantageously simple to
handle.
[0014] In accordance with an embodiment of the temporary edge protection system, the locking
pin is spring biased towards the first end of the first beam, wherein the locking
device further comprises a rotatable catch element, which is connected with the locking
pin at a second end of the first beam, and which is arranged at an outer surface of
the beam structure, wherein the catch element is arranged to be moved between an active
state where it holds the locking pin in a retracted position, in the unlocked state
of the locking device, and an idle state, where the locking device is in the locked
state, wherein the movement between the idle state and the active state involves moving
the catch element away from the first end of the beam and rotating it. Thereby the
demounting of the post arrangement is facilitated.
[0015] In accordance with an embodiment of the temporary edge protection system, the beam
structure comprises a horizontal tubular second beam, which comprises another one
of the hook receivers, which hook receiver constitutes an end portion of the second
beam, at a first end thereof, which is an open end, wherein the second beam is arranged
vertically parallel with the first beam, such that the hook receivers of the first
and second beams are positioned above each other. This embodiment provides for stability
of the system.
[0016] In accordance with an embodiment of the temporary edge protection system, the post
device comprises a vertical post beam, wherein the barrier panel holder is horizontally
movably connected with the vertical post beam. This embodiment has an advantageous
adjustment of the horizontal position of the barrier panel.
[0017] In accordance with an embodiment of the temporary edge protection system, the barrier
panel holder comprises a horizontal holder beam, horizontally movably connected with
the vertical post beam, and a vertical holder beam, which comprises barrier panel
supports, and which is vertically adjustably connected with the horizontal holder
beam. This embodiment provides for an advantageous vertical adjustment of the barrier
panel.
BRIEF DESCRIPTION OF THE DRAWINGS
[0018] The invention will now be described in more detail and with reference to the appended
drawings in which:
Figs. 1 and 2 are schematic perspective views of an embodiment of the temporary edge
protection system according to the present invention;
Fig. 3 is a perspective view of two barrier panels of the embodiment;
Fig. 4 is a side view of a quick coupling of the embodiment;
Figs. 5a-5d and 6 are cross-sectional views of the quick coupling of Fig. 4;
Fig. 7 is a side view of another quick coupling of the embodiment;
Fig. 8 is a perspective view of an upper part of the embodiment;
Fig. 9 is a side view of a lower part of the embodiment; and
Figs. 10a-10b are cross-sectional views of the lower part of Fig. 9.
DESCRIPTION OF EMBODIMENTS
[0019] An embodiment of the temporary edge protection system 1 comprises at least one barrier
panel 2, 3, and at least one post arrangement 4. However, typically the system 1 comprises
several barrier panels 2, 3 as well as several post arrangements 4 in order to enable
the system to provide a safety barrier along one or more sides of a large building.
The temporary edge protection system 1 is arranged to be mounted at a building, and
more particularly at a structure 5, such as a wall, a column, etc., of a building.
[0020] The temporary edge protection system is constructed to facilitate mounting of the
system across large spans. For instance, the barrier panels 2, 3 are provided with
lower and upper quick couplings 6, 7 for coupling the barrier panels 2, 3 together.
More particularly, as best shown in Fig. 3, referring to a first barrier panel 2 of
the shown barrier panels 2, 3, each barrier panel 2 has a frame with lower and upper
frame elements 9, 10, and side frame elements 11, 12. A mesh 8 is typically mounted
within the frame, covering at least a part of the frame area. Referring to a mounted
state, the lower and upper frame elements 9, 10 are horizontal, and the side frame
elements 11, 12 are vertical. This geometrical orientation is used throughout the
application. The lower frame element 9 comprises a male connector 13 at a first end
thereof, and a female connector 14 at a second, opposite end thereof. The male connector
13 of one barrier panel 2, and the female connector 14 of another barrier panel 3
together form the lower quick coupling 6. The upper frame element 10 comprises a first
connection part 15 at a first end thereof, at the same side of the barrier panel 2
as the male connector 13, and a second connection part 16 at a second end thereof,
at the same side of the barrier panel 2 as the female connector 14. Similarly to the
first quick coupling, the first connection part 15 of one barrier panel 2, and the
second connection part 16 of another barrier panel 3, form the upper quick coupling
7. Consequently, the male and female connectors 13, 14 are arranged to be quick coupled
with each other, and so are the first and second connection parts 15, 16 as well.
[0021] Referring now to figs. 4 and 5a-5d, the lower frame element 9 is tubular, and the
male connector 13 comprises a protrusion 17, which protrudes horizontally from the
opening of the first end of the lower frame element 9, and a base portion 18, which
extends a distance into the lower frame element 9 and is attached to the lower frame
element 9. The female connector 14 comprises a sleeve 19, which extends into the lower
frame element 9 at its second end, thereby forming a cavity for receiving the protrusion
17 of the male connector 13 of another barrier panel, such as a second barrier panel
3 as shown. The male connector 13 is preferably made of a metal, such as steel, to
provide enough strength, while the female connector 14 preferably is made of plastic
in order to reduce the friction between the male and female connectors 13, 14.
[0022] The female connector 14 further comprises a locking device 23, which has a locking
element 24 that is vertically movable between a locked state, as for instance shown
in Fig. 5d, and an unlocked state, as for instance shown in Fig. 5c. In the locked
state the locking element 24 is engaged with a locking seat 25 of the male connector
13. In this embodiment, the locking element 24 is constituted of a locking pin, and
the locking seat 25 is constituted by a hole. In the unlocked state, the locking element
24 is disengaged from the locking seat 25.
[0023] The locking device 23 further comprises a spring 26, which is arranged to spring
bias the locking element 24 towards the locked state and for a clickin engagement
with the protrusion 17 of the male connector 13 in conjunction with a quick-coupling
operation. The male connector 13 comprises a shelf element 27, upon which a protruding
portion 28, which is an upper end portion, of the locking element 24, can be temporarily
rested when the locking element 24 has been moved to the unlocked state. Thereby the
locking element 24 is held in the unlocked state while in the beginning of the uncoupling
of the male and female connectors 13, 14, preventing the locking element 24 from reengaging
with the locking seat 25. The shelf element 27 is arranged at the side frame element
11 above the end portion of the lower horizontal frame element 9, and the shelf element
27 protrudes from the side frame element 11 in the same direction as the protrusion
17 of the male connector 13. In this embodiment, the shelf element 27 is constituted
by a bent plate which has been attached to the side frame element 11.
[0024] Since the locking element 24 is spring biased towards the locked state, and the shelf
element 27 is comprised in the male connector 13, the locking element 24 will always
be in the locked state when two barrier panels 2, 3 are to be coupled together.
[0025] The protrusion 17 of the male connector 13 is generally V-shaped, in the vertical
direction, constituting the height of the male connector 13, with the tip of the V-shape
constituting the outer end of the protrusion 17. The width of the protrusion 17 decreases
in direction from the support portion 18 towards the tip of the V-shape, i.e. the
front end of the male connector 13, as shown in Fig. 6.
[0026] The first connection part 15 comprises a hook portion 20 protruding from the end
of the upper frame element 10, and having a hook shaped outer end, as shown in Fig.
7. More particularly, at least the hook portion 20, and in this embodiment the whole
first connection part 15, is U-shaped in cross-section, having an inner width slightly
wider than the width of the upper frame element 10, and having opposite notches 21
at side walls of the hook portion 20. The second connection part 16 comprises a hook
engagement element 22, which in this embodiment simply is a bolt extending laterally
through the upper frame element 10 and protruding at both sides thereof. Due to the
U-shape of the connection portion 15, the upper frame elements 10 of the barrier panels
2, 3, and thus the barrier panels 2, 3, are aligned with each other when coupled together.
The notches 21 are arranged to receive the hook engagement element 22 when the first
and second connection part 15, 16 are coupled together.
[0027] Each post arrangement 4 comprises a structure attachment 30, a post device 31, mounted
at the structure attachment 30 at a lower portion of the post device 31, and a barrier
panel holder 32, connectable with the post device 31 at an upper portion thereof.
More particularly, the post device 31 comprises a vertical post beam 33, and the barrier
panel holder 32 is horizontally movably connected with the vertical post beam 33 at
its top.
[0028] The structure attachment 30, which when the temporary edge protection system 4 is
mounted at the structure 5 is attached by means of bolts 36, or the like, to the structure
5, comprise post holding hooks 34. The post device 31 comprises, at a lower end thereof,
a beam structure 35 having hook receivers 37, which are engaged with the post holding
hooks 34.
[0029] The beam structure 35 has a horizontal tubular first beam 38, which comprises one
of the hook receivers 37, which hook receiver constitutes an end portion of the first
beam 38, at a first end 45 thereof, which is an open end. The hook receiver 37 includes
a hole 42 at an top wall 43 thereof, through which hole 42 an end portion of the post
holding hook 34 protrudes. The beam structure 35 further comprises a horizontal tubular
second beam 39, which comprises another one of the hook receivers 37, which hook receiver
37 constitutes an end portion of the second beam 39, at a first end 45 thereof, which
is an open end. The second beam 39 is arranged vertically parallel with the first
beam 38, such that the hook receivers 37 of the first and second beams 38, 39 are
positioned above each other. The horizontal tubular first and second beams 38, 39
are attached to the vertical post beam 33 at respective second ends 47 thereof.
[0030] The beam structure 35 comprises a beam locking device 40 for preventing unintentional
removal of the beam structure 35 from the hooks 34. More particularly, the first beam
38 comprises the beam locking device 40, which comprises a beam locking pin 41 extending
internally of the first beam 38 along the length thereof, wherein the beam locking
pin 41 is arranged to interact with the hook receiver 37 and to prevent release of
the hook 34 from the hook receiver 37 when the beam locking device 40 is in a locked
state. More particularly, there is a space between the underside of the hook 34 and
the bottom wall 48 of the first beam 38, into which the beam locking pin 41 extends
in the locked state. Thereby, there is not enough play to permit the protruding end
of the hook 34 to disengage with the hole 42 in the top wall 43 of the first beam
38.
[0031] The beam locking pin 41 is spring biased, by means of a biasing spring 44, towards
the first end 45 of the first beam 38, wherein the beam locking device 40 further
comprises a rotatable catch element 46, which is connected with the beam locking pin
41 at the second end 47 of the first beam, and which is arranged at an outer surface
of the beam structure 35. More particularly, the beam locking pin 41 extends through
the vertical post beam 33, transverse thereof, and the catch element 46 is constituted
by a bracket that encompasses the vertical post beam 33. The catch element 46 is arranged
to be moved between an active state where it holds the beam locking pin 41 in a retracted
position, in the unlocked state of the beam locking device 40, and an idle state,
where the beam locking device 40 is in the locked state. The movement between the
idle state and the active state involves pulling the catch element 46 away from the
second end 47 of the first beam 38 and rotating it 90 degrees. As is understood by
the person skilled in the art, the beam locking device 40 can be arranged at the second
beam 39 instead of at the first beam 38.
[0032] The barrier panel holder 32 comprises a horizontal holder beam 49, horizontally movably
connected with the vertical post beam 33, and a vertical holder beam 50, which comprises
lower and upper barrier panel supports 51, 52, and which is vertically movably connected
with the horizontal holder beam 49. In other words, the horizontal holder beam 49
extends through a first clamping device 53 arranged at the top of the vertical post
beam 33, so by releasing the clamping device 53 the position of the horizontal holder
beam 49 relative to the vertical post beam 33 is adjustable. In order to prevent a
user from pulling the horizontal holder beam 49 out of the first clamping device 53,
the horizontal holder beam 49 is provide with a stop element 54 at its free end 55.
Similarly, a second clamping device 56 is arranged at barrier panel end 57 of the
horizontal holder beam 49, opposite to the free end 55. By releasing the second clamping
device 56 the position of the vertical holder beam 50 relative to the horizontal holder
beam 49, and thus the height of the barrier panel 2, can be adjusted.
[0033] In order to exemplify how some parts of the edge protection system 1 are mounted,
in order to show the simplicity of the system, it is assumed that only the pillars
of the building structure 5 can be used to anchor the edge protection system 1, and
that the distance between two adjacent pillars is too long to bridge it with two barrier
panels 2, 3, one at each pillar. First one structure attachment 30 is fastened at
each pillar. Typically, the whole structure attachment 30 is pre-mounted, or fastenings
for it are prepared already at the manufacture of the pillar. A beam structure 35
is mounted at the structure attachment 30, by receiving the hooks 34 in the hook receivers
37. If the beam locking device 40 is in its locked state, a spring force has to be
overcome during a part of the mounting operation since the beam locking pin 41 has
to be pushed against the force of the biasing spring a bit before there is room for
the beam locking pin 41 to return to the locking state. If the beam locking device
40 is in the unlocked state, as shown in Fig. 10b, it has to be locked when the beam
structure has been mounted on the structure attachment 30. Then a barrier panel holder
32 is mounted at the beam structure 35, wherein the stop element 54 is temporarily
removed from the horizontal holder beam 49 when it is introduced into the clamping
device 53 at the top of the vertical post beam 33.
[0034] Next, the horizontal holder beam 49 is adjusted to correctly position the vertical
holder beam 50 relative to the building structure 5, and the clamping device 53 is
tightened. Now the barrier panels 2, 3 are to be mounted, starting from one barrier
panel holder 32 and proceeding towards an adjacent barrier panel holder 32. When a
barrier panel 2, 3 is mounted at the barrier panel supports 51, 52, the upper barrier
panel support 52, which comprises a clamping means, such as e.g. disclosed in
EP 2 871 302, is tightened to clamp the upper frame element 10. When a barrier panel 3, here called
a second barrier panel 3, is interconnected with an already mounted barrier panel
2, here called a first barrier panel 2, first the upper quick coupling 7 is coupled,
i.e. the first connection part 15 of the second barrier panel 3 is engaged with the
second connection part 16 of the first barrier panel 2, while the second barrier panel
3 is slightly angled to the first barrier panel 2, i.e. an end of the second barrier
panel is lifted. Then the end of the second barrier panel 3 is lowered so that the
male connector 13 enters the female connector 14 until the second barrier panel 3
is aligned with the first barrier panel 2, and the locking element 24 engages, by
clicking-in, with the locking seat 25. Due to the smooth couplings/connections between
the different parts of the temporary edge protection system 1, the mounting is quicker
and easier to do than it was with the previously known temporary edge protection systems.
[0035] While the invention has been illustrated and described in detail in the drawings
and foregoing description, such illustration and description are to be considered
illustrative or exemplary and not restrictive; the invention is not limited to the
disclosed embodiments.
[0036] Other variations to the disclosed embodiments can be understood and effected by those
skilled in the art in practicing the claimed invention, from a study of the drawings,
the disclosure, and the appended claims. In the claims, the word "comprising" does
not exclude other elements or steps, and the indefinite article "a" or "an" does not
exclude a plurality. A single unit may fulfill the functions of several items recited
in the claims. The mere fact that certain measures are recited in mutually different
dependent claims does not indicate that a combination of these measured cannot be
used to advantage. Any reference signs in the claims should not be construed as limiting
the scope.
1. A barrier panel for a temporary edge protection system, wherein the barrier panel
(2) is arranged for quick-coupling with another barrier panel (3), wherein the barrier
panel comprises a horizontal lower frame element (9) having opposite first and second
ends, wherein the lower frame element comprises a male connector (13) at the first
end thereof and a female connector (14) at the second end thereof, which male and
female connectors are arranged to be quick coupled to respective female and male connectors
of other barrier panels by receiving the male connector into the female connector,
and wherein the barrier panel comprises a horizontal upper frame element (10) with
opposite first and second ends, wherein the upper frame element comprises a first
connection part (15) at the first end thereof, and a second connection part (16) at
the second end thereof, which first and second connection parts are arranged to be
quick coupled with respective second and first connection parts of other barrier panels.
2. The barrier panel according to claim 1, wherein the male connector (13) comprises
a protrusion (17), which protrudes horizontally from the first end of the lower frame
element (9), and wherein the female connector (14) comprises a cavity extending inside
of the lower frame element from the second end towards the first end.
3. The barrier panel according to claim 2, wherein the female connector (14) comprises
a plastic sleeve (19), which defines the cavity.
4. The barrier panel according to claim 2 or 3, wherein the female connector (14) comprises
a locking device (23), which has a locking element (24) that is vertically movable
between a locked state where the locking element, when the female connector is interconnected
with a male connector (13), is engaged with a locking seat (25) of the male connector,
and an unlocked state, where the locking element is disengaged from the locking seat.
5. The barrier panel according to claim 4, wherein the locking device (23) further comprises
a spring (26), which is arranged to spring bias the locking element (24) towards the
locked state and for a click-in engagement with the protrusion (17) of the male connector
(13) in conjunction with a quick-coupling operation, and wherein the male connector
comprises a shelf element (27), upon which a protruding portion (28) of the locking
element can be temporarily rested when the locking element has been moved to the unlocked
state, and thereby held in the unlocked state, to facilitate uncoupling of the male
and female connectors (13, 14).
6. The barrier panel according to any one of claims 2-5, wherein the protrusion (17)
is generally V-shaped, with the tip of the V-shape constituting the outer end of the
protrusion.
7. The barrier panel according to claim 6, wherein the width of the protrusion (17) decreases
from the first end of the lower frame element (9) towards the tip of the V-shape.
8. A temporary edge protection system comprising a barrier panel according to any one
of the previous claims, and a post arrangement (4), wherein the post arrangement comprises
a structure attachment (30), a post device (31), adapted to be mounted at the structure
attachment at a lower portion of the post device, and a barrier panel holder (32),
connectable with the post device at an upper portion thereof.
9. The temporary edge protection system according to claim 8, wherein the structure attachment
(30) has post holding hooks (34), wherein the post device (31) comprises, at a lower
end thereof, a beam structure (35) having hook receivers (37), which are arranged
to engage with the hooks.
10. The temporary edge protection system according to claim 8, wherein the beam structure
(35) comprises a beam locking device (40) for preventing unintentional removal of
the beam structure from the hooks (34).
11. The temporary edge protection system according to claim 10, wherein the beam structure
(35) has a horizontal tubular first beam (38), which comprises one of the hook receivers
(37), which hook receiver constitutes an end portion of the first beam, at a first
end thereof, which is an open end, wherein the first beam further comprises the beam
locking device (40), which comprises a beam locking pin (41) extending internally
of the first beam (38) along the length thereof, wherein the beam locking pin is arranged
to interact with the hook receiver (37) and to prevent release of the hook (34) from
the hook receiver when the beam locking device is in a locked state.
12. The temporary edge protection system according to claim 11, wherein the beam locking
pin (41) is spring biased towards the first end of the first beam, wherein the locking
device further comprises a rotatable catch element (46), which is connected with the
beam locking pin at a second end of the first beam (38), and which is arranged at
an outer surface of the beam structure (35), wherein the catch element is arranged
to be moved between an active state where it holds the beam locking pin in a retracted
position, in the unlocked state of the beam locking device (40), and an idle state,
where the beam locking device is in the locked state, wherein the movement between
the idle state and the active state involves moving the catch element away from the
first end of the first beam and rotating it.
13. The temporary edge protection system according to claim 11 or 12, wherein the beam
structure (35) comprises a horizontal tubular second beam (39), which comprises another
one of the hook receivers (37), which hook receiver constitutes an end portion of
the second beam, at a first end thereof, which is an open end, wherein the second
beam is arranged vertically parallel with the first beam (38), such that the hook
receivers of the first and second beams are positioned above each other.
14. The temporary edge protection system according to any one of claims 8-13, wherein
the post device (31) comprises a vertical post beam (33), wherein the barrier panel
holder (32) is horizontally movably connected with the vertical post beam.
15. The temporary edge protection system according to claim 14, wherein the barrier panel
holder (32) comprises a horizontal holder beam (49), horizontally movably connected
with the vertical post beam (33), and a vertical holder beam (50), which comprises
barrier panel supports (51, 52), and which is vertically movably connected with the
horizontal holder beam.