EP3887611A1 - Système de balcon doté d'une unité de force antagoniste - Google Patents
Système de balcon doté d'une unité de force antagonisteInfo
- Publication number
- EP3887611A1 EP3887611A1 EP19813744.0A EP19813744A EP3887611A1 EP 3887611 A1 EP3887611 A1 EP 3887611A1 EP 19813744 A EP19813744 A EP 19813744A EP 3887611 A1 EP3887611 A1 EP 3887611A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- unit
- balcony
- rail
- building structure
- base unit
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/343—Structures characterised by movable, separable, or collapsible parts, e.g. for transport
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/003—Balconies; Decks
Definitions
- Embodiments of the present invention relate to a balcony system, more particularly to a balcony system with a counterforce unit, typically one
- the balcony system additionally providing the functionality of a piece of furniture. Further embodiments relate to the use of such balcony systems as temporary building icons for building openings, for example for windows, and to methods for setting up a temporary balcony.
- a balcony system is known from EP 2 649 249 B1 which is suitable for use with a building opening of a building structure, typically a window.
- This balcony system includes a balcony unit that protrudes from the
- Building opening is set up, a counterforce unit, which is set up to compensate for forces acting on the balcony unit without intervention in the building structure, and a
- Connection element that connects the balcony unit and the counterforce unit.
- Figs. 14-17 show a mobile balcony system 100 'known from EP 2 649 249 B1, which is located in a building structure 1, e.g. the room of an apartment.
- the balcony system 100 ' is on the floor of the building structure. 14, the balcony system 100 is compacted.
- the balcony unit 110 ′′ of the balcony system 100 ′′ can be dismantled, the floor 112 ′′ being located on top of the counterforce unit 120 ′′ in FIG. 14 and with it by means of a
- the balcony system 100 comprises a mobility system 150' which comprises eight rollers 155 ', only four of which are visible from the side view.
- the balcony system 100 ' can be moved in front of a building opening 10 by the rollers 155', as can be seen in FIG. 15.
- the parapet 114 ' is vertically movable, which is illustrated in FIG.
- the parapet 114 ' is also set up to releasably connect to the floor 112'.
- the balcony unit 110 ' can be moved horizontally by the rail system 132' relative to the counterforce unit 120 ', which is illustrated in FIG. 17 by a horizontal double arrow. 17 shows the balcony unit 110 'in its balcony state.
- the balcony unit 110 ' is located above the counterforce unit and protrudes forward over it. In particular, the balcony unit 110 'protrudes out of the window 10, whereby an outer balcony is formed.
- a temporary balcony can be provided by this balcony system known from EP 2 649 249 B1.
- the structure may require strength and care from the user, particularly when moving the mobile balcony system and when positioning and
- Balcony system could be pushed to places in the building structure that are not statically designed for this load, which would result in danger to life and limb.
- this mobile balcony system can be transformed into a piece of furniture, but the freedom of design regarding the type, shape, weight and function of the piece of furniture is limited by its function as a mobile balcony system.
- a balcony system for use with a
- Building opening of a building structure typically a window, provided.
- Balcony system includes a balcony unit that is set up to protrude from the building opening, a counterforce unit that is set up to compensate for forces acting on the balcony unit, and a first connecting element that connects the balcony unit and the counterforce unit.
- the counterforce unit comprises a base unit, an attachment unit on the base unit and a second connecting element.
- the base unit is set up for a stationary installation with respect to the building structure, typically for a stationary installation on a floor of the building structure.
- the first connecting element connects the balcony unit and the top unit.
- the second connecting element connects the top unit and the base unit.
- the top unit is movable relative to the base unit.
- the second connecting element can e.g. include a rail on the underside of the top unit.
- Balcony system as a temporary balcony for a building opening, typically for a window.
- a method for setting up a temporary balcony includes establishing one described herein
- Balcony system in a building structure that has a building opening wherein the installation of the balcony system is a stationary installation of the base unit of the building structure
- Balcony system includes. The method further comprises moving the top unit relative to the base unit so that the balcony unit connected to the top unit is moved in front of the building opening, and moving the balcony unit relative to the top unit so that the
- FIG. 1 shows a side view of a balcony system according to the one described herein
- Figs. 2-4 show side views of a balcony system as described herein
- FIG. 5 shows a longitudinal sectional view of a balcony system according to the one described herein
- Fig. 6 shows a cross-sectional view of Fig. 5; 7 shows a partial exploded view of a balcony system according to the one described herein
- Figs. 8-10 show a balcony system in accordance with embodiments described herein in FIG.
- Figs. 11-13 show a balcony unit of a balcony system according to the one described herein
- Figs. 14-17 show a prior art balcony system
- Figs. 18-19 show a balcony system in accordance with embodiments described herein.
- statically closed system or synonymous "statically self-contained system”, which is used herein, means that such a system is capable of standing, ie, only needs the floor on which it stands to at least your own weight to compensate.
- a statically closed balcony system can typically not only compensate for its own weight forces without tipping, but also the weight forces of a load (up to a predetermined maximum load) and possibly also lateral forces.
- statically closed system does not exclude that such a system, although in principle capable of standing freely, nevertheless exerts forces on the building structure at other points than on its
- Stand space can be transferred, e.g. by pressing devices as described in EP 2 649 249 B1.
- the content of EP 2 649 249 B1 is hereby incorporated in its entirety by reference, at least insofar as it does not conflict with features of the embodiments described herein.
- the statically closed system does not necessarily have to be free-standing, but must have the ability to do so.
- non-intrusive that is used herein means that a corresponding non-intrusive system is provided and set up to connect to a building structure that does not interfere with the building structure. There is an intervention in the building structure in particular if the system comprises screws, bolts, nails, anchors or similar holders which penetrate into the building structure in order to connect the system to the building structure or which are intended for this purpose. Permanent connection to the building structure, e.g. by welding or gluing or similar measures, means an intervention in the building structure, and a system permanently connected to the building structure is not to be regarded as free of structural structure interference. On the other hand
- Pressing devices e.g. Stamps that only press against the building structure, e.g. laterally against the building opening, and after use, are not considered as interfering with the building structure.
- a system is “essentially free of structural structure interference” if it interferes with the building structure at most with one or more statically insignificant parts.
- the one or more parts are statically immaterial if it is not that alone or in combination
- the dead weight of the system may not be able to hold the dead weight and a predetermined maximum load that may result from safety regulations.
- a statically closed balcony system in the sense explained above, which is in principle free, but which is statically insignificant screwing or anchoring with the
- a balcony system is provided.
- the balcony system is set up for use with a building opening of a building structure.
- the building opening can typically be a window.
- windows, at least in living rooms, have a minimum distance (parapet height) from the floor that
- Building structure is suitably suitable if it takes this spacing into account, e.g. at least 60 cm or at least 80 cm.
- the balcony system can be a statically closed system. After a few
- the balcony system is essentially free of building structure interference or even free of structural structure intervention.
- the balcony system is statically closed and essentially free of structural structure interference.
- the balcony system is a temporary, statically closed, and / or building structure intervention-free balcony system.
- the balcony system can be free-standing.
- a free-standing balcony system essentially does not transmit any forces to the building structure outside of its stand area. An insignificant power transmission takes place if it has no support function.
- a free-standing balcony system can have different parts of the building structure than its own
- the balcony system comprises a balcony unit.
- the balcony unit is set up to protrude from the building opening.
- the balcony unit is set up to temporarily protrude from the building opening.
- the balcony unit can be movable relative to other components of the balcony system, in particular relative to a counterforce unit, the
- the balcony unit can be moved out and back in through the building opening.
- the balcony unit together with an attachment unit of the counterforce unit described here, can be movable towards and away from the building opening, while a base unit of the counterforce unit described herein remains stationary with respect to the building structure at a distance from the building opening.
- the balcony unit can be movable relative to the top unit.
- the balcony unit can in particular be moved relative to the top unit when the top unit has reached its extended end position in which the front end of the top unit is in contact with the
- the building opening has moved up.
- the balcony unit can by the relative movement
- Attachment unit can be moved out of the building opening.
- the balcony unit forms in the state in which it protrudes from the building opening, the balcony of the balcony system. This is described below with the term “the balcony unit in its balcony state”.
- the balcony unit can, for example, be in one retracted condition, in which it can even be broken down into parts (such as floor, parapet / railing or even railing sections).
- the balcony system is in the balcony state when the top unit is moved towards the building opening and the balcony unit protrudes from the building opening.
- the balcony system is in a compacted state when both the balcony unit and the top unit are retracted.
- the balcony system is in the set-up state when the top unit is moved towards the building opening, but the balcony unit has not (yet) been pushed out through the building opening.
- the direction in which the balcony unit is movable relative to the counterforce unit, or in which the attachment unit is movable relative to the base unit, is referred to as the longitudinal direction and dimensions in this direction are referred to as lengths.
- the “forward” direction should be the direction in which the top unit and the balcony unit are extended in order to erect the balcony, and the backward direction should be the direction in which the top unit and the balcony unit are moved in to open the balcony system compactify.
- the information "front” / "rear” or "front area” / "rear area” etc. should be understood accordingly.
- the transverse direction, or lateral or lateral direction is perpendicular to the longitudinal direction and, like the longitudinal direction, extends in a horizontal plane. Left and right should refer to one
- widths dimensions in the transverse direction.
- heights dimensions in the vertical direction.
- top, bottom, etc. are used.
- the balcony system comprises a counterforce unit.
- the counterforce unit is for
- Compensate for forces acting on the balcony unit Such forces can in particular be weight forces, e.g. the weight of the balcony unit and possibly other loads, such as people. Lateral forces can also occur and be compensated, e.g. Forces that arise when people act on a parapet of the balcony unit or when wind attacks the balcony unit (wind loads). It is under one
- predetermined maximum forces meant. These maximum loads can e.g. be specified by DIN 1055. DIN 1055 is fully incorporated here by reference. Typically, the predetermined maximum forces include a predetermined maximum load that is the same for conventional building icons associated with the building structure. Also can
- the balcony system comprises a first connecting element that connects the balcony unit and the counterforce unit. Forces acting on the balcony unit can be transmitted to the counterforce unit through the first connecting element.
- the counterforce unit can be set up to compensate for a large part of the forces acting on the balcony unit without intervention in the building structure, typically even all forces acting on the balcony unit.
- the weight of the counterforce unit can be used to compensate for the
- the attacking forces can also be compensated for in whole or in part by other forces which are exerted by components of the counterforce unit. This could e.g. Pressing devices of an attachment unit of the counterforce unit.
- the counterforce unit is different from the building structure.
- Counterforce unit is also different from elements that are firmly connected to the building structure or that intervene in the building structure and that are structurally important for the balcony system, e.g. anchoring to the wall, but also heating. This does not exclude that the balcony system could additionally have such systems that intervene in the building structure, especially if these are statically immaterial. This could e.g. Exceptional safeguards to prevent the balcony from tipping over even when the maximum loads are exceeded.
- the balcony system can, according to some embodiments, provide a balcony without having to make structural changes to the building.
- the balcony system can be used without constructive connections with the
- the balcony system can be used for most average apartments. At the same time, expensive conversion costs are often saved. In particular, if the balcony system is statically closed in itself, safe use can be made possible. Due to the counterforce unit connected to the balcony unit, the balcony can be safe for use independently of any action by a user.
- the counterforce unit comprises a base unit and an attachment unit.
- the base unit is set up for a stationary installation with respect to the building structure.
- the base unit can typically be set up for stationary installation on a floor of the building structure.
- the base unit can be immobile as intended due to a fixed installation.
- the base unit can therefore also be referred to as immobile. If the balcony system is statically closed in itself and there is no structurally insignificant, constructive connection with the building structure, the balcony system as a whole and thus also the base unit could possibly be moved by large forces which may exceed that of a person, similar to a heavy bed or closet, but in the same sense would also be described as immobile and stationary.
- the base unit can have a footprint.
- the footprint can be at the bottom of the base unit, i.e. on the side facing a floor of the building structure, and can consist of several individual areas or be connected.
- the footprint can cover at least part of the load of the balcony system and any loads on it, e.g. Pass people on to the floor of the building structure and thereby activate this floor statically.
- the base can be roughened or rubberized in order to prevent or at least make it difficult to move the base unit.
- the base unit can have a height that is greater than the height of a part of the attachment unit seated on the base unit. The height of the base unit and the height of the on the
- the counterforce unit can have a height that corresponds at least to the parapet height of the building opening, i.e. e.g. be at least 60 cm or at least 90 cm high.
- the height of the base unit can be more than 60%, more than 70%, more than 80% or even more than 90% of the total height of the counterforce unit. The height of the base unit can thus
- the top unit is movable relative to the base unit.
- the attachment unit can sit on the base unit.
- the attachment unit can comprise a seated part which sits on the base unit.
- the seated part can be essentially cuboid.
- the seated part can be plate-shaped.
- the attachment unit can comprise a support element which is set up for power transmission to the building structure.
- the support element can be set up for a power transmission before, during and after a relative movement between the attachment unit and the base unit which is stationary with respect to the building structure.
- the support element can have a height that is dimensioned such that the lowermost point of the support element touches the floor of the building structure when the attachment unit is seated on the base unit.
- the height of the support element can correspond to the height of the base unit.
- the support element can be arranged on the underside of the part of the attachment unit seated on the base unit.
- the support element can be attached as a separate part to the underside of the seated part, the attachment being detachable or permanent, e.g. screwed or riveted.
- the supporting element can comprise a roller unit.
- a roller unit in the sense used herein can have a roller whose axis is mounted in a body of the roller unit, or can have several, in particular two, rollers whose axes are parallel to one another in the body the roller unit are stored.
- the body of a roller unit can be made of metal.
- Roller unit can in particular be a separate component that can be connected to other components, e.g. by screws or other assembly.
- the roller unit can have one or more axes oriented in the transverse direction of the balcony system, wherein one, two or even more than two rollers can be arranged on each of the one or more axes.
- Support element can comprise two or more roller units of the type described, the axes of which can be oriented in the transverse direction of the balcony system.
- the support element can comprise a rolling system with a number of 2, 3, 4 or more roller units.
- Roller units of the support element can be arranged on the underside of a body of the support element.
- the body can e.g. Be cuboid.
- the support element can be set up in such a way that the roll, or the rolls, of the one or more roll units rolls over the floor of the building structure or over a base plate of a static module of the base unit, or roll when the add-on unit is moved relative to the base unit.
- the support element can be set up in such a way that it can slide over the floor of the building structure or over a base plate of a static module of the base unit when the attachment unit is moved relative to the base unit.
- the underside of the body of the support element can consist of a lubricious material, such as made of felt or other pressure-resistant textiles.
- the top unit can be designed as a linearly movably clamped support relative to the base unit, i.e. as a carrier, which has a direction of movement, while it is otherwise a clamped carrier. If the top unit is extended and locked in the assembled state, the top unit can be a clamped carrier in this state, i.e. a carrier to whom no
- the part of the attachment unit seated on the base unit can be designed as a linearly movably clamped carrier.
- the attachment unit, or the part of the attachment unit seated on the base unit can be designed as a supported support which is clamped in a linearly movable manner.
- the support can only be effected by the support element.
- the support unit, which is designed as a clamped support could be supported partly or exclusively by a static module of the base unit described below or even from the lower side of the building opening, e.g. a ledge or window sill of the building opening. In the latter case, the wall with the building opening would be activated statically and the balcony system would not be statically closed in itself.
- the counterforce unit comprises a second connecting element.
- Connection element connects the top unit and the base unit.
- Connecting element can the top unit and the base unit in a second
- the second connecting element can be a first rail on the Grasp the underside of the top unit.
- the first rail of the second connecting element can be arranged along the longitudinal direction of the balcony system.
- the first rail can do that
- the second connecting element can comprise a second rail system.
- the second rail system can include the first rail.
- the second rail system can comprise a second rail on the underside of the top unit.
- the first rail and the second rail of the second rail system can be oriented along the longitudinal direction of the balcony system, that is to say parallel to one another, and can be spaced apart from one another in the transverse direction.
- the second connection element can connect the top unit and the base unit in the second connection area through the second rail system.
- the second connecting element or the second rail system can comprise two roller units spaced apart from one another in the longitudinal direction of the balcony system.
- a roller unit can have a roller whose axis is mounted in a body of the roller unit, or can have several, in particular two, rollers whose axes are parallel to one another in the body of the
- Roller unit are stored. These axis (s) can be horizontal in particular.
- a roller unit can, in particular if it is designed for running in a rail, also have one or possibly several rollers whose axis is vertical. Such a roller with a vertical axis can ensure the lateral distance to the walls of a rail with a hollow profile in the barrel.
- the two roller units can be attached to the top of the base unit.
- the rollers of the two roller units of the second connecting element which are spaced apart in the longitudinal direction of the balcony system, can engage in the first rail of the second connecting element or the second rail system. Said roles can run in the first rail.
- the first rail can enclose these rollers so that the rollers are limited to one run in the first rail.
- the first rail can have a corresponding hollow profile.
- the attachment unit can be designed as a linearly movably clamped support relative to the base unit. Running points of the rollers of the two roller units that are most distant from one another in the longitudinal direction can define the second connection region.
- the second connecting element or the second rail system can comprise a further two roller units which cooperate with the second rail of the second rail system.
- the further two roller units can be spaced apart from one another in the longitudinal direction of the balcony system, preferably at the same distance as the first two roller units, and can be spaced apart from the first roller units in the transverse direction of the balcony system.
- the two further roller units can be attached to the top of the base unit.
- the roles of the other two roller units of the second connecting element can in the second rail of the second connecting element, or the second rail system. The roles can run in the second rail.
- the second rail can enclose the rollers of the further two roller units, so that these rollers are limited to one run in the second rail.
- the second rail can have a corresponding hollow profile. In this way, the attachment unit can be designed as a linearly movably clamped support relative to the base unit.
- Connecting element can comprise further rails and roller units of the type described.
- the second connecting element or rail system could also consist exclusively of rails, with corresponding rails and
- the first rail of the second rail system can surround or be surrounded by a first complementary rail, the first complementary rail being attached to the top of the base unit.
- the first complementary rail can be shorter than the first rail and can define the second connection area.
- a second complementary rail can be provided for the second rail of the second rail system.
- Complementary rails made of a low-friction material or be coated with such a low-friction material on the surfaces sliding relative to each other.
- the stationary positioning of the base unit with respect to the building structure means that when the attachment unit and base unit move relative to each other, the attachment unit moves relative to the building structure, while the base unit remains stationary and stationary.
- the relative movement of the top unit and base unit can serve in particular to move the front end of the top unit in the longitudinal direction of the balcony system towards the building opening. A distance that the balcony system may have in a compacted state from the building opening can thereby be overcome.
- the length of the top unit can be accordingly
- the length of the top unit can be substantially equal to the length of the second connection area plus the length of the projecting part of the top unit in the extended state, wherein the length of the projecting part can correspond to the distance to the building opening.
- Connecting element can be set up, a relative movement of the top unit
- the top unit can be at least temporarily, namely in the construction state and / or balcony state of the balcony system, projecting from the base unit.
- the attachment unit can therefore be set up, one Training the cantilever.
- the base unit can be attached to the second unit
- the freedom of movement of the attachment unit in the longitudinal direction relative to the base unit can be limited.
- the attachment unit, or the part of the attachment unit seated on the base unit can have a rear end which lies opposite a front end, the front end being the end which lies on that part of the attachment unit which can protrude beyond the base unit.
- the first rail of the second connecting element can have a first stop element.
- the first stop element can be located at the rear end of the top unit.
- the first stop element prevents the attachment unit from moving forward in the longitudinal direction when the first stop element interacts with a first complementary stop element which is attached to the base unit.
- the first stop element can be a closed rear end of the first rail.
- the first complementary stop element can be the rearmost role of the rear
- the first complementary stop element can be a rear end of a first complementary rail.
- the first rail of the second connecting element can have a second stop element.
- the second stop element can be located at the front end of the top unit.
- the second stop element prevents the attachment unit from moving further backwards in the longitudinal direction in that the second stop element interacts with a second complementary stop element which is attached to the base unit.
- the second stop element can be a closed front end of the first rail.
- the second complementary stop element may be the foremost roller of the front roller unit of the two spaced longitudinally
- the second complementary stop element can be a front end of a first complementary rail.
- the same can apply to the second rail of the second connecting element in interaction with the further two rollers spaced in the longitudinal direction, or alternatively in interaction with a second one
- the second stop element can be formed from the rear of the support element and the complementary second stop element from the front of the base unit. When retracting, the rear of the support element and the front of the base unit can collide and prevent further movement. Additionally or alternatively, the first stop element can also be formed from the front of the support element.
- the wall with the building opening can serve as a complementary stop element, which prevents the top unit from moving forward.
- the freedom of movement of the attachment unit in the longitudinal direction relative to the base unit can correspond to the length of the projecting part of the attachment unit, possibly less the length of the support element.
- the counterforce unit can comprise a counterweight to compensate for at least a large part of the forces acting on the balcony unit.
- the counterforce unit can comprise a counterweight that is set up to compensate for all the forces acting on the balcony unit.
- the weight of other parts of the counterforce unit, and possibly also other devices, for example pressing devices, can also lead to partial compensation of said forces.
- a counterweight that is set up is all on the balcony unit
- the counterweight is dimensioned in such a way that the balcony unit in its balcony state, due to the counterweight, only satisfies national safety regulations regarding statics, without relying on other compensation mechanisms.
- counterweight is referred to herein as a counterweight unit.
- Balcony systems according to embodiments described herein can be one
- Have counterweight unit i.e. a counterforce unit that includes a counterweight.
- the counterweight can be set up to compensate for at least a large part of the forces acting on the balcony unit, typically for compensating all of the forces
- the counterweight can be arranged in the top unit.
- the counterweight can be arranged above the base unit.
- the counterweight can be accommodated in the part of the seat unit that is seated on the base unit.
- the counterweight can be arranged in a rear area of the top unit with respect to the longitudinal direction of the balcony system, e.g.
- the counterweight can lie above the base unit in any state of the balcony system and statically activate the base unit or only a statically active module of the base unit via the second connecting element.
- the mass of the counterweight can be such that the weight of the
- Counterweight can compensate all forces acting vertically on the balcony unit up to a predetermined maximum load, in particular the dead weight of the balcony unit plus the weight of persons or objects on it. More precisely, the mass and position of the counterweight as well as the base / pivot point of the balcony system (eg via the end position of the support element at the building opening) can be selected so that corresponding torques can be compensated for.
- the mass of the counterweight can be, for example, between 100 and 400 kg, typically between 150 and 300 kg, for example approximately 200 or approximately 250 kg.
- the counterweight can, for example, be made of concrete, metal, for example iron, steel or lead, in a suitable water Tank, a bulk material such as sand in a suitable container, or combinations thereof.
- the counterweight can be composed of partial weights, for example of individual concrete slabs.
- the partial weights can be dimensioned so that they can be carried by one person.
- the partial weights can be, for example, not more than 50 kg, typically not more than 40, 30 or even 20 kg.
- Forces acting laterally on the balcony unit for example due to the impact of people on the parapet or wind loads, can be passed on to the base unit via the second connection area.
- the mass of the counterweight and the mass of the base unit, or the mass distribution of these components, can be selected so that all forces or corresponding torques can be compensated up to predetermined maximum loads.
- the base unit can have a modular structure.
- the base unit can comprise a basic module.
- the basic module is set up to interact with the top unit via the second connecting element.
- the basic module can carry the components of the second connecting element on the base unit side.
- the roller units spaced apart in the longitudinal direction can be attached to the basic module.
- the basic module can comprise two elements running in the transverse direction, which have a distance from one another in the longitudinal direction that is equal to the distance of the roller units in the longitudinal direction.
- the roller units of the second connecting element can be mounted on the elements running in the transverse direction.
- the basic module can have one or more elements running in the longitudinal direction, which connects the elements running in the transverse direction. As a result, the basic module can provide a stiffened frame structure that represents a platform for the top unit.
- the basic module viewed in supervision, can be looking from top to bottom, e.g. have the shape of an elongated H, the connecting web corresponding to the longitudinal element and the two parallel lines corresponding to the transverse elements.
- the basic module can be set up to absorb all of the forces acting on the balcony system that are transmitted via the add-on unit, with the exception of the forces derived via the support element, in particular weight forces of the counterweight, and to transmit these to the floor of the building structure.
- the basic module can be set up for an installation that is stationary with respect to the building structure, in particular for an installation on the floor of the building structure or on a static module of the base unit.
- the base unit can have one or more additional modules. Additional modules can be set up to provide furniture functionality. For example, an additional module can be a shelf, a chest of drawers, a cupboard, a bed or part of the aforementioned pieces of furniture. Additional modules can be added to the basic module or inserted in the spaces between the basic module.
- the basic module, the add-on unit and / or the balcony unit can add to the functionality of the furniture or the several additional modules contribute, in particular in the compacted state of the
- the one or more additional modules can make the base unit or the balcony system one or more pieces of furniture, possibly in cooperation with the basic module, the add-on unit and / or the balcony unit.
- the additional modules can be insignificant for the functionality of the balcony system, which consists in providing a balcony, and / or for the statics of the balcony system.
- the additional modules can be freely selected in order to provide any desired furniture functionality (s) without having to comply with special security requirements that are required to provide a
- the one or more additional modules can be set up for installation that is stationary with respect to the building structure, in particular on the floor of the building structure or on a static module of the base unit.
- the base unit can comprise a static module.
- the static module can be set up to distribute forces exerted by the balcony system over a floor area of the building structure and / or to compensate for uneven floors of the building structure.
- the static module can comprise a base plate.
- the floor slab can be a load-distributing slab for distributing the forces exerted by the balcony system over a floor area.
- the base plate can be arranged so that the support element of the attachment unit can roll or slide over it.
- the base plate can extend in the longitudinal direction of the balcony system at least between a front end of the basic module and the building opening, but can also extend below the basic module and / or the additional module or the additional modules. In the transverse direction, the base plate can have at least the width of the support element.
- the bottom plate can hold at least one of
- the static module can comprise supports and / or bases which are arranged under the base plate. Beams can in particular be set up to distribute the forces exerted by the balcony system over the floor area of the building structure. Bases can be used in particular for leveling and / or leveling
- the static module could also include a mounting element for the mounting unit, in particular if the mounting unit has no support element.
- Attachment element can, for example, be located at the building opening and extend vertically, the height of the attachment element being dimensioned such that the attachment unit is placed on the attachment element when it is extended and can be supported thereon.
- the attachment element could consist of posts or a plate which is / are connected to the base plate.
- the first connecting element which connects the balcony unit and the counterforce unit, can transmit the forces acting on the balcony unit to the counterforce unit, which can typically compensate for at least a large part or even all of these forces.
- the first connecting element which connects the counterforce unit and the balcony unit, connects the balcony unit and the top unit of the counterforce unit.
- the first connection element can connect the balcony unit and the top unit in a first connection area, for example in a section of a first rail system.
- the balcony unit and the counterforce unit in one or more connection points between the balcony unit and the top unit, typically in one or more joints. Joints can be arranged in a line, e.g. an upper front edge of the attachment unit or even a linear joint.
- the first connecting element can also be a tensile structure and / or a pressure structure, e.g. comprise a tension rod, compression rod or tension-compression rod. The tensile structure and / or pressure structure can transmit forces acting on the balcony unit to the counter unit of the counterforce unit.
- the first connecting element can comprise a first rail on the underside of the balcony unit.
- the first rail of the first connecting element can be arranged along the longitudinal direction of the balcony system.
- the first rail of the first connecting element can
- the first connecting element can comprise a first rail system.
- the first rail system can include the first rail of the first connecting element.
- the first rail system can comprise a second rail on the underside of the balcony unit.
- the first rail and the second rail of the first rail system can be arranged parallel to one another along the longitudinal direction of the balcony system and spaced apart from one another in the transverse direction.
- the first connecting element can be the balcony unit and the top unit in the first
- the first connecting element or the first rail system can comprise two roller units spaced apart from one another in the longitudinal direction of the balcony system.
- a roller unit can have a roller whose axis is mounted in a body of the roller unit, or can have several, in particular two, rollers whose axes are mounted parallel to one another in the body of the roller unit. These axis (s) can be horizontal in particular.
- a roller unit can, in particular if it is designed for running in a rail, also have one or possibly several rollers whose axis is vertical. Such a roll with a vertical axis can ensure the lateral distance to the walls of a rail with a hollow profile in the barrel.
- the two roller units can be attached to the top of the top unit.
- the rollers of the two roller units of the first connecting element which are spaced apart in the longitudinal direction of the balcony system, can engage in the first rail of the first connecting element or the first rail system.
- the rollers can run in the first rail of the first rail system.
- This first rail can surround the rollers, so that the rollers are limited to one run in the first rail of the first rail system.
- the first rail of the first rail system can be one
- the balcony unit can be designed as a linearly movably clamped support in relation to the top unit.
- Running points of the most distant rollers in the longitudinal direction of the two roller units of the first rail system can define the first connection area.
- the first connecting element or the first rail system can have two more
- the further two roller units can be spaced apart from one another in the longitudinal direction of the balcony system, preferably at the same distance as the first two roller units of the first rail system, and can be spaced apart from the first roller units in the transverse direction of the balcony system.
- the two further roller units can be attached to the top of the top unit.
- Connecting elements can engage in the second rail of the first connecting element or the first rail system.
- the rollers can run in the second rail of the first rail system.
- the second rail of the first rail system can have the roles of the other two
- the second rail of the first rail system can have a corresponding hollow profile.
- the balcony unit can be designed as a linearly movably clamped support in relation to the top unit.
- the first connecting element can comprise further rails and roller units of the type described.
- the first rail system could also consist exclusively of rails, with corresponding rails and complementary rails of the first connecting element sliding into one another.
- the first rail of the first connecting element could also consist exclusively of rails, with corresponding rails and complementary rails of the first connecting element sliding into one another.
- the first rail of the first connecting element could also consist exclusively of rails, with corresponding rails and complementary rails of the first connecting element sliding into one another.
- Rail system border a first complementary rail or be framed by this, the first complementary rail is attached to the top of the top unit.
- Complementary rail can be shorter than the first rail and can define the first connection area.
- a second complementary rail can be used for the second rail of the first Rail system may be provided.
- the rails and / or complementary rails can be made from a low-friction material or coated with such a low-friction material on the surfaces sliding relative to one another.
- the relative movement of the balcony unit and the top unit can in particular serve to move the front end of the balcony unit in the longitudinal direction of the balcony system out of the building opening.
- the length of the balcony unit can be substantially equal to the length of the first connection area plus the length of the projecting part of the balcony unit in the extended state.
- the first connecting element can be set up to enable a relative movement of the balcony unit and counterforce unit in order to bring the balcony unit into its balcony state and / or to bring it out of this state.
- the balcony unit can at least temporarily, namely in the balcony state of the balcony unit, project from the counterforce unit.
- the balcony unit can therefore be set up to form a cantilever.
- the balcony unit can be firmly connected to the top unit of the counterforce unit via the first connecting element.
- the freedom of movement of the balcony unit in the longitudinal direction relative to the top unit can be limited.
- the balcony unit may have a rear end that is opposite a front end.
- the first rail of the first connecting element can have a first stop element.
- the first stop element can be at the rear end of the balcony unit.
- the first stop element prevents the balcony unit from moving forward in the longitudinal direction when the first stop element interacts with a first complementary stop element which is attached to the top unit.
- the first stop element can be a closed rear end of the first rail of the first connecting element.
- the first complementary stop element can be the rearmost roller of the rear roller unit of the two longitudinally spaced roller units of the first connecting element.
- the first complementary stop element can be a rear end of a first complementary rail of the first connecting element.
- the first rail of the first connecting element can have a second stop element.
- the second stop element can be at the front end of the balcony unit.
- the second stop element prevents the balcony unit from moving further backwards in the longitudinal direction in that the second stop element interacts with a second complementary stop element which is attached to the top unit.
- the second stop element can be a closed front end of the first rail of the first connecting element.
- the second complementary stop element can be the foremost roller of the front roller unit of the two longitudinally spaced roller units of the first connecting element.
- the second complementary stop element can be a front one End of a first complementary rail of the first connecting element. The same can apply to the second rail of the first connecting element in interaction with the other two rollers of the first connecting element spaced in the longitudinal direction, or alternatively in
- the freedom of movement of the balcony unit in the longitudinal direction relative to the top unit can correspond to the length of the projecting part of the balcony unit.
- first connecting element and the second connecting element are concerned, e.g. Rails or rollers (units), in the description described here that a component is attached to the base unit, the basic module, the top unit or the balcony unit, or is attached to a top or bottom thereof, this also includes the possibility of that the corresponding component can be wholly or partially embedded in the unit or module in question, eg in recesses.
- the first rail of the second connecting element could be embedded in the underside of the attachment unit, so that this first rail is flush, i.e. does not protrude.
- attachment also includes situations in which these components are at least partially integrated in the units or modules in question or are integrally formed with them.
- the balcony system is typically a temporary balcony system.
- a balcony can be set up by the balcony system if necessary and removed when the need is eliminated.
- a window can be temporarily converted into a balcony access if a balcony is temporarily set up by the temporary balcony system and then removed again. Otherwise the window can usually be used. This is especially true if the balcony system creates a balcony without interfering with the building structure, which can then be removed without a trace. Due to the possibility of compactification, the balcony system takes up little space when it is not being used as a balcony. Parts of the
- Base unit can form one piece of furniture or several pieces of furniture, e.g. a bed, a closet, or a combination thereof.
- the balcony unit can comprise a floor.
- the floor can serve as a stand for loads such as people if the balcony unit protrudes from the building opening and forms a balcony.
- the balcony unit can comprise a restraint device, for example in the form of a parapet, a railing or a railing. The restraint is used to prevent people or objects from falling off the balcony unit in their balcony state.
- the retaining device can be firmly connected to the floor or releasably connectable to the floor.
- the balcony unit may include a floor and a restraint.
- the Bottom can be designed as a linearly movably clamped carrier or the retaining device can be designed as a carrier.
- the bottom can be cuboid, in particular plate-shaped.
- the balcony system can temporarily provide a balcony, namely if the balcony unit is in its balcony state while the balcony system is closed other times can be compactized.
- the balcony unit can itself be compactifiable.
- the compactification of the balcony unit can complete the compactification of the balcony system.
- the balcony system can be set up in such a way that the balcony unit cannot be compacted when it is set up and in the balcony state, but can only be compactified if the balcony unit and the top unit are retracted.
- the restraint can be compactified individually and the balcony unit
- fold-out parts consist, in particular of individually foldable and fold-out railing sections, such as two side sections and one front section and possibly two
- the railing sections can be connected to the floor of the balcony unit via hinges and / or joints.
- the railing sections can be set up in such a way that they can be folded inwards onto the floor, while when they are opened they cannot be moved outwards beyond an orientation perpendicular to the floor.
- the railing sections can be designed to releasably connect to one another in the unfolded state.
- the balcony system described here has a number of advantages over the previously described, known balcony system. Due to the fixed positioning of the base unit, the orientation of the balcony system, in particular its longitudinal direction, is predetermined. At the same time, a suitable distance from the building opening is determined. Thus, as with a fully mobile balcony system, careful handling, positioning and alignment by the user are not important, e.g. to ensure a stable, wobble-free installation
- the entire weight of the balcony system does not have to be moved, which greatly simplifies assembly.
- the mobility of the add-on unit relative to the base unit ensures that there is a distance from the building opening that is sufficient that access to the building opening is not permanently blocked and the building opening can be used as intended, e.g. can be opened and closed in the case of a window.
- the floor is also less worn out than in the completely mobile one
- Balcony system especially if the counterweight is always above the fixed base unit, while, for example, a support element that rolls over the floor is generally much less stressed during the rolling process.
- the floor areas of the building structure that are statically loaded by the balcony system are fixed. It can be ensured that these floor areas are designed statically for this load, for example passively by testing or, if necessary, actively by using a static module of the base unit. This can rule out danger to life and limb.
- a modular structure of the base unit in particular by a basic module that stands for the balcony functionality, increases the design freedom for an additional use of the balcony system as one or more pieces of furniture. Additional modules, even for the
- Balcony functionality and in particular do not have to do anything for the security of the temporary balcony can be designed almost arbitrarily, e.g. to make a bed, a closet, a shelf, a chest of drawers or combinations thereof.
- the potential pivot point of the balcony system is conveniently positioned to reduce the lever arm of the balcony unit in its extended state and to make it difficult to tilt the balcony system or to allow the maximum load where this would happen to increase.
- connection element must not be able to withstand essentially any tensile forces.
- Connecting element e.g. in the form of a second rail system with rails and inside
- any remaining tensile forces acting on the second connecting element could be those that can arise when the balcony unit is loaded in the transverse direction, e.g. due to wind load.
- the base unit can absorb such forces via the second connecting element and to the
- FIG. 1 shows an embodiment of a balcony system 100.
- a side view of the balcony system 100 is shown.
- the lateral or transverse direction is perpendicular to
- the direction is the up-down direction in FIG. 1.
- the balcony system comprises a balcony unit 110, a counterforce unit 120 and a first connecting element 130, which connects the balcony unit 110 and the counterforce unit 120.
- the counterforce unit 120 comprises a base unit 220, a top unit 225 and a second connecting element 230.
- the base unit 220 can be set up in a fixed position with respect to a floor of a building structure.
- the second connecting element 230 connects the attachment unit 225 and the base unit 220.
- the attachment unit 225 is movable in the longitudinal direction relative to the base unit 220, as indicated by the double arrows.
- Top unit 225 and balcony unit 110 are each shown in the forward-shifted state, i.e. the balcony system is in balcony condition.
- the balcony unit 110 can be movable relative to the top unit 225, as indicated by the corresponding double arrows.
- the connecting element 130 can be designed as a connecting region 131.
- the balcony unit 110 may include a floor 112 and / or a restraint 114 (parapet element, railing).
- the base can be designed as a linearly movably clamped support, which is linearly moveable but is otherwise clamped in the connecting area 131.
- Connecting element 230 can be designed as a second connecting area 231.
- Top unit 225 may include a part 226 seated on the base unit.
- Attachment unit 225 can be designed as a linearly movably clamped support, which is linearly moveable but is otherwise clamped in second connection area 231.
- the attachment unit can comprise a support element 228.
- the support element 228 can support the seated part 226, so that the attachment unit can be a linearly movable, but otherwise clamped in the second connection area 231, supported by the support element 228.
- the balcony system 110 can have a counterweight 125 arranged in the top unit 225, in particular a counterweight arranged at the rear end of the seated part 226.
- a counterweight may be provided in all of the embodiments described herein, even if it is not shown in an illustration.
- the balcony system is shown in Fig. 2 in the balcony state.
- FIG. 3 shows the balcony system of Fig. 2 in the set-up state, in which the top unit 225 is shown in the forward, ie extended, state, while the balcony unit 110 is shown in the retracted state, in which the balcony unit 110 does not have the top unit 225 in Longitudinal direction protrudes from the front.
- FIG. 4 shows the balcony system from FIG. 2 in the compacted state, in which both the top unit 225 and the balcony unit 110 are in the retracted state.
- the balcony unit 110 can be dismantled, for example by the
- Restraint device 114 detached from the floor and comes to lie laterally next to the counterforce unit 120 or by folding the restraint device 114 into individual parts (cf. FIGS. 11-13).
- FIG. 5 shows a view of the balcony system 100 in longitudinal section and FIG. 6 shows a view in cross section.
- Figs. 5 and 6 are also a building structure 1, e.g. a room, and a building opening 10, in this case a window.
- the balcony system comprises a first rail system 270 and a second rail system 280, the first rail system 270 connecting the balcony unit 110 and the top unit 225 in the first connection area 131 and the second rail system 280 connecting the top unit 225 and the base unit 220 in the second connection area 231 connects.
- the base unit 220 comprises a basic module 250 which is designed as a stiffened frame structure with two transversely extending walls 252, 256 spaced apart from one another in the longitudinal direction and an intermediate piece connecting them in the longitudinal direction. Additional modules 260, which can give the balcony system 100 the functionality of a piece of furniture, are shown in Figs. 5 and 6 only indicated schematically.
- a first rail 272 and a second rail 276 of the first rail system 270 are attached to the underside of the balcony unit, the first rail 272 and the second rail 276 lying parallel and spaced apart from one another in the transverse direction.
- a first roller unit 273 and a second roller unit 275 of the first rail system 270, the rollers of which engage in the first rail 272 of the first rail system 270, are arranged at a distance from one another in the longitudinal direction and are attached to the top of the top unit.
- a first roller unit 277 and a second roller unit of the first rail system 270 are arranged at the same distance from one another in the longitudinal direction and are attached to the top of the top unit.
- a first rail 282 and a second rail 286 of the second rail system 280 are attached to the underside of the top unit 225, the first rail 282 and the second rail 286 lying parallel and spaced apart from one another in the transverse direction.
- the transverse distances between the first and second rails of the respective first and second rail systems are the same.
- a first roller unit 283 and a second roller unit 285 of the second rail system 280, the rollers of which engage in the first rail 282 of the second rail system 280, are arranged at a distance in the longitudinal direction from one another and on the respective upper sides of the walls 252, 256 of the basic module 250 of the base unit 220 attached.
- first roller unit 287 and a second roller unit of the second rail system 280 are arranged at the same distance in the longitudinal direction from one another and also on the respective upper sides of the walls 252, 256 of the basic module 250 of the base unit 220 attached.
- the support element 228 of the top unit 225 has a roller system 290 with four
- Roller units are attached to the underside of a body 229 of the support element 228 and can run over the floor 2 of the building structure 1.
- FIG. 7 shows a perspective view of the balcony system 100, in which the top unit 225 with the support element 228, the floor 112 and the retaining device 114 are shown in an exploded view.
- Figs. 8-10 show perspective views of the balcony system 100 in FIG. 7
- the stiffened frame structure 250 has the shape of an elongated H when viewed from above, the walls 252, 256 forming the legs of the H and the connecting wall 258 forming the connecting web of the H.
- the balcony system 100 is in compactified state, the balcony unit with floor 112 and retaining device 114 may also be further compactifiable.
- L, Q and V illustrate the longitudinal direction, the transverse direction and the vertical direction by double arrows.
- the balcony system 100 is shown in the construction state.
- the roller unit 296 is visible from a further two parallel roller units, which are at a distance in the transverse direction to the
- Roller units 292, 294 is attached to the underside of the body 229 of the support member.
- the support element 228 has been moved over the floor 2 of the building structure 10 to the building opening 10, the seated part of the attachment unit 225 overcoming the distance to the building opening and also overcoming the parapet height of the building opening on its upper side.
- the balcony unit with its floor 112 and the retaining device 114 can now be moved out of the building opening, so that the balcony system 100 assumes its balcony state. It puts the over the ledge
- Part of the balcony unit protruding from the building is a temporary exterior balcony.
- 11-13 show a perspective view of the balcony system 100, in which the
- Balcony unit is compactifiable in that the retaining device 114 is designed in the form of a railing and can be dismantled into individual parts and folded in and out.
- the restraint device 114 includes a first side railing section 330, a second side railing section 340, a frontal railing section 350, a first corner post 310 and a second corner post 320.
- the side railing sections 330, 340 have respective skirting boards mounted longitudinally on the top of the floor 112 332, 342. Parapet parts 334, 344 of the side
- Railing sections 330, 340 are connected to the skirting boards 332, 342 via respective hinges 335, 345.
- the corner posts 310, 320 are also connected to the skirting boards 332, 342 via hinges, only the hinge 315 of the first corner post 310 being visible from the two hinges.
- the front railing section 350 is connected to the skirting boards 332, 342 via a joint 355 and extends at the front end of the floor between the skirting boards 332, 342.
- FIG. 11 shows the balcony unit 110 in the compacted state, in which the front railing section 350 is folded in between the baseboards 332, 342, the balustrade part 344 of the second lateral railing section 340 is folded in over the frontal railing section 350, the balustrade part 334 of the first the side railing section 330 lies folded over the parapet part 344, the first corner post 310 lies folded over the first skirting board 332 and the second corner post 320 lies folded over the second skirting board 342.
- the front railing section 350 is folded in between the baseboards 332, 342
- the balustrade part 344 of the second lateral railing section 340 is folded in over the frontal railing section 350
- the balustrade part 334 of the first the side railing section 330 lies folded over the parapet part 344
- the first corner post 310 lies folded over the first skirting board 332
- the second corner post 320 lies folded over the second skirting board 342.
- FIG. 12 illustrates the structure of the restraint device 114, wherein first the two corner posts 310, 320 are opened vertically, then the parapet part 334 of the first side railing section 330, then the parapet part 344 of the second side railing section 340 and finally the frontal one
- Railing section 350 The directions of movement are indicated by dashed lines. 13 shows the balcony unit 110 in the assembled state.
- the undersides of the parapet parts 334, 344 and the undersides of the corner posts 310, 320 come to rest on the baseboards 332, 342, so that, in conjunction with the respective hinges, a folding movement beyond the vertical is blocked.
- the underside of the front railing section 350 comes to rest on the floor 112, so that a folding movement beyond the vertical is blocked in conjunction with the hinge 355.
- Each of the railing sections is set up to releasably connect to the respectively adjacent railing section or the adjacent railing sections. In this way, the restraint 114 becomes its restraint function for people or
- a balcony system could be designed so that its construction in the sequence of Figs. 11, 12, 13, 8, 9, 10 in this order, and its dismantling accordingly the other way round.
- a building structure is provided. This includes a building opening and a balcony system according to the embodiments described herein.
- the Building opening can have the dimensions and the parapet height of a window.
- the base unit of the counterforce unit can be placed in a fixed position on a floor of the building structure.
- the front unit of the counterforce unit can be moved or can be moved with its front end to the building opening.
- the balcony unit can protrude through the building opening or be movable through the building opening.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an a balcony system according to one of the embodiments described herein as a temporary balcony.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram illustrating an exemplary computing environment in accordance with the present disclosure.
- FIG. 1 A block diagram
- a method for setting up a temporary balcony includes establishing one described herein
- Balcony system in a building structure that has a building opening wherein the installation of the balcony system is a stationary installation of the base unit of the building structure
- Balcony system includes.
- the method includes moving the top unit relative to the
- the method comprises moving the balcony unit relative to the top unit so that the balcony unit protrudes from the building opening. Further result from the
- the base unit can be a height-adjustable one
- the base unit can be set up to assume a flat state and a high state.
- the height of the base unit in the high state together with the height of the part of the attachment unit seated on the base unit, can form an operating height of the counterforce unit that corresponds at least to the parapet height of the building opening, that is to say, for example, at least 60 cm or at least 90 cm high.
- the height of the base unit in the high state can be more than 60%, more than 70%, more than 80% or even more than 90% of the total operating height of the counterforce unit.
- the height of the base unit in the high state can thus essentially compensate for the parapet height of the building opening.
- the height of the base unit in the flat state together with the height of the part of the attachment unit seated on the base unit, can form a basic height of the counterforce unit.
- the base height of the counterforce unit can be less than 60 cm, less than 50 cm or even less than 40 cm.
- the height of the base unit in the flat state can be less than 50 cm, less than 40 cm or even less than 30 cm.
- a height-adjustable base unit can comprise a lifting system.
- the lifting system can be set up to transfer the base unit from the flat state to the high state and vice versa.
- the lifting system can be mechanical, electromechanical, hydraulic or a combination thereof.
- the lifting system can include a scissor lift.
- the scissor lift can comprise a base plate.
- the base plate can correspond to the base plate of the static module or be part of it.
- the scissor lift can comprise a cover plate.
- the scissor lift can have one, two or more scissors.
- the scissors or the scissors of the scissor lift can lie between the base plate and the cover plate and can be connected to them.
- the top of the cover plate can form the top of the base unit.
- the scissor lift can be operated manually or electrically.
- Figs. 18 and 19 show an embodiment of the balcony system 100 which has a height-adjustable base unit 220.
- 18 shows the height-adjustable base unit 220 in the flat state and correspondingly the counter-force unit 120 in the basic state
- FIG. 19 shows the height-adjustable base unit 200 in the high state and accordingly the counter-force unit 120 in the operating state.
- the height-adjustable base unit 220 comprises a scissor lift 251 which has a base plate 253, a cover plate 255, a first scissor 257 and a second scissor 259.
- the attachment unit 225 does not have its own support element in this embodiment.
- the balcony system includes a static module, which includes a mounting element 428.
- Attachment element 428 comprises a body 429 and a connecting piece 427.
- the attachment element 428 is fixed in place at the building opening 10 and extends vertically, so that the height of the attachment element 428 is equal to the height of the base unit 220 in the high state.
- the attachment element 428 is thus dimensioned such that the attachment unit 225 attaches to the attachment element 428 when it is extended and can be supported thereon.
- the connecting piece 427 ensures that the attachment unit 225 slides on the attachment element 428 and can connect the two parts to one another in a non-positive manner, the connection being releasable.
- a connector of the attachment element can consist of one or more elements from the group: rollers, bolts, bolts, screws and clamps.
- the connector 427 comprises a pair of rollers 426 onto which the attachment unit 225 can slide and a bolt 425, which the Attachment unit 225 and the attachment element 428 releasably connects.
- the combination of pair of rollers 426 and bolts 425 connects the attachment unit 225 and the attachment element 428 flush.
- the pair of rollers 426 is designed to be foldable, so that in the folded-in state, as shown in FIG. 18, it is subject to less contamination, while at the same time the surface of the attachment element 428 as
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Abstract
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102018129776.9A DE102018129776A1 (de) | 2018-11-26 | 2018-11-26 | Balkonsystem mit Gegenkrafteinheit |
PCT/EP2019/082594 WO2020109308A1 (fr) | 2018-11-26 | 2019-11-26 | Système de balcon doté d'une unité de force antagoniste |
Publications (3)
Publication Number | Publication Date |
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EP3887611A1 true EP3887611A1 (fr) | 2021-10-06 |
EP3887611B1 EP3887611B1 (fr) | 2024-06-19 |
EP3887611C0 EP3887611C0 (fr) | 2024-06-19 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP19813744.0A Active EP3887611B1 (fr) | 2018-11-26 | 2019-11-26 | Système de balcon doté d'une unité de force antagoniste |
Country Status (4)
Country | Link |
---|---|
US (1) | US11718983B2 (fr) |
EP (1) | EP3887611B1 (fr) |
DE (1) | DE102018129776A1 (fr) |
WO (1) | WO2020109308A1 (fr) |
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US2296413A (en) * | 1941-04-19 | 1942-09-22 | Lucian T Zell | Housing unit |
US2499498A (en) * | 1947-04-29 | 1950-03-07 | Jr John Hays Hammond | Mobile housing unit |
US3162277A (en) * | 1960-10-17 | 1964-12-22 | Markle Lafayette | Service facilities for building system |
SE373739B (fr) * | 1967-04-20 | 1975-02-17 | C J Bjorge | |
US4277920A (en) * | 1976-09-28 | 1981-07-14 | Panelfold Doors, Inc. | Portable and operable wall systems |
US4464868A (en) * | 1981-05-18 | 1984-08-14 | Howroyd Lawrence H | Building construction |
DE3541868A1 (de) * | 1985-11-27 | 1987-06-04 | Siegfried Silzle | Flugzeughalle |
FR2633651B1 (fr) * | 1988-06-30 | 1994-04-01 | Morselli Lourtet Michel | Toiture coulissante dont les elements sont dependants et roulent les uns sur les autres |
US4900217A (en) * | 1988-07-15 | 1990-02-13 | Nelson Jon N | Stowable, multiple grade ramping device |
US5103934A (en) * | 1990-10-15 | 1992-04-14 | Brooks Van L | Method and apparatus for providing a fire escape for a multi-story building |
TW253924B (en) * | 1994-09-14 | 1995-08-11 | Nippon Kotetsu Kokusai Kk | Elevatable work facility |
US5491933A (en) * | 1994-09-20 | 1996-02-20 | Mahlon A. Miller | Flat floor slide out apparatus for expandable rooms |
JP3215045B2 (ja) * | 1996-06-06 | 2001-10-02 | 日立造船株式会社 | 床装置 |
US6681531B2 (en) * | 1998-10-06 | 2004-01-27 | Vt Holdings Ii, Inc. | Twin motor drive for a slide-out room |
AT407271B (de) | 1999-03-29 | 2001-02-26 | Stockinger Doris Dipl Ing | Temporär montierbarer, mobiler balkon |
DE10119638A1 (de) * | 2001-04-20 | 2002-10-31 | Wietmarscher Ambulanz Und Sond | Variabler Container |
US6851734B2 (en) * | 2002-02-14 | 2005-02-08 | Ben Steven Findley | Drop-down, laterally expanding, stressed structure trailer |
US6874283B1 (en) * | 2002-12-20 | 2005-04-05 | Stationary building construction with movable shuttle section | |
US6766623B1 (en) * | 2003-03-18 | 2004-07-27 | Peter A. Kalnay | Foldable, expandable framework for a variety of structural purposes |
DE102004032724A1 (de) | 2004-07-07 | 2006-02-16 | Stobag | Beschattungsvorrichtung |
US20140090312A1 (en) * | 2004-10-04 | 2014-04-03 | Martin A. Medley | Convertible hard side shelter |
US20070196194A1 (en) * | 2006-02-21 | 2007-08-23 | Clement Theresa M | Pixie deck stow and go, relates to flooring that anyone can assemble |
DE102010053554B4 (de) | 2010-12-06 | 2017-05-04 | Johannes Thoma | Balkonsystem mit Gegenkrafteinheit |
US8733813B2 (en) * | 2011-11-21 | 2014-05-27 | Med 1 Partners, Llc | Mobile treatment, diagnostic and minor surgery facility |
GB2529702B (en) * | 2014-08-29 | 2017-07-12 | Ten Fold Eng Ltd | Apparatus for converting motion |
ITUB20152699A1 (it) * | 2015-07-31 | 2017-01-31 | B Financial S R L | Balcone a scomparsa per imbarcazioni |
US9809970B2 (en) * | 2015-09-25 | 2017-11-07 | Darquise R Burns | Collapsible and portable modular deck system |
US10703591B2 (en) * | 2015-11-02 | 2020-07-07 | John Clement Preston | Loading platform |
US10167663B2 (en) * | 2015-12-18 | 2019-01-01 | Aldana Florencia Ferrer Garcia | Windows accessing more sky |
EP3443183A4 (fr) * | 2016-04-14 | 2020-05-13 | ZGF Architects LLP | Cabine modulaire |
US10584500B2 (en) * | 2016-06-06 | 2020-03-10 | John A Tann | Assembly for accessing an electronic display |
US20180258658A1 (en) * | 2017-03-10 | 2018-09-13 | John Patrick CRUZ | Portable shelter |
US10538907B2 (en) * | 2017-08-01 | 2020-01-21 | SkyStone Group LLC | Modular assemblies and methods of construction thereof |
CA3078486C (fr) * | 2017-10-03 | 2021-11-02 | 500 Group, Inc. | Ensemble a roues pour transport d'articles |
-
2018
- 2018-11-26 DE DE102018129776.9A patent/DE102018129776A1/de not_active Withdrawn
-
2019
- 2019-11-26 US US17/296,904 patent/US11718983B2/en active Active
- 2019-11-26 EP EP19813744.0A patent/EP3887611B1/fr active Active
- 2019-11-26 WO PCT/EP2019/082594 patent/WO2020109308A1/fr unknown
Also Published As
Publication number | Publication date |
---|---|
EP3887611B1 (fr) | 2024-06-19 |
US20220034080A1 (en) | 2022-02-03 |
EP3887611C0 (fr) | 2024-06-19 |
DE102018129776A1 (de) | 2020-05-28 |
WO2020109308A1 (fr) | 2020-06-04 |
US11718983B2 (en) | 2023-08-08 |
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