DE102013218580A1 - Floor covering for a scaffolding - Google Patents

Abstract

A step-through covering for scaffolding with a step-through flap, which closes a step-through opening in the step-through covering and is hinged to the step-through covering and is mounted on the step-through covering. In an area of the access hatch, in which the access hatch is connected to the access hatch, at least one elastically deformable element is arranged, which deforms when the access hatch is opened and the deformation creates a force in the elastically deformable element that opposes the opening movement of the access hatch is and which increases abruptly from a defined opening angle α near a vertical position of the access hatch.

Description

The invention relates to an access flooring for a scaffolding with an access door, which closes a passage opening in the access deck and hinged to the access deck connected to the access deck is stored.

On a scaffolding, construction workers and / or craftsmen often have to change the working level within the scaffolding to perform their work. This can be the case, for example, if you have finished your work on one level and want to continue it on a neighboring level. This may also be the case if they have to leave their working level for a short time, for example to procure further building material. Since ladders leaning against the scaffolding initially have to be realigned when the working plane changes and, moreover, they can easily fall over, a plurality of known scaffoldings have so-called access flooring. These are work platforms firmly anchored in the scaffolding, on which the construction workers and / or craftsmen can stand and work safely. In addition, sections of these working platforms have access floors with a passage opening. Workers can reach the desired working level via the access openings with the help of ladders from an above or below working level. In order to prevent a worker and / or items from accidentally falling through an access opening and injuring the worker himself and / or other workers, access decking is provided with an access door which is closed after use by the worker concerned. However, workers may forget to close an access door. Such open access hatches greatly impair personal safety on construction sites, which must be avoided.

From the EP2102431 B1 For example, an access flooring for a scaffolding has become known which has a self-closing flexible flap door to increase personal safety. The flexible flap door is not formed in contrast to the known access panels as a plate which is rigid in the direction of its two plane axes, but consists of a rubber-elastic deformable plate with individual stiffening inserts. The stiffening inserts are spaced from each other and in each case parallel to each other embedded in the rubber-elastic material, so that the flexible plate has a plurality of longitudinal segments which are rubber-elastic interconnected, that are hinged to each other elastically. When the flap is fully retracted (fully opened), complete and automatic closure of the flexible flap can not be guaranteed, not least because of the inherent weight of its longitudinal segments. Due to its structural design, the flexible flap is also a cumbersome and difficult to handle. Thus, the flap can not be opened by simple pressure against any underside surface portion, but must be extensively repelled by pressure with multiple body sections or a sweeping arm movement to fully release a closed through the flap access opening for the passage of an operator. In addition, the access floor in the production is costly and involves a user-side security risk, because damaged or even broken stiffening inserts of the flexible flap from the outside are not readily apparent.

The invention is therefore based on the object to further increase the safety of persons on a scaffolding in connection with access flooring and to further improve the handling of the access door of such access flooring.

This object is achieved in that in an area in which the access door is connected to the access floor, at least one elastically deformable element is arranged, which deforms when opening the access door and the deformation of a force (= restoring force) in the elastically deformable element arises, which is directed against the opening movement of the access door. The resulting in the elastic element and the opening movement of the access door opposing force increases according to the invention (at the opening of the flap) at an opening angle near a vertical position of the access door in leaps and bounds. That is, when the access door is oriented nearly perpendicular to a horizontal orientation, the (return) force exerted by the elastic member on the access door increases for horizontal orientation of the access door into or from the opening angle of the access door close to its vertical position by a multiple, for example, a double, a triple or even higher value, compared to the value of the restoring force, which has built up to the opening angle close to the vertical position of the access door. The force can increase in the region of the opening angle of the access door close to their vertical position in particular stepwise or substantially stepwise. The characteristic of the elastically deformable element has in this case in the region of the opening angle close to the vertical position of the access door on a discontinuous course. A sudden increase in force is also given when the force from the opening angle of the access door close to its vertical orientation with further increasing opening angles of the access door steadily or exponentially compared to the value of the restoring force, which is up to the opening angle close to the vertical position of the Has built through the access door, enlarged. The elastically deformable element has in the latter case a progressive characteristic. Overall, this advantageously ensures that the access door of the access flooring after opening, that is, when no external force (an operator) acts more on the access door, closes reliably and quickly automatically. The (defined / predetermined) opening angle near the vertical position of the flap is preferably between 75 ° and 87 °, in particular approximately 85 °. The force generated in the elastically deformable element is preferably low up to the opening angle of the access door close to its vertical position. The access door is preferably rigid in the direction of its two plane axes, ie in the direction of its longitudinal as well as in its transverse axis. Ie. the access door is designed as a board or a board. It is understood that the board or the plate may have a multilayer structure or a frame. As a result, on the one hand a possible damage to the access door, in particular a crack or a breakage of the access door, can be visually recognized in a simplified manner. On the other hand, the access door can be fully actuated by an operator by pressure against any underside surface portion in a simple manner to fully release the passageway for the passage of the operator. The use of an access flooring according to the invention in a scaffolding thus significantly increases personal safety, since an active closing of the access opening by persons is not required and therefore can not be forgotten. The risk that a construction worker falls through an open access opening of an access flooring and thereby significantly injured, is reduced to a minimum or is excluded, unless the subject invention is flawed. Often safety regulations require that the access openings in access flooring automatically close after use. This is fulfilled in a simple manner by the access flooring according to the invention. The access door of the access flooring is particularly easy and safe to handle.

An advantageous embodiment of the invention is characterized in that the region in which the access door is connected to the access flooring, extends over an edge side of the access door. The substantially rectangular shape of the access door makes the best possible use of the available area of the access floor and, in conjunction with a passage opening adapted to the access door, makes it easier for a person to pass through the access floor. Depending on the arrangement of the at least one elastically deformable element, the access door can be opened either in the longitudinal direction or in the transverse direction to the access flooring. Since the elastically deformable element extends only over one edge side of the access door, the person ascending through the access floor has the greatest possible freedom of movement and is not hindered by the elastic element when climbing through.

In a preferred embodiment, the edge of the access opening has a Randausformung in which the access door is inserted, and wherein the Randausformung is designed so that the surface of the top of the access door without a step forms a level with the surface of the top of the access floor. Advantageously, a person with the door closed or stuck with an object to be transported on an edge of the access door and stumble or tumble as a result, which also increases the personal safety of the access flooring according to the invention. Further, the Randausformung the access opening ensures that the inserted access door along a portion of its edge is supported by the edge of the access opening of the access decking. In this case, the dead weight of the access door in the closed state and optionally an additional weight of an object located on the access door or a person on the access flooring is derived and thus relieves the elastic element of these weight forces. Particularly advantageous is an embodiment which has the Randausformung along the entire edge of the access opening, since the weight is now transmitted as evenly as possible to the access deck and the flexible element is no longer burdened with closed access door.

In a particularly preferred embodiment, the at least one elastically deformable element is formed as an elongated profile of a rubber and / or tough elastic material. Elongated profiles of a rubber and / or tough elastic material, such as natural rubber or silicone rubber, can be inexpensively manufactured in many different forms. Such profiles are long lasting with appropriate formulation, rustproof and resistant to weathering and UV radiation. Due to the material used and its construction, elongated profiles made of a rubber and / or tough elastic material bear a lower risk of injury due to pinching, for example in comparison with coil tension springs. With further advantage, the material selection and / or cross-sectional configuration of the elongated profile makes it easy to adjust the elastic restoring force during its deformation and thus the restoring force of the access door as a function of its opening angle.

In a development of the particularly preferred embodiment, the elongated profile has a substantially rectangular cross-section. Such a profile can be easily and in many ways connect both with the access door and with the access decking. For example, screw and / or adhesive connections are possible. Rectangular profiles are very cost-effective in various dimensions available as rod products and can be easily adjusted by simply cutting to access openings with different dimensions.

In a further particularly preferred embodiment of the access flooring according to the invention, the elongate profile has an at least partially V- or W- or zigzag or wave-shaped cross section. Such a cross-section can ensure that the force required to open the access door for opening angle is close to a vertical position of the access door, for example less than or equal to 80 degrees, low and increases sharply for larger opening angle. Advantageously, the access door of such access flooring can be opened with a very small force of a person ascending, for example, by simply pressing with his hand or head, when the person rises from the bottom up through the access opening.

According to the invention, a further elastically deformable element can facilitate the opening of an access door in the sense of an opening aid when such an element is compressed when closing the access door due to the dead weight of the access door and this stored in the elastically deformed element stored force when opening the access door again and thus the opening the access door additionally relieved. If the access door is open almost vertically, the restoring force increases abruptly, which ensures a fast closing of the access door. If elongate profiles, in particular with an at least partially zigzag or wave-shaped cross-section, can be used to produce these profiles and materials which have only a low elasticity, since the use of such cross-sections, the effective path length of the deformable region and thus the flexibility of elongated profile in the transverse direction increases sharply. The outer dimensions of the cross-sectional profile of the elastically deformable element used here, however, rise only slightly.

In a development, the access flooring according to the invention is characterized in that the access door along a part of its edge has a first groove, in which engages the elongated profile with a first portion and that the access flooring along a portion of the edge of the access opening, which of the first groove along opposite the part of the edge of the access door, having a second groove in which engages the elongate profile with a second portion, and wherein the elongated profile in both the first groove along the part of the edge of the access door and in the second groove of the access deck along the part of the edge of the access opening is held. The use of a first groove along the part of the edge of the access door and a second groove along the part of the edge of the access opening ensures a very space-saving arrangement of the elongated profile. In the process, the subregions of the elongate profile engaging in the first and second grooves completely disappear completely in the access door and the access flooring. If the first and / or the second groove are each arranged within a larger groove, further subregions of the elongated profile, which are not held by the access hatch or the access flooring, can be accommodated in the respective larger groove. This brings additional space savings and the flexible element is additionally protected by the access door and / or the access flooring from damage.

It is preferred if the elongated flat profile in the first groove along the part of the edge of the access door and in the second groove of the access flooring along the part of the edge of the access opening by riveting and / or by screws and / or by adhesive bonds and / or by Undercuts is attached. The elongated profile fastened both in the first and in the second groove can not accidentally slip out of the first and / or the second groove when opening the access door. If the profile is fastened in the first and the second groove by means of screw connections and / or rivet connections and / or undercuts, it can be quickly exchanged in the event of a defect, for example due to a fatigue fracture.

A preferred embodiment of the access flooring according to the invention is characterized in that the elongated profile undergoes a material deformation when opening the access door, and that in the region of the material deformation at least partially one or more cavities are formed. Through cavities in the area of material deformation, the force required to open the access door can be influenced as a function of the opening angle. If a stiffer material is used to make the elongated profile, the cavities formed in the profile can reduce the force needed to open the access door. By a suitable choice of the number, the shape and the position of the cavities can be achieved, for example, that only a comparatively small force to almost vertical opening the access door must be spent and the restoring force increases only strongly at a vertical position of the access door.

In a further development of the last-mentioned embodiment of the access flooring, the at least one cavity is at least partially closed in the direction of the longitudinal sides of the elongate profile. By closed in the direction of the longitudinal sides of the elongated profile cavity is reliably prevented that dirt, such as falling stones, sand, mortar or dripping paint can enter the cavity and clog these, which affect the function of the cavity of the elongated profile when opening the access door could.

In another development of the access flooring according to the invention, the at least one cavity is at least partially formed by an indentation extending in the longitudinal direction of the elongated profile into the surface of a longitudinal side. By extending in the longitudinal direction of the elongated profile indentations, for example carried out in the form of indentations on a bottom of the elongated profile, the force required to deform the profile and thus the opening of the access door can be reduced. In contrast to completely or partially closed cavities in the longitudinal direction, indentations on the surface of the profile can be realized even after its production with relatively little effort.

In a particularly preferred embodiment, the area in which the access door is connected to the access floor, a flexible cover, which covers the at least one elastically deformable element. By such a flexible cover, both the elastically deformable element itself and the connection area between the access door and access flooring are optimally protected against contamination, which complicate or prevent the opening of the access door, or damage the hinge of the access door. Likewise, pinching, for example, a hand or a foot of a person located near the flap is prevented, which further improves the safety of the access floor.

Further advantages of the invention will become apparent from the description and the drawings. Likewise, according to the invention, the above-mentioned features and those which are still further developed can each be used individually for themselves or for a plurality of combinations of any kind. The embodiments shown and described are not to be understood as exhaustive enumeration, but rather have exemplary character for the description of the invention.

The invention is illustrated in the drawings and will be explained in more detail with reference to embodiments.

Show it:

1 a perspective view of an access flooring according to the invention;

2 Presentation of the access flooring 1 in a plan view from above;

3 Representation of a cross section of 2 along the in 2 Plotted sectional plane III-III;

4 Representation as in 3 , but with open access opening;

5 Cross-sectional view of an elongated profit with partially V-shaped cross-section;

6 Cross-sectional view of an elongated profit with partially W-shaped cross section;

7 Fixing an elongated profit by means of screw connections and undercuts in grooves of the access flooring and the access door;

8th Fixing an elongated profit by means of rivets in grooves of the access flooring and the access door;

9 Attachment of an inserted in recesses of the access flooring and the access door elongated profile by means of screw;

10 flexible connection of the access door with the access flooring by means of hinges;

11 Cross-sectional view of an elongated profit with notches on its underside;

12 Cross-sectional view of an elongated profit with longitudinally internal cavities;

13 flexible cover of an elongated profile with closed access door;

14 flexible cover as in 15 , but with the access door open;

15 Cross-sectional view of a portion of an access deck, wherein in the region in which the access deck is connected to the access door, two elastic elements are arranged.

1 shows a perspective view of an access flooring 10 , which is used for example in a scaffolding and is also referred to by the terms "scaffold decking" or "through-board". The access decking 10 points to the in 1 On the left side, there is an access opening 12 on the one with the stepping surface 10 stored access door 14 can be closed. The edge 16 the access opening 12 is through one in the direction of the access opening 12 and the access door 14 open recess so shaped that with closed access door 14 these along their edge on the boarding deck 10 rests and the upper edges of the access door 14 at the same level as the upper edges of the access flooring 10 are located. In the event that the access opening 12 is closed, there is no edge at the transition between the access door 14 and access decking 10 , A person crossing the ladder 10 enter or place an object over the access deck 10 Rolling or pushing, therefore, does not run the risk of hanging on such an edge, tripping or falling. In the 1 illustrated access door 14 has a rectangular shape. In one area 18 is the access door 14 along one of its longitudinal sides with the access flooring 10 hinged connected. The connection of the access door 14 with the access decking 10 takes place by an elastically deformable element 20 , which extends over the entire longitudinal side of the access door 14 extends. In the elastic element 20 it is an elongated profile 22 with a rectangular cross section.

alternative to 1 can also have several elastic elements of different design in the range 18 be arranged. Optionally, the resilient deformable elements may be spaced from each other in the area 18 be arranged. In addition to the elongated profile 22 is the access door 14 with the access decking 10 by hinges (in 1 not shown). In addition to hinges as any type of swivel joints can be used. In one embodiment, the elastically deformable element can additionally assume a hinge function. To easily open the access door 14 through an opening movement 24 to allow is at the the elastic element 20 opposite side of the access door 14 a handle opening 26 appropriate. Instead of in 1 illustrated penetrating handle opening 26 , the access door can 14 also have a recessed grip or a retaining loop on its top and / or bottom.

2 shows the access flooring 10 in a top view from above. The elongated profile 22 in the area 18 is arranged so that the access door 14 transverse to the longitudinal side of the access flooring 10 open. The flexible connection through the elongated profile 22 can also be on one of the other sides of the access door 14 take place (and this in any embodiment), so that this example in the longitudinal direction of the access flooring 10 open. In 2 is the access decking 10 with closed access door 14 shown. By the in 1 drawn shape of the edge 16 which are continuous along the entire edge 16 the access opening 12 of the access floor 10 runs, becomes the access door 14 from the boarding deck 10 kept safe. Occurring weight forces of the closed access door 14 and possibly on her objects or persons are due to the edge formation as evenly as possible on the access flooring 10 derived.

3 shows a cross section of 2 along the in 2 Plotted sectional plane III-III with closed access opening 12 , The access door 14 is through the elastic element 20 with the access decking 10 flexibly connected. In the cross-sectional representation in 3 is well recognizable that the elastically deformable element 20 as an elongated profile 22 is formed with a rectangular cross-section. To ensure a secure and durable connection between the elongated profile 22 and the access door 14 as well as the elongated profile 22 and the access decking 10 to ensure the elongated profile engages 22 with a first portion in a first groove 28 the access door 14 one. The access decking 10 has a second groove 30 on, which with closed access door 14 the first groove 28 and in which the elongated profile 22 engages with a second portion. The elongated profile 22 is both in the first groove 28 as well as in the second groove 30 attached by a flat bonding. In 3 is clearly seen that the access door 14 in the shape 32 of the edge 16 the access opening 12 is inserted and both the top edge of the access door 14 as well as the upper edge of the access flooring 10 to be at the same height. The access flooring according to the invention 10 is in 3 simplistic and not shown to scale. In particular, have between the access door 14 and access decking 10 each right and left in 3 shown columns, which a smooth opening and closing the access door 14 ensure a significantly lower gap in reality.

The access decking 10 may additionally comprise a conductor (not shown), which during transport and storage of the access flooring 10 below the access door 14 and the floor of the access floor 10 releasably and / or pivotally mounted. After installation of the access flooring 10 The ladder from the access floor can be put into a scaffold 10 be folded out to the boarding deck 10 to reach from an underlying surface.

The representation in 4 corresponds to the in 3 shown illustration, however, is the access door 14 unfolded and the access opening 12 can be passed by a person, for example a construction worker. Because the elongated profile 22 both in the first groove 28 the access door 14 as well as in the second groove 30 of the access floor 10 is attached, occurs when opening the access door 14 a material deformation in one area 34 of the elongated profile 22 on. The material deformation can be in some parts of the elongated profile 22 as positive strain (elongation) and in other sub-regions as negative strain (compression) are present. In 4 arises in the area 34 on the underside of the elongated profile 22 an extension and on the top a compression. To a material deformation in the elongated profile 22 To effect, when opening the access door, a corresponding force in the opening direction 24 be spent. Because the elongated profile 22 having elastic properties, the material tries to return to its original shape after elimination of the force or the deformation occurred. The force that causes this and the opposite to the opening direction 24 directed, is used, the open access opening 12 to close automatically. The elastically deformable element 20 is designed such that by the deformation of the elastically deformable element 20 generated force, the opening movement of the access door 14 is opposite, from an opening angle α near a vertical position of the access door 14 soaring. The opening angle α is presently about 85 °, but may also be greater or less than 85 °.

In 5 is the cross section of a partially V-shaped elongate profile 40 which is in a first groove 42 an access door 44 and a second groove 46 an access floor 48 held, presented. The edge area of the access door 44 is on the access deck 48 on, provided the access door 44 closed is. By opening the access door 44 becomes the elongated profile 40 deformed and tries, due to its elasticity, to assume its original shape again. This creates a restoring force, which the access door 44 includes, unless it is held in its open position by the application of a holding force. Due to the partially V-shaped cross-section of the profile 40 the occurring restoring force has a different dependence on the opening angle of the access door 44 than would be the case with an oblong profile having a rectangular cross-section, in that the opening angle α of the access door is close to its vertical position, starting from the restoring force of the elastically deformable element with the opening of the access door increasing further 44 rises abruptly, is again defined more precisely. When opening in the range of small opening angle, first move the two legs of the V-shaped part of the profile 40 towards each other. Because the profile 40 in the region of the V-shaped legs has a significantly smaller thickness than in the horizontal region, this only a small force is initially required. From a certain opening angle, however, the two legs abut each other and it must be a significantly greater force applied to the horizontal extending portions of the profile 40 to deform and so the access door 44 still open (larger opening angle). The access door 44 can thus be opened only by a small amount of force α up to a certain angle. If this angle is exceeded, the force required for further opening increases sharply (eg disproportionately or exponentially).

The oblong profit 50 in 6 has a substantially W-shaped cross section instead of a V-shaped and is in a first groove 52 an access door 54 and a second groove 56 an access floor 58 held. This shifts compared to 5 the angle from which to the further opening of the access door 54 required force increases sharply, towards larger values. By appropriate design of the cross section and / or by the addition of further V-shaped regions can be achieved that the opening angle α, from which the force required increases sharply, is in a range near 90 degrees.

In 7 is a first possibility of attachment of the elastic element shown in cross section. The elastically deformable element is in the form of an elongated profile 80 executed. The profile 80 engages with a first portion in a first groove 82 an access floor 84 one and gets in the groove 82 by retractable screws 86 at the access floor 84 held. One second part of the oblong profit 80 , which lies opposite the first portion, has a T-shaped cross-section which serves as an undercut 88 serves, and engages in the transverse direction to the elongated profile 80 positively in a correspondingly shaped groove 90 the access door 92 one. To slip out of the elongated profile 80 out of the groove 90 the access door 92 can prevent the profile 80 additionally in the groove 90 be secured by a bond.

In 8th is a permanent attachment of an elongated profile 94 with a walk-through decking 100 and an access door 98 by riveting 96 shown in cross section. The elongate profile can also assume the hinge function, as in other embodiments shown. To lay down the profile engages 94 with a first portion in a first groove 102 the access door 98 and with a second portion in a second groove 104 of the access floor 100 one. The profile 94 is provided both in the first and in the second part with breakthroughs, such as holes or circular punched. The access decking 100 and the access door 98 have holes, with the corresponding breakthroughs of the profile 94 aligned. The one in the first groove 102 inserted first subarea is now riveted through 96 passing through the holes in the access door 98 and the apertures extend in the first portion of the profile, at the access door 98 held. In a similar way, the second part of the profile 94 at the access floor 100 held. In addition to solid rivets, hollow or blind rivets are also suitable for attachment.

One way, an access flooring 106 with an access door 108 through an elongated profile 110 to connect with rectangular cross section is in 9 shown. Both the edge of the access floor 106 along the access opening as well as the edge of the access door 108 have recesses on their top 112 . 114 each with a rectangular cross section. In the recesses 112 . 114 is the elongated profile 110 each with a sub-area inserted. The depth of the recesses is chosen so that the top edge of the profile 110 flush with the top edge of the access door 108 and with the top edge of the access decking 106 completes or the top of the profile 110 in comparison to the upper edge of the access door 108 and the top edge of the access floor 106 lies lower. The elongated profile 110 is by screw connections 116 each with a partial area with the access flooring 106 and the access door 108 firmly connected. Depending on the material used for access flooring 106 and access door 108 Screws with normal or self-tapping thread are used. By the arrangement of the elongated profile 110 becomes the one between the access deck 106 and access door 108 existing gap 118 completely covered. Ingress of dirt or small parts in the gap is reliably prevented. Likewise, it prevents a person from opening the access door 108 accidentally by pinching in the gap 118 injured.

10 shows an access flooring according to the invention 120 in cross-section. For the flexible connection between access flooring 120 and access door 122 is next to an elongated profile 124 with a double-T shaped cross-section on the top of the access deck 120 and the access door 122 taken in hinge 126 used. In this embodiment, the weight of the opened access door 122 through the hinge 126 on the access floor 120 transfer. The elongated profile 124 is by means of two undercuts 128 both in a first groove 130 of the access floor 120 as well as in a second groove 132 the access door 122 held. Both the arrangement of the hinge 126 as well as the shape of the illustrated cross section 134 of the access floor 120 and the matching shape of the illustrated cross section 136 the access door 122 reliably prevent dirt from entering the area 138 in which is the elongated profile 124 located. Likewise, an accidental pinching when opening the access door 122 prevented.

As in 11 and 12 shown, can for influencing the restoring force an elongated profile 140 ; 148 , which with an access door 142 ; 150 and a boarding deck 144 ; 152 is flexibly connected and several cavities 146 ; 154 has to be used. The cavities are 146 ; 154 preferably arranged in an area in which when opening the access door 142 ; 150 a material deformation occurs. In 11 are the cavities 146 as open V-shaped notches on top of the elongated profile 140 educated. The indentations extend on the top approximately centrally in the longitudinal direction of the profile 140 and make sure that when you open the access door 142 the area where else the biggest material stretch of the profit 140 would be relieved. The access door 142 Therefore, it can be opened with less effort and it becomes an early material fatigue due to an excessive elongation of the elongated profit 140 prevented.

Similarly, as in 12 represented, an elongated profile 148 of cavities 154 be traversed, which in the direction of the long sides of the profit 148 completely in its interior run. In 12 show the cavities 154 a circular cross-section and are in an area of the profile 148 arranged when opening the access door 150 is compressed. As a result, in the area of small opening angle of the access door 150 reduces the resulting restoring force. Regardless of the cavities shown in the embodiment 154 For example, in other embodiments, these cavities may also have other cross-sectional shapes, such as triangular.

As in 13 shown, can protect an elongated profile 156 , which with an access door 162 and a boarding deck 160 connected, a flexible cover 164 above the oblong profit 156 be arranged. The flexible cover 164 is both on the access deck 160 as well as at the access door 162 thus attaches and protects the connection area 158 which is located between the access floor 160 and access door 162 located. The flexible cover 164 is ideally dust- and liquid-tight and consists of a very elastic, tough and environmentally insensitive material, such as a plastic film. Dust that occurs, for example, when grinding on a facade, thus can not the connection area 158 and thus the function of the elongated profile 156 affect. The attachment of the cover 164 can advantageously be done with the same fasteners, which also the elongated profile 156 with the access decking 160 and the access door 162 connect. In 15 were screws for this 166 which has both the flexible cover 164 as well as the elongated profile 156 penetrate, used.

14 shows that when you open the access door 162 the flexible cover 164 is compressed. Used for the flexible cover 164 Using a material with very high flexibility, this affects the through the elongated profile 156 generated restoring force only insignificant.

The cover 164 can also be designed so that by the elongated profile 156 generated restoring force with one of the cover 164 generated restoring force cooperates. The cover 164 acts an undesirable penetration of dirt, such as stones or material chips, in between the access door 162 and the access decking 160 trained cleft against.

15 shows the cross-sectional view of a region in which a pass-through flap 172 with a walk-through decking 174 connected is. The connection between the access door 172 and the access decking 174 is through one in both the access door 172 as well as the access flooring 174 embedded stable band 168 which by riveting 170 attached, manufactured. The band may consist of a textile, of an elastomer or of another suitable material. In the gap between the access floor 174 and access door 172 is above the fabric band 168 a first elastically deformable element 176 and below the fabric band 168 a second elastically deformable element 178 arranged. It fills the first elastically deformable element 176 only a part of the gap area and consists of a tough and less elastic material. The second elastically deformable element 178 consists of a strong elastic and soft material. The second elastically deformable element 178 is with closed access door 172 already compressed, that is, it is compressed in the gap. Due to its compression exerts the second elastically deformable element 178 a force on the access door 172 out, which acts in the direction of an opening movement and thus the opening of the access door 172 required effort reduced. The first elastically deformable element 176 is only at the above-described opening angle α (not shown) near the almost vertically opened access door 172 pressed in the gap. The compression creates a force, the opening movement of the access door 172 directed against, and the access door 172 automatically always presses in a closed position. The two elastically deformable elements 176 . 178 Ingress between soiling, such as stones or shavings, in between the access door 172 and the access decking 174 trained cleft against.

LIST OF REFERENCE NUMBERS

10

Durchstiegsbelag

12

Durchstiegsöffnung

14

Durchstiegsklappe

16

Rand der Durchstiegsöffnung

18

Bereich, in welchem die Durchstiegsklappe mit dem Durchstiegsbelag verbunden ist

20

elastisches Element

22

längliches Profil

24

Öffnungsbewegung der Durchstiegsklappe

26

Grifföffnung

28

erste Nut der Durchstiegsklappe

30

zweite Nut der Durchstiegsöffnung

32

Ausformung des Randes der Durchstiegsöffnung

34

Bereich einer Materialverformung des länglichen Profils

α

Öffnungswinkel

Fig. 5

40

längliches Profil mit V-förmigem Querschnitt

42

Nut der Durchstiegsklappe

44

Durchstiegsklappe

46

Nut des Durchstiegsbelags

48

Durchstiegsbelag

Fig. 6

50

längliches Profil mit W-förmigem Querschnitt

52

Nut der Durchstiegsklappe

54

Durchstiegsklappe

56

Nut des Durchstiegsbelags

58

Durchstiegsbelag

Fig. 7

80

längliches Profil

82

Nut des Durchstiegsbelags

84

Durchstiegsbelag

86

versenkbare Schrauben

88

Hinterschneidung

90

Nut der Durchstiegsklappe

92

Durchstiegsklappe

Fig. 8

94

längliches Profil

96

Nieten

98

Durchstiegsklappe

100

Durchstiegsbelag

102

Nut der Durchstiegsklappe

104

Nut des Durchstiegsbelags

Fig. 9

106

Durchstiegsbelag

108

Durchstiegsklappe

110

längliches Profil

112

Aussparung auf der Oberseite des Durchstiegsbelags

114

Aussparung auf der Oberseite der Durchstiegsklappe

116

Schraubverbindungen

118

Spalt

Fig. 10

120

Durchstiegsbelag

122

Durchstiegsklappe

124

längliches Profil

126

Scharnier

128

Hinterschneidungen

130

Nut des Durchstiegsbelags

132

Nut der Durchstiegsklappe

134

Ausformung des Querschnitts des Durchstiegsbelags

136

Ausformung des Querschnitts der Durchstiegsklappe

138

Bereich zwischen Durchstiegsklappe und Durchstiegsbelag

Fig. 11

140

längliches Profil

142

Durchstiegsklappe

144

Durchstiegsbelag

146

Hohlräume

Fig. 12

148

längliches Profil

150

Durchstiegsklappe

152

Durchstiegsbelag

154

Hohlräume

Fig. 13 und Fig. 14

156

längliches Profil

158

Verbindungsbereich zwischen Durchstiegsklappe und Durchstiegsbelag

160

Durchstiegsbelag

162

Durchstiegsklappe

164

flexible Abdeckung

166

Schrauben

Fig. 15

168

stabiles Stoffband

170

Nieten

172

Durchstiegsklappe

174

Durchstiegsbelag

176

erstes elastisch verformbares Element

178

zweites elastisch verformbares Element

Fig. 1 to Fig. 4

10

Access deck

12

Trapdoor opening

14

Trapdoor

16

Edge of the access opening

18

Area in which the access door is connected to the access floor

20

elastic element

22

elongated profile

24

Opening movement of the access door

26

grip opening

28

first groove of the access door

30

second groove of the access opening

32

Shape of the edge of the access opening

34

Range of material deformation of the elongated profile

α

opening angle

Fig. 5

40

elongated profile with V-shaped cross-section

42

Groove of the access door

44

Trapdoor

46

Groove of the access floor

48

Access deck

Fig. 6

50

elongated profile with W-shaped cross-section

52

Groove of the access door

54

Trapdoor

56

Groove of the access floor

58

Access deck

Fig. 7

80

elongated profile

82

Groove of the access floor

84

Access deck

86

retractable screws

88

undercut

90

Groove of the access door

92

Trapdoor

Fig. 8

94

elongated profile

96

rivet

98

Trapdoor

100

Access deck

102

Groove of the access door

104

Groove of the access floor

Fig. 9

106

Access deck

108

Trapdoor

110

elongated profile

112

Recess on the top of the access flooring

114

Recess on the top of the access door

116

screw

118

gap

Fig. 10

120

Access deck

122

Trapdoor

124

elongated profile

126

hinge

128

undercuts

130

Groove of the access floor

132

Groove of the access door

134

Shape of the cross section of the access flooring

136

Shape of the cross section of the access door

138

Area between the access door and the access floor

Fig. 11

140

elongated profile

142

Trapdoor

144

Access deck

146

cavities

Fig. 12

148

elongated profile

150

Trapdoor

152

Access deck

154

cavities

FIGS. 13 and 14

156

elongated profile

158

Connection area between access door and access flooring

160

Access deck

162

Trapdoor

164

flexible cover

166

screw

Fig. 15

168

stable fabric band

170

rivet

172

Trapdoor

174

Access deck

176

first elastically deformable element

178

second elastically deformable element

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2102431 B1 [0003]

Claims (15)

Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) for a scaffolding, with an access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ), which has an access opening ( 12 ) in the access floor ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) closes and folds up with the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) connected to the access floor ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ), wherein in one area ( 18 ), in which the access door ( 14 ; 44 ; 54 ;; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) with the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ), at least one elastically deformable element ( 20 ; 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) is arranged, which when opening the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 deformed, wherein by the deformation of the elastically deformable element, a force in the elastically deformable element ( 20 ; 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ), the opening movement of the access door ( 14 ; 44 ; 54 ;; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) is directed counter to, and wherein the force from an opening angle near a vertical position of the access door ( 14 ; 44 ; 54 ;; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) rises sharply. Passage covering according to claim 1, characterized in that the opening angle α near the vertical position of the access door ( 14 ; 44 ; 54 ;; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) is between 75 ° and 87 °, in particular less than or equal to 80. Passage decking ( 10 ; 48 ; 58 ;; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to claim 1 or 2, characterized in that the area in which the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) with the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) is connected, via an edge side of the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ). Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to one of the preceding claims, characterized in that the edge ( 16 ) the access opening ( 12 ) has a Randausformung into which the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) is inserted, and wherein the edge molding is designed so that the surface of the top of the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) a level with the surface of the top of the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ). Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to one of the preceding claims, characterized in that the at least one elastically deformable element ( 20 ; 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) as an elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) is formed of a rubber and / or tough elastic material. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to claim 5, characterized in that the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) has a substantially rectangular cross-section. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) According to claim 5 or 6, characterized in that the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) an at least partially V- ( 40 ) or W- ( 50 ) or zigzag ( 60 ) or wavy ( 70 ) Has cross-section. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to one of the preceding claims, characterized in that the at least one elastically deformable element ( 20 ; 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) on the one hand with the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) and on the other hand with the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) connected is. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to claim 8, characterized in that the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) along a part of its edge a first groove ( 28 ; 42 ; 52 ; 90 ; 102 ; 132 ) into which the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) engages with a first portion and that the access deck ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) along part of the edge ( 16 ) the access opening ( 12 ), which of the first groove ( 28 ; 42 ; 52 ; 90 ; 102 ; 132 ) along the part of the edge of the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ), a second groove ( 30 ; 46 ; 56 ; 82 ; 104 ; 130 ) into which the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) engages with a second portion, and wherein the elongate profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) in both the first groove ( 28 ; 42 ; 52 ; 90 ; 102 ; 132 ) along the part of the edge of the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) as well as in the second groove ( 30 ; 46 ; 56 ; 82 ; 104 ; 130 ) of the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) along the part of the edge ( 16 ) the access opening ( 12 ) is held. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to claim 9, characterized in that the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) in the first groove ( 28 ; 42 ; 52 ; 90 ; 102 ; 132 ) along the part of the edge of the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) and in the second groove ( 30 ; 46 ; 56 ; 82 ; 104 ; 130 ) of the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) along the part of the edge ( 16 ) the access opening ( 12 ) by riveting ( 96 ) and / or by screws ( 86 ; 166 ) and / or by adhesive bonds and / or by undercuts ( 88 ; 128 ) is attached. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to one of claims 5 to 10, characterized in that the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) when opening the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) undergoes a material deformation, and that in the area of the material deformation at least partially one or more cavities ( 146 ; 154 ) are formed. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) According to claim 11, characterized in that the at least one cavity ( 154 ) at least partially in the direction of the longitudinal sides of the elongated profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) closed is. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to claim 11 or 12, characterized in that the at least one cavity ( 146 ) at least partially by a longitudinal direction of the elongate profile ( 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) extending indentation is formed in the surface of a longitudinal side. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to one of the preceding claims, characterized in that the area ( 18 ), in which the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) with the access flooring ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ), a flexible cover ( 164 ) comprising the at least one elastically deformable element ( 20 ; 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) covers. Passage decking ( 10 ; 48 ; 58 ; 84 ; 100 ; 106 ; 120 ; 144 ; 152 ; 160 ; 174 ) according to claim 14, characterized in that the cover ( 164 ) during the opening movement of the access door ( 14 ; 44 ; 54 ; 92 ; 98 ; 108 ; 122 ; 142 ; 150 ; 162 ; 172 ) generates a force which corresponds to the restoring force of the elastically deformable element ( 20 ; 22 ; 40 ; 50 ; 80 ; 94 ; 110 ; 124 ; 140 ; 148 ; 156 ; 176 ; 178 ) cooperates.

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