WO2023031052A1 - Dispositif de positionnement de cadre et procédé de positionnement d'un cadre - Google Patents

Dispositif de positionnement de cadre et procédé de positionnement d'un cadre Download PDF

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Publication number
WO2023031052A1
WO2023031052A1 PCT/EP2022/073825 EP2022073825W WO2023031052A1 WO 2023031052 A1 WO2023031052 A1 WO 2023031052A1 EP 2022073825 W EP2022073825 W EP 2022073825W WO 2023031052 A1 WO2023031052 A1 WO 2023031052A1
Authority
WO
WIPO (PCT)
Prior art keywords
frame
positioning
positioning plate
positioning device
recess
Prior art date
Application number
PCT/EP2022/073825
Other languages
German (de)
English (en)
Inventor
Andreas Stauf
Original Assignee
Stauf Design aus Holz GmbH
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority claimed from DE202021002855.2U external-priority patent/DE202021002855U1/de
Priority claimed from DE202022001083.4U external-priority patent/DE202022001083U1/de
Application filed by Stauf Design aus Holz GmbH filed Critical Stauf Design aus Holz GmbH
Priority to CA3230065A priority Critical patent/CA3230065A1/fr
Priority to AU2022336965A priority patent/AU2022336965A1/en
Publication of WO2023031052A1 publication Critical patent/WO2023031052A1/fr

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04FFINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
    • E04F21/00Implements for finishing work on buildings
    • E04F21/0007Implements for finishing work on buildings for mounting doors, windows or frames; their fitting
    • E04F21/0015Implements for finishing work on buildings for mounting doors, windows or frames; their fitting for mounting frames

Definitions

  • the invention relates to a frame positioning device. Furthermore, the present invention relates to a packaging unit with at least one frame positioning device, a frame that is connected to the frame positioning device during its positioning, and a stack of frames with at least one first frame and with at least one second stack of frames with at least one first frame and with at least one second frame . In addition, the present invention relates to a method for positioning and/or installing a frame in a wall or a wall section using at least one frame positioning device.
  • a frame is a component and, in the most general definition, has the task of enclosing other spatial elements, such as doors, windows, chairs, beds and/or products from trade fair construction, packaging technology and/or beekeeping.
  • the frame that encloses the door is referred to as a door frame or door frame.
  • the door jamb generally has the function of holding the door and embellishing the doorway by concealing an opening in a wall and thus raw stone or concrete.
  • the door frame generally seals the side and top of the door.
  • the door frame can also serve as a one-sided stop, for example with swing doors.
  • the door jamb typically has a three-piece jamb frame that is generally in the shape of a "U" open at the bottom.
  • the frame has two side elements and an upper part or middle element connecting the side elements.
  • On one of the side elements of the frame there is a locking plate for opening Arranged next to a door lock and at least one band is arranged on the other frame side element, with two band receptacles or hinges usually being arranged.
  • the door frame can hold, in particular anchor, door hinges or hinge elements of the door by means of the hinge mounts. The respective position on the door frame depends on the opening direction of the door.
  • the locking plate is mounted on the side opposite the door hinge.
  • the frame that frames the window is referred to as a window frame and is used to accommodate windows or multiple window sashes and typically has four frame parts.
  • Frames can be made from different materials. Frames are typically made of wood, wood-based materials, plastic, sheet steel, stainless steel or aluminium.
  • the frame is typically assembled manually using a number of screw clamps for fastening the frame to the wall in which it is to be installed and a number of spreaders for spacing the frame side elements.
  • the object is achieved by a frame positioning device according to claim 1.
  • the frame positioning device is set up for positioning a frame in a wall or a wall section, with at least one positioning element being provided which has a first connection area and a second connection area, the positioning element being connected to the frame by means of the first and second connection area , in particular releasably, is connectable, wherein at least one connecting means for connecting the frame positioning device to the frame is arranged on the first and/or second connecting area.
  • the first and The second connection area is assigned to those outer side surfaces or side boundaries of the positioning element that are in contact with the frame on the rebate cladding and the lining board in the installed state.
  • the connecting means can be understood as a fastening means or device for fastening the frame positioning device to the frame, in particular at several points (as explained further below).
  • the first and second connecting areas are preferably aligned parallel to one another and extend from the outer side surfaces or side boundaries in an inner direction of the positioning element.
  • the first and second connecting areas can each form a straight connecting strip along the length of the positioning element, by means of which the fastening or connection of the positioning element or the frame positioning device is accomplished.
  • This configuration of the frame positioning device enables the frame to be assembled particularly quickly, ergonomically and efficiently.
  • the at least one positioning element is provided with an essentially rectangular shape, the positioning element having a height and a width, the width of the positioning element being adjustable and variable.
  • the at least one positioning element is provided with an essentially rectangular shape, the positioning element having a height and a width, the width of the positioning element being adjustable and variable.
  • the essentially rectangular shape of the positioning element means that it has two opposite, parallel longitudinal and transverse sides, from which a longitudinal direction (e.g. as a longitudinal central axis between the longitudinal sides) and a transverse direction (e.g. as a transverse central axis between the Transverse sides trained) results.
  • a longitudinal direction e.g. as a longitudinal central axis between the longitudinal sides
  • a transverse direction e.g. as a transverse central axis between the Transverse sides trained
  • the positioning element is preferably designed to be adjustable in width, in particular adjustable in the horizontal direction.
  • the positioning element can also be constructed so that it can be adjusted in height, in particular in the vertical direction.
  • the horizontal direction or alignment can be understood in particular to mean that it can relate to the installed state of the positioning element and/or the intended state of the frame in the wall or in the wall section (usually erected vertically). In this state, the transverse direction and the horizontal tal direction together. A corresponding understanding can also be used as a basis for the vertical direction or orientation. Accordingly, the longitudinal direction and the vertical direction then coincide in this state.
  • the positioning element Due to the substantially rectangular shape of the positioning element, it has a length or longitudinal extension that is greater than its width or width extension. Accordingly, the length of the positioning element can extend in the vertical or longitudinal direction, whereas the width can extend in the horizontal or transverse direction.
  • the essentially rectangular shape can be understood to mean that the outer circumference of the positioning element follows an imaginary rectangular envelope curve in its installed state. It is not excluded that the outer contour is interrupted in sections (e.g. by recesses or rounded corners), which also applies to the inner area of the positioning element.
  • the positioning element can be releasably connected to the frame in order to position the frame, wherein the positioning can include transporting, arranging and fixing the frame in a wall and then releasing the connection between the frame positioning device and the frame. In this case, the frame is preferably positioned with the aid of the frame positioning device.
  • the frame positioning device can be an assembly aid, in particular a one-piece assembly aid for a frame.
  • the transport can preferably be carried out by one person.
  • the frame can also be installed in a wall or in a wall section by just one person.
  • the frame positioning device is therefore preferably designed in one piece.
  • the one-piece design can relate in particular to the assembled and ready-to-operate state of the frame positioning device, on the basis of which this device is set up to be connected to the frame.
  • the frame positioning device before the assembled state, can in principle also be formed from several parts, which only result in a common whole in the assembled and ready-to-operate state.
  • the positioning element preferably has a first positioning plate and at least one second positioning plate, which are arranged next to one another, in particular in a horizontal plane.
  • the horizontal plane can be understood in such a way that it also refers to the installed state of the positioning element and/or the state of the frame in the wall or in the wall section (usually erected vertically) and can be stretched accordingly in horizontal extension or alignment.
  • a corresponding understanding can also be based on a vertical plane, which can be oriented perpendicular to the horizontal plane.
  • first positioning plate and the second positioning plate are connected to at least one adjusting device, with a horizontal distance between the first positioning plate and the second positioning plate being adjustable and variable by means of the adjusting device. Accordingly, the horizontal distance extends within the horizontal plane or in the horizontal direction (or transverse direction). Consequently, a vertical distance extends within a vertical plane or in a vertical direction (can also be interpreted as a longitudinal direction). As a result, the width of the frame positioning device can be changed.
  • the first and second positioning plates are preferably spaced apart, in particular spaced apart in the horizontal plane.
  • the distance can be changed by means of the at least one adjustment device by changing the length of the at least one adjustment device.
  • the distance between the first positioning plate and the second positioning plate is particularly preferably continuously adjustable. It is advantageous here that the width of the frame positioning device can be changed steplessly. It is advantageous here that one and the same frame positioning device can be used for positioning, in particular for transporting and installing frames of different widths. With known frame positioning devices, a separate frame positioning device must be manufactured for frames of different sizes, in particular widths.
  • the positioning device preferably has three adjusting devices which are arranged at a distance from one another in the vertical alignment of the frame positioning device that forms the height.
  • the three adjusting devices are each attached to the first positioning plate and the second positioning plate, preferably releasably attached.
  • the releasable attachment or connection can be formed by screw connections, alternative connections such as releasable locking, clamp, clip or clamp connections also being conceivable in this context.
  • the first positioning plate has a height and a first width
  • the at least one second positioning plate has a height and a second width
  • a width of the frame positioning device being the sum of the first width of the first positioning plate and the second width of the second positioning plate and the distance set by means of the adjusting device.
  • the set distance can in particular be the smallest clear inner dimension between the first positioning plate and the second positioning plate.
  • the two heights (in the vertical direction) can be made the same. However, it can also be provided that the heights are designed differently.
  • the first positioning plate has a greater width than the second positioning plate.
  • the width of the first positioning plate can be, for example, three, in particular four, preferably five times the width of the second positioning plate.
  • the width of the first positioning plate can be equal to the width of the second positioning plate.
  • the second positioning plate can also have a greater width than the first positioning plate. Accordingly, the width of the second positioning plate can be, for example, three, in particular four, preferably five times the width of the first positioning plate.
  • the adjusting device has a first rod element and at least one second rod element, the first rod element and the second rod element being movable relative to one another.
  • the adjustment device is preferably telescopic, preferably designed as a telescopic device.
  • the first rod element and the second rod element are preferably movable, in particular displaceable, relative to one another.
  • the first rod element and the second rod element can be plugged into one another.
  • the first rod element thus forms a sleeve-shaped rod element, in which the second rod element is guided in a linearly displaceable manner, in particular in the horizontal direction.
  • the first and second rod elements can each have a circular cross-section.
  • the second rod element is formed from a hollow cross section or from a solid cross section.
  • the first and second rod element can also be designed in the opposite relationship to one another, ie the second rod element is sleeve-shaped, in which the first rod element is guided in particular so that it can be displaced linearly in the horizontal direction.
  • the relative movement between the first rod element and the second rod element can advantageously be stepless.
  • the relative movement tion between the first rod element and the second rod element take place in stages.
  • the different levels can be designed according to the most common frame widths.
  • the first rod member may be connected to the first positioning plate and the second rod member may be connected to the second positioning plate.
  • the connection can preferably be detachable, for example screwed. This allows a stable connection between the positioning plates to be realized.
  • Other detachable connections such as detachable locking, clamp, clip or clamp connections are also conceivable in this context.
  • the adjusting device has at least two adjusting device attachment means for attaching the adjusting device to the first positioning plate and/or the second positioning plate.
  • Each adjusting device can preferably have three adjusting device fastening means (also referred to as adjusting device fastening means), wherein two adjusting device fastening means can be fastened to the first positioning plate and one adjusting device fastening means can be fastened to the second positioning plate.
  • two adjustment device attachment means can be attached to the second positioning plate and one adjustment device attachment means corresponding to the first positioning plate.
  • only one adjustment device attachment means or several adjustment device attachment means per positioning plate is conceivable.
  • At least one of the adjusting devices preferably has a locking device, by means of which a length L of the adjusting device can be reproducibly adjusted.
  • a further adjustment device or all adjustment devices can each have a locking device, by means of which a length L of the adjustment device can be reproducibly adjusted, the reproducibly adjustable length L being the same for all adjustment devices.
  • the length L of the adjusting device(s) is aligned in the mounted state, in particular in the horizontal direction (as explained above) or in the transverse direction.
  • the graduated adjustment of the length L of each adjusting device can be provided, with different stages being able to be designed according to the most common frame widths and being locked accordingly.
  • the locking device preferably has a latching lug or a latching bolt, a latching opening and/or a control device with a scale.
  • the adjusting device can be released, in which case the detent and the detent opening can preferably be arranged spaced apart transversely to the length L and are no longer operatively connected. If the locking device is fixed, the detent is arranged in the detent opening and both are operatively connected. This is advantageous in order to ensure safe operation, in particular safe length adjustment of the adjusting device. In particular, the length of the adjusting device cannot change in an uncontrolled manner.
  • the latching lug can be pulled out of the latching opening manually, for example, so that the latching head is in an open position.
  • the locking head can also be spring-loaded so that it automatically springs back into the locking position.
  • the latching head can be locked in the open position (eg by a defined rotation about its own axis).
  • the connection between the latching lug and the latching opening can be released and the first rod element and the second rod element can be moved relative to one another.
  • a length L can be displayed and preselected by means of the scale and the length L of the adjusting device can be set in a reproducible manner.
  • the scale can also be used to display the most common frame widths or frame dimensions and set them intuitively accordingly by a user.
  • the locking device for each of the preferably three adjustment devices can be at least partially integrated or arranged in or on at least one of the adjustment device attachment means.
  • the first positioning plate has the first connection area and the second positioning plate has the second connection area
  • the at least one connection means being provided for connecting the frame positioning device to a groove on the frame
  • the at least one connection means being on the first connecting area of the first positioning plate and/or the second connecting area of the second positioning plate.
  • a plurality of such connecting means are particularly preferably arranged on the first positioning plate and on the second positioning plate.
  • the connecting means can also be formed on one, several or on each of the outer adjusting device fastening means.
  • the outer adjusting device fastening means can be those adjusting device fastening means which are spaced or arranged closest to an inner side of a frame side element (for example a rebate cladding) of the frame in the assembled state.
  • the groove is preferably arranged on the respective frame side element of the frame.
  • the at least one connecting means preferably has at least one first recess in the first connecting area of the first positioning plate and/or at least one second recess in the second connecting area of the second positioning plate, by means of which a connection to the frame can be implemented.
  • a plurality of such recesses are particularly preferably introduced on the first positioning plate and on the second positioning plate.
  • the recess can be formed in each case on one, several or on each of the outer adjusting device fastening means.
  • a pin-shaped object for example a screw, a nail or a threaded rod, can be passed through the respective recess and anchored in a groove of the frame.
  • the first positioning plate can be connected to a first frame side element by means of the combination of recess and pin-shaped object.
  • the second positioning plate can be connected to a second frame side element opposite the first frame side element by means of the combination of the recess and the pin-shaped object, for example a screw.
  • Other releasable fasteners each based on a male and female fastener pair, may also be provided.
  • the respective recess is preferably arranged obliquely in the first positioning plate and/or the second positioning plate and/or the outer adjustment device attachment means, preferably drilled into them.
  • the respective recess is preferably protected by a guide bushing arranged in it, and this bushing can each have an internal thread for receiving a screw, for example. Alternatively, however, the bushing can have a smooth inner surface, i.e. corresponding to the usual roughness.
  • the at least first recess can have a central axis M, wherein the central axis M encloses an angle a to a surface normal of the first positioning plate, as a result of which the at least first recess has an oblique course in the first connecting area of the first positioning plate and/or the at least second recess can have a central axis M, wherein the central axis M encloses an angle a to the surface normal of the second positioning plate, as a result of which the at least second recess has an inclined course in the second connecting area of the second Has positioning plate.
  • the first connection area can have a first frame attachment surface and/or a second frame attachment surface.
  • the first and second frame attachment surfaces can be aligned at right angles to one another. Based on the right-angled alignment, a defined and precise attachment or connection of the frame positioning device to the frame can take place, since the frame has corresponding right-angled mating surfaces on the rebate cladding and lining board.
  • the second connection region can also have a further first frame attachment surface and/or an additional second frame attachment surface.
  • the further first and the further second frame attachment surface can be aligned at right angles to one another.
  • the central axis M of the at least first recess is aligned in such a way that this central axis M is at least partially aligned with a recess area of the groove of the frame.
  • the depression area is that spatial extent of the groove which the recess of the groove actually occupies in the lining board.
  • the groove is preferably designed as a groove running around the entire circumference of the lining board, the opening side of which is arranged in a region of the end face of the lining board that is visible in the assembled state.
  • the central axis M can preferably be aligned with the opening side of the groove, so that the simplest possible assembly or connection of the frame positioning device can be implemented.
  • the one or more adjustment device attachments have at least one first adjustment device attachment recess and/or at least one second adjustment device attachment recess, with the at least first adjustment device attachment recess being aligned with the at least first recess, and/or with the at least second Adjusting device attachment recess is aligned with the at least second recess.
  • the adjustment device fastening recesses can preferably be designed as bores in the adjustment device fastenings, which incidentally also applies to the first and second recess with a view to the first and second positioning plate.
  • sleeves or bushings are attached to the adjusting device attachments (e.g. by a welded, adhesive or soldered connection), so that these recesses can extend in alignment in the sleeves or bushings, whereby the axial extent is even greater can be increased.
  • sleeves or bushings are also arranged in the first and second recess (e.g. by pressing in).
  • a connecting element is arranged in each case, which can be fastened in the groove of the frame.
  • This configuration enables the frame positioning device to be installed very easily, securely and quickly on the frame, since the connecting element is already guided through the recesses (or the sleeve(s)) and thus engages in the groove in a defined manner or is fastened to or in it become can.
  • the connecting element is preferably designed as a screw, in particular as a wood screw.
  • the connecting element can also be designed as a nail, clamp, threaded bolt or the like.
  • connection element can also be made for the connecting element to be arranged in the at least first adjustment device attachment recess and/or in the at least second adjustment device attachment recess in the assembled state.
  • the first positioning plate has an outer side boundary and an inner side boundary when assembled
  • the second positioning plate has an outer side boundary and an inner side boundary when assembled, with the outer side boundary of the first positioning plate and the outer side boundary of the second Positioning plate are arranged opposite each other in the assembled state and standing in contact with the frame.
  • the first connecting means for connecting the first positioning plate to the frame
  • the second connecting means for connecting the second positioning plate arranged with the frame.
  • the first positioning plate and the second positioning plate preferably each have a substantially rectangular shape.
  • the at least one first connection means can be connected to the first frame side element and the at least one second connection means can be connected to the second frame side element.
  • the respective positioning plate can thus advantageously be releasably connected to the frame.
  • the Penetration points of the connecting means in the first and second positioning plates and/or in the outer adjusting device fastening means can be aligned with one another in the vertical and/or horizontal direction or in the longitudinal and transverse direction.
  • connecting means can be used as connecting means, which can create a detachable connection between the frame and the respective positioning plate.
  • the connecting means can engage in the groove of the frame.
  • the frame positioning device is preferably a mounting device for installing the frame in a wall or wall, with the installation transporting the frame, positioning it, aligning the frame with the wall or wall and fixing the frame on the wall or wall.
  • the frame positioning device is preferably constructed in one piece, the one-piece structure referring to the assembled and operational state of the frame positioning device.
  • the frame positioning device is therefore a one-piece device, in particular a one-piece assembly aid.
  • the frame positioning device can advantageously be detachably connected to the mounted frame as explained above, with the connection during transport, positioning of the frame in a recess in the wall or wall, alignment of the frame to the wall or wall, in particular horizontal or horizontal alignment of the frame and the fixing of the frame to the wall or brick wall.
  • the connection can preferably be released after the frame is firmly fixed in the wall or masonry.
  • the first positioning plate and/or the second positioning plate has at least one holding device, in particular a holding recess.
  • the holding device can be a recess through which a human hand can reach.
  • the holding device can be a handle or another projection suitable for this purpose.
  • a combination of handle and holding recess can also be conceivable.
  • the first and/or second positioning plate can have a plurality (eg two, three, four, etc.) of such holding devices.
  • the first positioning plate and/or the second positioning plate can preferably have a passage recess, in particular a passage opening.
  • the through-hole is also referred to as a manhole.
  • the size of the passage opening is adapted to the size of an average person.
  • the opening in the wall and the pre-assembled frame can still be passed through from both sides using the through-hole, which makes assembly easier.
  • first positioning plate and/or the second positioning plate can have a working recess, in particular a working opening. Tools and other equipment can be passed through the working recess or work can be carried out on both sides of the frame positioning device. Furthermore, correct positioning of the frame can be checked by looking through the working recess.
  • a spirit level is preferably arranged on the frame positioning device, in particular on the first positioning plate and/or the second positioning plate, preferably in the lower region of the first and/or second positioning plate.
  • a spirit level is preferably arranged on the frame positioning device, in particular on the first positioning plate, preferably in the lower region of the first positioning plate in relation to the assembled state.
  • the level can be a BMI level. Correct horizontal alignment of the frame positioning device can be checked and controlled using the spirit level.
  • the spirit level is preferably a plastic or glass tube that is typically slightly curved and is filled with a liquid and a gas bubble, in particular an air bubble. The level can be used to check the horizontal and/or vertical position of the positioning plate and thus the frame.
  • a further spirit level can be arranged on the first positioning plate and/or the second positioning plate to check that the frame positioning device is correctly aligned vertically.
  • the advantage here is that no external spirit level has to be used to see whether the frame is aligned. If the bubble level is arranged horizontally on the positioning plate, horizontal alignment can be checked. If the bubble level is arranged vertically, a vertical alignment can be checked.
  • the spirit level is rotatably arranged on the first and/or second positioning plate. Here it can be provided that the dragonfly can be latched in a horizontal and vertical position.
  • At least one first height adjustment device is arranged on the lower edge of the first positioning element and at least one second height adjustment device is arranged on the lower edge of the second positioning element.
  • the at least first and second height adjustment device each have at least one adjustable foot.
  • a height adjustment device is particularly preferably arranged on the lower edge of the first positioning plate and on the lower edge of the second positioning plate.
  • the foot of the height adjustment device can each have a threaded bolt with tool engagement in order to be able to adjust the height (e.g. using a tool wrench).
  • the tool engagement can be in the form of a hexagon socket, hexagon socket, star, torx, Spax, slot or cross engagement.
  • the height adjustment device can also have a hand wheel or a so-called star head for manual height adjustment without tools.
  • Alternative height adjustment devices e.g. based on a linearly displaceable ratchet mechanism, are also conceivable. Provision can also be made for an electric servo unit to be provided, so that the height adjustment can be carried out even more precisely and more comfortably.
  • the lower edge of the first positioning plate and/or the second positioning plate is to be seen as the limitation of the positioning plate(s), which face the floor when the frame positioning device is installed and set up as intended.
  • At least a third height adjustment device is arranged on the upper edge of the first positioning element and at least a fourth height adjustment device is arranged on the upper edge of the second positioning element.
  • the upper edge of the first positioning plate and/or the second positioning plate can be seen as the limitation of the positioning plate(s), which are arranged opposite the lower edge in the longitudinal or vertical direction when the frame positioning device is installed and set up as intended.
  • the frame positioning device can be designed in such a way that the at least one positioning element has a folding mechanism, by means of which the frame positioning device can be folded up when it is dismantled from the frame.
  • the frame positioning device When folded, the frame positioning device can be stowed or packed in a particularly space-saving manner, which reduces transport and storage costs.
  • the positioning element can then be folded up, in particular towards the sides on which the adjustment device is not attached, so that a flush folded-up state can be achieved, by means of which both smooth sides of the positioning element are in contact with one another in the folded-up state, so that the frame positioning device can be folded up to save space .
  • the folding mechanism can advantageously divide the positioning element in half, so that the positioning element is folded together from halves of equal length in the folded state.
  • the positioning element is correspondingly divided into three by means of two folding mechanisms, so that an even smaller extent of the positioning element is possible in the folded state. It goes without saying that more than two folding mechanisms can also be provided with a correspondingly equal proportionate division of the positioning element.
  • the folding mechanism can also have at least one first folding device and at least one second folding device, the at least first folding device being arranged on the first positioning plate and the at least second folding device being arranged on the second positioning plate, so that the first and the second positioning plate are in one of the frame can be folded together when dismantled. Due to the preferred division of the positioning element into a first and second positioning plate, the division of the folding device in relation to the first and second positioning plate is also advantageous.
  • the frame positioning device can also have at least one side support element which can be releasably fastened to the at least one positioning element in the assembled state and has at least one side support surface for laterally supporting a lining board of the frame.
  • a side support element is particularly advantageous in the case of deep frames for the use of deep wall cross-sections, because in this case the frame side elements pivot in the direction of the inside of the wall hole or wall section due to the greater forces and moments (for small deflections, in principle comparable to a pendulum movement of both wings of a swinging door).
  • Such pivoting leads to imprecise installation of the frame, so that doors, for example, only close inadequately in later use.
  • a support Advantageously by a side support element since pivoting can be effectively prevented and a more precise installation of the frame is possible, so that a perpendicularity in the depth of the frame can be guaranteed.
  • the frame positioning device it is conceivable for the frame positioning device to have a plurality of side support elements, with a first side support element being detachably attachable to the at least one holding device of the first positioning plate in the assembled state, and a second side support element being detachably attachable to the at least one holding device of the second positioning plate in the assembled state.
  • the support effect for both frame side elements can be provided by the several side support elements, so that an even more precise installation of the frame is possible.
  • the use of the holding device or the holding recess as a fastening point in the first or second positioning plate is particularly advantageous since this opening can be equipped with a double functional assignment.
  • the side support element can be pushed into the holding opening by a fastening projection and securely fastened there, for example by a defined rotation (e.g. by 90°).
  • a defined rotation e.g. by 90°.
  • the holding opening is nevertheless of a sufficient size so that the human hand can reach through it and the frame can be carried, as a result of which the functional doubling is achieved.
  • the frame positioning device has at least one first fixing element and/or at least one second fixing element, which is attached to the first and/or second positioning plate, for mutually fixing the first and/or second positioning plate in the unfolded state. Due to the folding mechanism, the first and second positioning plates can change indefinitely from the unfolded to the folded state and vice versa, which makes assembly on the frame more difficult. Accordingly, the two positioning plates can be secured and stiffened against one another by means of the two fixing elements, so that assembly can be carried out more easily, more quickly and more precisely, and a rigid positioning element is created.
  • the fixing elements can be designed as fittings in the form of sliding bolts or rotatable or swiveling bolts (as are known, for example, with door bolts) or as quick-action clamps.
  • a packaging unit which has at least one frame positioning device as explained above, the at least one frame positioning device being in a folded state and/or at least one Side support element is arranged in the packaging unit.
  • Such packaging units can be designed in the form of standard cardboard boxes or wooden boxes.
  • filling materials can be provided in the packaging unit, which have corresponding recesses and/or projections, so that they are adapted to the outer contours of the folded frame positioning device and/or to the at least one side support element and ensure safe transport.
  • a stack of frames with at least one first frame and at least one second frame can proceed as described above, with the at least second frame being arranged on the at least first frame in such a way that the stack of frames is formed.
  • Such a stack can also be made up of three, four, five or even more frames as described above.
  • a protective device such as a non-slip intermediate plate can also be arranged between the frames in order to protect adjacent frames from scratches and other external influences.
  • a method for positioning a frame with a frame positioning device according to the invention is also provided. Advantages and technical features that are described in connection with the frame positioning device and/or the frame also apply to the frame positioning method and vice versa. Accordingly, a method for positioning and/or installing a frame as explained above in a wall or a wall section by at least one frame positioning device as explained above is provided, the method comprising the following steps:
  • the frame positioning device can be releasably connected to the frame by at least one connecting means which is releasably fastened in the groove.
  • the frame positioning device is preferably an assembly aid for installing frames in a wall or a wall section. This advantageously creates a combination element which has the frame positioning device which can be connected to the frame so that a single person can preassemble, carry and install a frame.
  • At least one holding device is advantageously provided. In one embodiment, the holding device can have two carrying handles or two recesses or combinations thereof.
  • the frame and the frame positioning device are always essentially rigidly connected during positioning.
  • no individual components of a frame of the frame for example frame side elements and a frame middle element, can be displaced in relation to one another. This prevents damage to the frame, in particular to the surface of the frame, during transport and installation.
  • the connection between the frame and the frame positioning device can be realized by means of screws which are arranged through recesses in the at least one, in particular width-adjustable, positioning element of the frame positioning device.
  • the screws can be releasably fastened through the at least one recess in the first positioning plate and the at least one recess in the second positioning plate (as described above) in an adjacent groove of the frame, in particular of the respective frame side element.
  • a sealing lip arranged in the area of the groove is preferably removed at least partially from the frame, in particular from the respective side element of the frame.
  • the combination element preferably has at least two positioning plates which are connected to an adjustment device and each have a height, a width and a plate thickness, the first positioning plate having an outer side boundary and an inner side boundary, the second positioning plate having an outer side boundary and an inner side boundary , wherein the outer side boundary of the first positioning plate and the outer side boundary of the second positioning plate im are arranged essentially horizontally opposite one another, with at least one first connecting means for connecting the first positioning plate to a frame being arranged in the area of the outer side boundary and at least one second connecting means for connecting the second positioning plate to the frame being arranged in the area of the outer side boundary of the second positioning plate
  • a second, preferably a third recess is provided on both sides in the first and second positioning plate.
  • the first, the second and the third recesses of the first positioning plate are each arranged vertically spaced in the positioning plate.
  • the first, the second and the third recesses of the second positioning plate are each arranged vertically spaced in the positioning plate.
  • the frame positioning device can be connected to the respective side of the frame at two, preferably three positions on both sides and thus create the combination element.
  • a stable connection can thus be produced between the frame and the frame positioning device, which represents a stable, in particular torsion-proof connection, particularly when the frame is being moved and/or transported.
  • the frame and the frame positioning device are always essentially rigidly connected.
  • no individual components of a frame of the frame for example frame side elements and a frame upper part, can be displaced in relation to one another. This prevents damage to the frame, in particular to the surface of the frame, during transport and installation.
  • the frame positioning device can be reused here, since the connection between the frame positioning device and the frame can be released, for example, by using suitable screws or other fastening elements.
  • the handling of the frame is comfortable.
  • the frame positioning device is a suitable assembly aid for installing the frame in the wall by one person.
  • the positioning of the frame in the wall or wall includes the following steps in particular:
  • This can also include transporting the frame positioning device with a vehicle.
  • several frames can each be connected to the frame positioning device and transported in a vehicle stacked one on top of the other.
  • the interim storage of several frames with the frame positioning device can take place in a workshop or in the vehicle.
  • the frame is aligned in a vertical and horizontal direction, in particular is plumb.
  • the alignment takes place by means of the adjustment device and at least one spirit level as a control element for the horizontal and/or vertical position.
  • the frame is preferably aligned in all levels.
  • the attachment can preferably include the step of foaming with a fixing agent.
  • the frame is then permanently connected to the wall.
  • the frame can be removed from the wall, for example, by destroying the wall or the frame.
  • 1, 1a, 1b, 1c an embodiment of a frame
  • FIG. 2 shows the frame according to FIG. 1 in a sectional view
  • FIG. 4 shows the frame positioning device according to FIG. 3 with a varied width
  • 5a, 5b, 5c an adjustment device for adjusting the width of the positioning element
  • FIG. 7 shows a stack of several frames with a frame positioning device that is mounted and shown schematically in each case;
  • FIG. 9 shows the frame positioning device according to FIG. 3 or FIG. 4 with a
  • FIG. 10 shows the side support element according to FIG. 9 in plan view
  • FIG. 11 shows a schematic sectional illustration of the frame according to FIG. 1 with the frame positioning device according to FIG. 3 or FIG. 4 installed;
  • Fig. 12 shows a section of a perspective representation of the frame according to Fig.
  • FIG. 13 shows a packaging unit with a frame positioning device
  • FIG. 14 is a mirrored representation of the longitudinal axis
  • FIG. 15 shows a representation of the adjustment device according to FIG. 5a mirrored about the transverse axis
  • FIG. 16 shows a further exemplary embodiment of a height adjustment device.
  • FIG. 1a shows a frame 0 in a schematic representation as a front view.
  • the frame 10 is preferably a door frame 10 and has a first frame side element 12 and a second frame side element 14 which are connected by means of a frame middle element 16 .
  • a locking plate 18 is installed in the second frame side element 14 and two hinge receptacles 20 and 22 are installed in the first frame side element 12 .
  • the tape mounts 20 and 22 are also referred to as hinges 20 and 22.
  • a door (not shown) can be mounted between the first frame side element 12 and the second frame side element 14 by hinges or hinges arranged on the door being hung in the hinge receptacle 20 and the hinge receptacle 22 .
  • the striking plate 18 can alternatively be mounted in the first frame side element 12 and the hinge mounts 20 and 22 in the second frame side element 14 .
  • the first frame side element 12 and the second frame side element 14 each have a length 23 or height 23 that defines an installation height of the frame 10 .
  • the frame center element 16 has a width 25 . It should be noted here that a clear width L of the frame is less than the width 25, the clear width L corresponding to a width of the door.
  • the first frame side element 12 , the second frame side element 14 and the frame center element 16 each have a frame thickness 27 and a frame width 29 .
  • the frame width 29 is determined by the depth of a wall, not shown, to which the frame 10 is or is attached. Depending on the width L of the door to be installed, the width 25 of the frame center element 16 is selected.
  • FIG. 1b shows the tape mount 20/22 in detail.
  • Figure 1c shows the locking plate 18 in detail.
  • FIG. 2 shows the frame 10 in a schematic sectional view.
  • the frame 10 includes a decorative trim 24, a lining board 26 and a rebate lining 28.
  • the lining board 26 has an outer frame dimension 30 and a frame clearance dimension 32.
  • a sealing element 34 which is preferably designed as a sealing lip 34 , is arranged between lining board 26 and rebate cladding 28 .
  • the sealing element 34 is arranged at least in regions to the side of a groove 36 .
  • the sealing element 34 can be removed from the frame 10, in particular pulled out.
  • the decorative trim 24 is mounted in the mounted frame 10 from the lining board 26 so that it can be separated.
  • the frame width 29 is shown.
  • FIG. 3 shows a schematic representation of an adjustable frame positioning device 40 in a first embodiment in a front view.
  • the frame positioning device 40 is adjustable in width 47 in particular.
  • the frame positioning device 40 can thus be adapted to the width 25 of the frame center element 16 of the frame 10 to be positioned (cf. FIG. 1a).
  • the width 47 of the frame positioning device 40 can be adapted to the width of the door that is to be mounted in the frame 10 .
  • the frame positioning device 40 has at least one positioning element 40a which has a first positioning plate 42 and a second positioning plate 44 .
  • the positioning element 40a also has a first connection area 40b and a second connection area 40c.
  • the first and second connection areas 40b, 40c each extend on those outer side surfaces or side boundaries of the positioning element 40a which are in contact with the frame on the rebate cladding and the lining board 26 in the assembled state (cf. FIG. 11). It can also be seen in FIG. 3 that the first and second connection areas 40b, 40c are aligned parallel to one another and each extend from the outer side surfaces or side boundaries of the positioning element 40a in an inner direction of the positioning element 40a. Starting therefrom, the first and second connecting regions 40b, 40c each form a straight connecting strip, by means of which the fastening or connection of the positioning element 40a to the frame 10 is realized.
  • the first positioning plate 42 has a generally rectangular envelope and has a height 46, a first width 48 and a thickness 50 (not shown in front view).
  • the first positioning plate 42 there is a working recess 88 in the upper third and a further passage recess 86 in the lower area (the upper third refers to an assembled state of the first positioning plate 42, in which this plate 42 is connected to the frame 10 and this is used as intended placed vertically in a wall hole, wall section or wall breakthrough, which also applies to the lower area, which can also extend over the middle in the longitudinal or vertical direction).
  • the first positioning plate 42 forms an E-shaped plate structure with a base plate 42a and three plate legs 42b, 42c, 42d, which each rise at right angles from the base plate 42a and extend in the direction of the second positioning plate 44 and so on define the width 48 of the first positioning plate 42 .
  • the width 48 should be as large as possible in order to increase the rigidity of the frame positioning device 40 .
  • Rounded corners are also provided in the area where the plate legs 42b, 42c, 42d rise from the base plate 42a. Due to the different dimensioning of the two recesses 86, 88, the middle plate leg 42c is not arranged in the middle but in an upper third in relation to the assembled state and the overall height 46.
  • the plate legs 42b, 42c, 42d have a greater width than the base plate 42a, which ensures that the frame 10 is square.
  • the widths can also be the same in each case or the widths of the plate legs 42b, 42c, 42d can also be made smaller than that of the base plate 42a.
  • the first positioning panel 42 is preferably a multiplex panel 42.
  • the first positioning panel 42 can also be a solid wood panel, plastic panel, composite panel or aluminum panel.
  • the first positioning plate 42 can also be made of one or more plastics or a material mix composition.
  • the first positioning plate 42 is torsion-resistant at least in one direction, preferably in the vertical direction.
  • the second positioning plate 44 is essentially rectangular and has a height 52, a width 54 and a thickness 56 (not shown in the front view).
  • the width 54 can be equal to the width of the base plate 42a.
  • the second positioning panel 44 is preferably also a multiplex panel 44.
  • the second positioning panel 44 can be a solid wood panel, composite panel, plastic panel or aluminum panel.
  • the second positioning plate 44 can also be made from one or more plastics or a material mix composition.
  • the second positioning plate 44 is torsion-resistant at least in one direction, preferably in the vertical direction (relative to the assembled state).
  • the height 46 of the first positioning plate 42 and the height 52 of the second positioning plate 44 are essentially the same and correspond to a percentage of the height or length 23 of the frame 10 (cf. FIG. 1a).
  • the height 46, 52 of the positioning plates 42, 44 can correspond to 50% to 90% of the height or length 23 of the frame 10.
  • the width 48 of the first positioning plate 42 and the width 54 of the second positioning plate 44 are preferably different. More preferably, width 48 is three times width 54. In one embodiment, width 48 is five or six times width 54 - Central axis of the frame positioning device 40 (not shown in FIG. 3) can be arranged.
  • the positioning plate 42 and the positioning plate 44 each have a height 46 of about 1500 mm.
  • the dimensions of the first positioning plate 42 and the second positioning plate 44 are adapted to the dimensions of the frame 10, with the height 46 being able to comprise approximately 2/3 of the height of the frame 10. Stable mounting of the frame 10 in the frame positioning device 40 is thus ensured.
  • Other height ratios of the height 46 based on the frame 10 are also conceivable.
  • the sum of the widths 48 and 54 of the first positioning plate 42 and the second positioning plate 44 together with the adjustable, set width of the adjusting device 56 can be adapted to a clear width L (cf. Fig. 1a) of the frame 10 to be installed and can therefore Cover widths 25 of 591 mm, 716 mm, 841 mm, 966 mm and/or 1091 mm.
  • a width 47 of the frame positioning device 40 for frame widths 25 that lie between the dimensions mentioned above can also be continuously adjusted by means of the adjustment device 56 .
  • the first positioning plate 42 is connected to the second positioning plate 44 by means of at least one adjusting device 56, so that the entire width 47 of the frame positioning device 40 can be adjusted.
  • the first positioning plate 42 and the second positioning plate 44 are connected to the frame 10 during positioning and/or in the assembled state.
  • three adjusting devices 56, 56a, 56b, 56c are preferably provided.
  • the adjusting devices 56, 56a, 56b, 56c are each connected to the first positioning plate 42 and the second positioning plate 44.
  • the adjusting devices 56, 56a, 56b and 56c are each telescopic and are designed as telescopic devices 56, 56a, 56b, 56c and each have at least two mutually displaceable rod elements 55, 55a, 55b, 55c and 57, 57a, 57b, 57c.
  • the rod elements 55, 55a, 55b, 55c and 57, 57a, 57b, 57c are preferably designed as telescopic rods 55 and 57. The exact structure and function are described in more detail in the description of FIG. 5a.
  • the adjusting devices 56, 56a, 56b, 56c are arranged at connection locations 58, 58a, 58b, 58c, which are arranged along the height 46 of the first positioning plate 42 and the second positioning plate 44, with the first positioning bar 42 and the second positioning plate 44.
  • the attachment of the adjusting devices 56, 56a, 56b, 56c is explained by way of example on the central adjusting device 56b and can be transferred accordingly to the two other longitudinally (or vertically in the assembled state) outer adjusting devices 56a, 56c.
  • This middle adjusting device 56b is fastened to the first positioning plate 42, more precisely to the base plate 42a, and in an outer area of the middle plate leg 42c by means of two adjusting device fastenings 60b, 64b.
  • the central adjusting device 56b is attached to the second positioning plate 44 by means of a further adjusting device attachment 62b.
  • the two further outer adjusting devices 56a, 56c are each fastened to the two outer plate legs 42b, 42d and the base plate 42a, as well as each at a further point on the second positioning plate 44.
  • the first positioning plate 42 therefore preferably has at least three adjusting device fastenings 60a arranged vertically one above the other , 60b and 60c (also referred to as adjustment device attachment means).
  • the second positioning plate 44 therefore also preferably has three adjusting device attachments 62a, 62b, 62c arranged vertically one above the other.
  • the adjuster attachments 60, 60a, 60b, 60c and 62, 62a, 62b, 62c are preferably releasably connected to the positioning plates 42 and 44, respectively.
  • further central adjusting device attachments 64, 64a, 64b, 64c can be provided accordingly.
  • the details of the adjusting device 56, 56a, 56b, 56c are described in connection with FIGS. 5a, 5b and 5c.
  • the adjustment device 56, 56a, 56b, 56c is preferably arranged flush with the outer side edge of the long sides of the first positioning plate 42 and the outer side edge of the long sides of the second positioning plate 44.
  • the frame positioning device 40 also has height adjustment devices 70 and 72 .
  • the height adjustment device 70 is arranged on an outer corner area of a lower edge 74 or edge area of the first positioning plate 42 .
  • the height adjustment device 72 is accordingly arranged on a further corner area of a lower edge 76 or edge area of the positioning plate 44 .
  • the respective corner portions of the first and second positioning plates each have reinforcements which may be formed by steel plate inserts. Alternatively or additionally, these reinforcements can also be formed by an angled extension of the two height adjustment devices 70, 72.
  • the lower edge region 74 of the first positioning plate 42 has a section that is stepped in the longitudinal direction or is milled out, so that uneven floors can be compensated for.
  • the positioning device 40 has a spirit level 78 which is preferably arranged in the lower area on the positioning plate 42 .
  • the level 78 can be used to check the positioning of the frame 10, in particular an alignment in a horizontal position, which can be finely adjusted using the height adjustment devices 70, 72.
  • the first and second rod elements 55a, 57a can have transverse holes in their respective end sections, within which at least one respective part (e.g. a threaded bolt or pin 73 according to Fig. 6) the
  • Height adjustment devices 70, 72 are described in connection with FIG.
  • the positioning plate 42 there is at least one holding device 80b provided, which is designed as a holding recess 80b.
  • a further holding device 80a is provided in the lower area of the positioning plate 42 and is also designed as a holding recess 80a, with the holding recesses 80a and 80b being aligned in the transverse direction.
  • the holding device 82a which is designed as a holding recess 82a, the pairs of holding recesses 80a, 82a and 80b, 82b being arranged at the same height. Furthermore, the holding recesses 82a and 82b are also aligned in the transverse direction.
  • the holding recesses 80a, 80b; 82a, 82b are dimensioned such that a human hand can reach through them, so that the frame positioning device 40 can be transported alone and/or the frame 10 can be carried or transported by means of the frame positioning device 40.
  • the lower area can extend, for example, by up to 40% in the direction of the central area 79.
  • Corresponding pairs of holding recesses can also be formed in the upper area corresponding to the lower area.
  • a further handle or holding recess can be arranged on the central plate leg 42c (not shown in FIG. 3).
  • the frame positioning device 40 can be carried by one person by means of the holding recesses 80b, 82b and/or the holding recesses 80a, 82a when the frame positioning device 40 and the frame 10 (not shown in FIG. 3) are connected and positioned, in particular being transported.
  • the holding recesses 80a, 80b, 82a, 82b are designed as rectangular holding recesses and each have rounded corners.
  • the frame positioning device 40 can be releasably connected or fastened to the frame 10 and the frame 10 can be transported by means of the frame positioning device 40 and the frame 10 can be positioned in a wall with the frame positioning device 40 .
  • FIG. 4 shows the frame positioning device 40 from FIG. 3 in a schematic representation with a different, larger set width 47 compared to FIG is realized by the rod elements 55 and 57 or telescopic rods 55 and 57 are pulled apart.
  • the width 47 of the frame positioning device 40 can be continuously adjusted by means of the adjusting device 56, 56a, 56b, 56c by means of the telescopic rods 55, 55a, 55b, 55c and 57, 57a, 57b, 57c.
  • the respective position of the telescopic rods 55 and 57 relative to one another can be reproducibly adjusted by means of a control device 92 (described in more detail in FIG. 5a).
  • the width 47 of the frame positioning device 40 can also be adjusted in stages by means of a locking device 91 (each integrated into the middle adjusting device attachment 64a, 64b, 64c) by means of a defined locking of the telescopic rods 57a, 57b, 57c (e.g. by locking recesses in the telescopic rods).
  • a locking device 91 each integrated into the middle adjusting device attachment 64a, 64b, 64c
  • a defined locking of the telescopic rods 57a, 57b, 57c e.g. by locking recesses in the telescopic rods.
  • a plurality of connecting means 120 for connecting the frame positioning device 40 to the frame 10 are also arranged on the first and second connecting region 40b, 40c.
  • the positioning element 40a can thus be releasably connected or fastened to the frame 10 by means of the first and second connecting regions 40b, 40c.
  • Each connecting means 120 has a recess 122, 124 in the form of a bore, with each recess 122, 122a; 124, 124a from the outboard adjuster mounts 60a, 60b, 60c; 62a, 62b, 62c extends in alignment through the respective first and second positioning plates 42, 44 in the form of a plate recess.
  • the three connecting means 120 on each side of the positioning plates 42, 44 are thus connecting means arranged essentially vertically one above the other or horizontally next to one another.
  • adjuster mounts 60a, 60b, 60c; 62a, 62b, 62c and the recesses 122, 124 in the first and second positioning plates 42, 44 is chosen so that the frame positioning device 40 can be detachably connected or attached to the frame 10, in particular with the groove 36 of the lining board 26 of the two frame side elements 12, 14 (see FIG. 1a, 2) can be connected by the three recesses 122, 122a; 124, 124a in each case a screw (or a nail) is screwed into the groove 36 of the two frame side elements 12, 14.
  • the recesses 122; 122a; 124, 124a are each designed as bores, in particular as essentially circular bores with a corresponding central axis.
  • the respective central axes preferably close the connecting means 120 or the recesses 122, 122a; 124, 124a at an angle a to a surface normal of the respective positioning plate 42, 44, as a result of which these recesses 122, 122a; 124, 124a each have an oblique course in the respective positioning plate 42, 44 and in the respective outer
  • the recesses 122, 124 penetrate through the positioning plate 42, 44 and adjustment device fastening recesses 122a, 124a penetrate through the adjustment device fastening means 60a, 60b, 60c; 62a, 62b, 62c completely and thus extend over the entire thickness of the frame positioning device 40.
  • FIG. 5a shows the adjusting device 56 in a schematic representation as a front view.
  • the adjusting device 56 is designed as a telescopic device, in particular as an internally locking telescopic device.
  • the adjusting device 56 has the first rod element 55 and the second rod element 57 or the telescopic rod 57 .
  • the first rod element 55 and the second rod element 57 are movable relative to one another, with the second rod element 57 being movably arranged in the rod element 55 .
  • the second rod element 57 is guided in the first rod element 55 in a linearly displaceable manner.
  • the first rod element 55 is thus designed as a guide sleeve for the second rod element 57 .
  • the adjustment device 56 is therefore telescopic.
  • the adjustment device 56 also has the adjustment device attachments 60 , 62 , 64 .
  • the adjusting device attachment 64 has further features and components which are described in more detail in connection with FIG. 5b.
  • the first and second rod elements 55, 57 each have circular cross sections and are preferably made of aluminum or an aluminum alloy.
  • the adjusting device fastening 60, 62, 64 each has a fastening plate and pairs of plate projections 108, 110, 112 (with rounded corners to protect the frame 10) protruding from it in one piece and at right angles to the normal to the plate with circular rod receptacles, by means of which the first rod element 55 can be attached to the both adjuster mounts 60, 64 can be attached to the first positioning plate 42.
  • the second rod member 57 can be fixed to the single adjuster mount 62 corresponding to the second positioning plate 44 .
  • the mounting plates and the plate projections 108, 110, 112 are preferably also made of aluminum or an aluminum alloy.
  • the rod elements 55, 57 are preferably fastened in the respective rod receptacles by welding.
  • Adjuster mount 60, 62, and 64 includes fasteners 100, 102, 104, and 106, respectively, by which adjuster mount 60, 62, 64 can be releasably connected to positioning plate 42 and positioning plate 44, respectively.
  • the fastening elements 100, 102, 104, 106 can be set up for screwing or riveting or another detachable fastening method of the adjusting device fastening 60, 62, 64 on the first and second positioning plate 42, 44, respectively.
  • the adjustment device attachment 64 also has a locking device 91 and a control device 92 .
  • the locking device 91 and the control device 92 are shown in detail in FIG. 5b.
  • the control device 92 has inscription 92a and a scale 92b, the inscription 92a showing a set length L of the adjustment device 56 (cf. eg “966” in FIG. 5b, which relates to a length L of 966 mm). Furthermore, the control device 92 can have a marking made in the rod element 55 (below the scale and not visible). The length L of the adjusting device 56 can be adjusted in a reproducible manner.
  • the scale 92b and the inscription 92a has a number field in which the set length L of the adjusting device 56 is named. Furthermore, a lasered line can be provided on the rod element 55 .
  • the locking device 91 which is also referred to as a latching device 91, also has a latching head 93 and a latching opening 95 in the first and second rod element 55, 57, as well as a latching lug 96.
  • a latching device 91 In the locked state engages the locking lug 96 in the locking opening 95, so that the second Rod element 57 is locked with respect to the first rod element 55 (here with respect to the dimension 591 mm, which corresponds to a common Zarzfalzwel).
  • latching openings 95 can be arranged in such a way that they are assigned to the most common frame dimensions of, for example, 591 mm to 1091 mm, so that the adjustment devices 56 can be locked to all common frame dimensions, with stepless adjustment being possible between the stepped frame dimensions and no locking can take place (the jamming takes place here via the locking device 90).
  • the latching head 93 By means of the latching head 93, the latching lug 96 can be pulled out radially from the latching opening 95, starting from the rod element 57, into an open position.
  • the locking head 93 can also be fixed in the open position, for example by a defined rotation of 90° or 180°.
  • the inscription 92a and the scale can each be applied to the second rod element 57 by means of an adhesive strip. Alternatively, the inscription 92a and the scale can each be introduced on the second rod element 57 by means of laser markings or millings.
  • the adjusting device 56 also has a locking device 90, by means of which the mobility of the second rod element 57 relative to the first rod element 55 can be prevented (applies to all rod elements 55a-55c, 57a-57c).
  • the locking device 90 is designed as a union screw connection 90 .
  • the union screw connection 90 is turned manually, e.g. clockwise, and fixes the second rod element 57 in the first rod element 55, e.g. by means of a clamping ring arranged on the second rod element 57, which is set against the first rod element and thus ensures clamping by friction .
  • the union screw connection 90 is turned manually, e.g. clockwise, and the rod element 57 is thus released.
  • the directions of rotation can of course also be reversed.
  • the locking device 91 in cooperation with the union screw connection 90 , the mobility of the rod element 55 and the rod element 57 can be released and fixed relative to one another.
  • the adjustment position which designates the freely movable connection between the rod elements 55 and 57 and which can be realized through the interaction of the union screw connection 90 and the locking device or latching device 91, the second rod element 57 can be moved linearly relative to the first rod element 55.
  • This allows the length L of the Adjustment devices 56 are changed.
  • the distance between the first positioning plate 42 and the positioning plate 44 can thus be changed in the mounted state in the horizontal direction, resulting in the entire width 47 of the first and second positioning plates 42, 44.
  • the width 47 of the frame positioning device 40 can be adjusted and changed.
  • the adjustment device 56 shown in FIG. 5c differently set lengths L of the adjustment device on the control device 92 are shown schematically.
  • the set length L can be seen at the marking 92a: 591 mm, for example.
  • the rod element 57 is pulled out of the rod element 55 in sections, with the pulled-out section being longer the longer the length L is set.
  • the length of the rod element 57 defines the distance between the first positioning plate 42 and the second positioning plate 44.
  • the complete length of the adjusting device 56 is preferably adjustable between 591 mm and 1091 mm.
  • the frame positioning device 40 can be adapted to the respective widths 25 of frames 10 (see FIG. 1a) between a clear width of approximately 591 mm, 716 mm, 841 mm, 966 mm and/or 1091 mm.
  • FIG. 6 shows the height adjustment device 70, 72 in a schematic representation.
  • the height adjustment device 70, 72 is preferably designed as a leveler and has a foot element 71 for secure standing. Furthermore, the height adjustment device 70, 72 has a threaded bolt or pin 73 and two bolt receptacles 75 with corresponding internal threads.
  • a tool engagement is introduced on the end face of the threaded bolt 73 opposite the foot element 71 .
  • the tool engagement can be designed as a hexagon socket, hexagon socket, star, torx, spax, slot or cross engagement. Additionally or alternatively, the height adjustment device 70, 72 on the threaded bolt 73 can also have a hand wheel or star wheel/star head for manual height adjustment without tools.
  • a ratchet mechanism for engaging in the bolt 73 is also conceivable if this bolt is appropriately adapted and connected to this mechanism (for example by teeth into which the ratchet engages).
  • the height adjustment device 70, 72 can be mounted and fixed on the respective positioning plate 42, 44, with the both bolt receptacles 75 rise vertically from the holding plate 77 and are preferably connected in one piece with it.
  • the mounting plate 77 is preferably attached to a respective outer corner area of a lower edge 74, 76 or edge area of the positioning plates 42, 44 by means of screws. Only a section of the respective positioning plate 42, 44 can be seen in FIG. The two
  • Height adjustment devices 70, 72 may each have an angled extension (preferably rectangular) through which reinforcements of the ground contact surfaces of the first and second positioning plates 42, 44 can be formed.
  • FIG. 7 shows stacked frames 10, each frame 10 being connected to the frame positioning device 40 (shown only schematically, in particular the adjustment devices 56 are not shown in detail). Accordingly, the stack of frames is formed by at least one first frame 10 and at least one second frame 10 . According to FIG. 7, the second frame 10 is arranged on the first frame 10 in such a way that the stack of frames is formed. However, a third and fourth frame 10 is also arranged on the second frame 10, so that the stack of frames according to FIG. A securing plate is arranged between the respective frames 10 with the frame positioning device 40 . The securing plate can additionally have one or more indentations for accommodating the adjustment devices 56 in the stacked state. For example, several frames 10 can be easily and safely transported in a vehicle (not shown) or stored in a storage location (not shown).
  • FIG. 8 describes a method for positioning the frame.
  • the method 200 for positioning and assembly i.e. for installing the frame 10 in a wall or a wall section, comprises the following steps:
  • Step 210a Adaptation of the width of the frame positioning device 40 to the width of the frame 10 by the length of the rod elements 55, 57 of the adjustment device 56 being adjusted and fixed. The fixing is done by tightening the union nut 90,
  • Step 210b connecting the frame positioning device 40 to the frame 10. In doing so the sealing lip 34 is removed from the frame 10 before connecting.
  • the frame positioning device 40 is first positioned between the side part 12 and the frame side element 14, aligned at the lower end by hand flush with the frame 10 and screwed tight using the screws that are inserted through the recesses 120 of the positioning plate 42 and the positioning plate 44,
  • Step 220 picking up and carrying the frame positioning device 40 on the holding device 80, 82.
  • Step 220 can also include transporting the frame positioning device 40 with a vehicle.
  • several frames 10 can be stacked one on top of the other and transported in a vehicle, with each frame 10 being connected to the frame positioning device 40 .
  • the interim storage of a plurality of frames 10 each connected to the frame positioning device 40 in the vehicle is shown in FIG. 7;
  • Step 230 positioning of the frame 10 by means of the frame positioning device 40 on a wall in which the frame 10 is to be installed.
  • Step 230 can also include fixing the frame 10 in the wall or wall.
  • This, preferably temporary, fixing can be done by means of so-called Winbags (air cushions), which are inserted between the frame and the wall and inflated using a hand pump, so that the frame is prestressed in relation to the wall, which facilitates the subsequent alignment according to step 240.
  • Winbags air cushions
  • the advantage of the Winbags is that there is no need for wedges to fix the frame, which makes it easier to assemble and fix the frame.
  • the frame 10 is first roughly positioned in the wall and then manually balanced in the horizontal and vertical directions by means of the adjusting device 70, 72;
  • Step 240 aligning the frame 10 relative to the wall or masonry so that the frame 10 is oriented in a vertical and horizontal direction.
  • the alignment is done by means of the height adjustment device 70, 72 and the spirit level 78 as a control element of the horizontal position.
  • Step 250 Attach the frame to the wall.
  • the attachment can preferably include the step of foaming with a fixing agent.
  • the frame 10 is then permanently connected to the wall.
  • the frame 10 can be removed from the wall, for example, by destroying the wall or the frame 10 .
  • step 260 remove the frame positioning device 40 by loosening the connecting means, for example loosening the screws from the groove 36 of the frame 10
  • Fig. 9 shows the frame positioning device 40 according to Figure 3 or Figure 4 with a mounted side support element 126.
  • the frame positioning device 40 has at least one side support element 126 which is releasably attached to the positioning element 40a in the assembled state.
  • the side support element 126 has a side support surface 128 for lateral support of a lining board 26 of the frame 10 (cf. FIGS. 1a, 2).
  • the side support element 126 additionally has a positioning support surface 130 for supporting the side support element 126 on the first positioning plate 42.
  • the side support element 126 also has, according to FIG. 9, a basic body in the shape of a right-angled triangle with rounded corners. Parallel to the hypotenuse, a holding recess is made in the side support element 126 for removing the side support element 126 from the first positioning plate 42. A further holding recess is made in a section of the side support surface 128.
  • this section of the side support surface 128 can also be designed without a further holding recess, i.e. straight throughout.
  • the basic body is not limited to a right triangle. Other basic body shapes such as rectangles or squares are also conceivable as long as the condition is met that the side support surface 128 and the positioning support surface 130 are aligned at right angles to one another.
  • the first side support element 126 is detachably fastened to the first holding recess 80b of the first positioning plate 42 in the assembled state. Accordingly, the first side support member 126 has a T-shaped mounting boss 132 which rises from the positioning support surface 130 and by means of which the side support member 126 engages the first retaining recess 80b. 9 shows that the opposing walls of the holding recess 80b also engage with their entire thickness or depth in the recesses of the mounting projection 132 resulting from the T-shape. In other words, the depth of the walls of the holding recess 80b corresponds to the depth of the two recesses of the mounting projection 132.
  • the depth of the walls of the holding recess 80b can be slightly greater than the depth of the two recesses of the mounting projection 132 (by forming an oversize fit).
  • both the holding recess 80b and the assembly projection 132 have rounded edges.
  • the holding recess 80b can have an insertion bevel (not shown in FIG. 9).
  • Such a slant can be formed, for example, by a section-wise sloping course of a long side (related, for example, to an opposite long side) of the holding recess 80b.
  • the other holding recesses 80a, 82a, 82b (cf. FIG. 3) can also have such insertion bevels.
  • the assembly takes place in such a way that the side support element 126 is first passed axially through the holding recess perpendicularly to the final assembly position shown in FIG. 9 by means of the assembly projection 132 .
  • the side support element 126 is rotated through 90° and pushed to its final position at the lower end in the retaining recess 80b, so that it then has a firm seat and its side support effect for the lining board 26 of the frame 10 can develop.
  • the holding recess 80b can also have an insertion bevel, which can additionally facilitate assembly.
  • the frame positioning device 40 can have a plurality of side support elements 126, but preferably has at least two side support elements 126 for reasons of stability and support for the frame 10. Accordingly, it can further be provided that a second side support element (not shown in FIG. 9) is releasably fastened to a second retaining recess 82b of the second positioning plate 44 (cf. FIG. 3) at the same height in the assembled state. The fastening takes place corresponding to the side support element 126 described above in the further holding recess 82b.
  • the positioning element 40a made up of the first and second positioning plates 42, 44, also has a connecting mechanism in the form of a folding mechanism 49, by means of which the frame positioning device 40 can be folded up when it is dismantled from the frame 10.
  • the folding mechanism is arranged in the middle.
  • an eccentric arrangement is also conceivable.
  • the folding mechanism 49 has a first folding device and a second folding device.
  • the first folding device is arranged on the first positioning plate 42 .
  • the second folding device is arranged on the second positioning plate 44 (not shown in FIG. 9). Consequently, the first and second positioning plates 42, 44 are foldable in a state disassembled from the frame 10.
  • the folding sides of the first and second positioning plates 42, 44 are respectively the sides which are arranged opposite (in the depth direction) to the adjusting devices 56, 56a, 56a, 56b, 56c.
  • the frame positioning device 40 takes up only half as much space when stored in terms of length or height 46 .
  • the first and second folding device 49 is designed as a flap belt for a long service life and a precise mutual arrangement of the positioning plate parts. Alternative forms of the folding devices such as hinges are also conceivable.
  • the frame positioning device 40 also has a first fixing element and a second fixing element (not shown in FIG. 10).
  • the first fixing element is fixed to the first positioning plate 42 and the second fixing element is fixed to the second positioning plate 44, so that the first and second positioning plates 42, 44 are mutually fixed in the unfolded state.
  • the first and second fixing element can preferably be designed as a quick-action clamp, with a clamping mechanism with a bracket or clamp being arranged on an end region of one plate half of the first and second positioning plates 42, 44.
  • a hook or loop (engaged by the clip or clip of the tensioning mechanism) is provided on a further opposite end portion of the other respective plate half of the first and second positioning plate 42, 44 arranged so that the bracket or clip engages the hook or loop in the unfolded state.
  • the two plate halves of the first and second positioning plate 42, 44 are pulled together in the unfolded state, so that a rigid first and second positioning plate 42, 44 and thus a rigid positioning element 40a is formed.
  • FIG. 10 shows the side support member 126 of FIG. 9 in a single plan view illustration.
  • the T-shaped mounting projection 132 and the recesses 132a, 132b of the mounting projection 132 resulting from the T-shape are shown in full.
  • all of the outer corners of the side support member 126 are rounded except for the corner between the side support surface 128 and the positioning support surface 130 (to increase the effective support side lengths) and the four corners which are in the bottom of both recesses 132a, 132b are located.
  • these four corners are rounded with a suitable radius or the corner between the side support surface 128 and the positioning support surface 130. It is also conceivable that the corners shown rounded in FIG.
  • the sides in the respective bottom of the recesses 132a, 132b of the mounting projection 132 are arranged parallel to one another. However, it is also conceivable for these sides to be aligned at an angle to one another, so that the cross section of the mounting projection 132 is trapezoidal in the area of the two recesses 132a, 132b. Accordingly, this area could form a wedge-shaped interference fit within the two recesses 132a, 132b with correspondingly aligned inner sides of the retaining recesses (e.g. retaining recess 80b from FIG. 9).
  • Fig. 11 shows a schematic sectional view of a frame 10 with a mounted frame positioning device 40 according to Fig. 3 or Fig. 4.
  • the positioning element 40a has a first and second connection region 40b, 40c.
  • the first connection region 40b of the positioning element 40a consequently has a first frame attachment surface 40d and a second frame attachment surface 40e.
  • the first frame attachment surface 40d is in contact with an end face of the first lining board 26, with the second frame attachment surface 40e being in contact with an inner side of the first rabbet cover 28.
  • the front surface of the first lining board 26 and the inside of the first fold cladding 28 are aligned at right angles to one another and thus form two mating surfaces on which the Positioning element 40a can be fastened in a defined manner by means of the first connecting region 40b. Consequently, the first and second frame attachment surfaces 40d, 40e are also aligned at right angles to one another.
  • the second connecting area 40c of the positioning element 40a consequently has a further first frame attachment surface 40f and a further second frame attachment surface 40g, which are each aligned axisymmetrically (relative to a central longitudinal axis of the positioning element 40a) with respect to the first frame attachment surface 40d and the second frame attachment surface 40e.
  • the further first frame attachment surface 40f is in contact with an end face of the second lining board 26, the further second frame attachment surface 40g being in contact with an inside of the second rabbet cladding 28.
  • the end face of the second lining board 26 and the inside of the second fold cladding 28 are aligned at right angles to one another and form two mating surfaces to which the positioning element 40a can be fastened in a defined manner by means of the second connecting region 40c. Consequently, the further first and further second frame attachment surface 40f, 40g are aligned at right angles to one another.
  • a corresponding schematic representation of one of the adjusting devices 56a, 56b, 56c can be seen in FIG. 11 on the basis of the plan view.
  • the view according to FIG. 11 shows the central axes M of the first recesses 122 and the second recesses 124 (only two recesses can be shown in the sectional plane) extending obliquely relative to a surface normal of the positioning element 40a.
  • the configuration of the positioning element 40a and the recesses 122, 124 corresponds to that of Fig. 3 and Fig. 4.
  • the recesses 122, 124 are shown only schematically in Fig. 11 (for example, the recesses 122a, 124a of the adjustment device attachments are not shown in Figure 11).
  • the frame positioning device 40 is attached by means of its respective first and second frame attachment surfaces 40d, 40e, 40f, 40g to the respective mating attachment surfaces on the end faces of the lining boards 26 and on the insides of the rebate cladding 28 of the frame 10 pressed in the fully assembled state.
  • the central axis M of the first recess 122 is aligned in such a way that this central axis M is aligned with a recess area of the groove 36 of the frame 10 .
  • the groove 36 formed in an end face of both lining boards 26 has an opening side from which the recessed portion (that is, the recessed portion) of the groove 36 extends in a width direction of the lining board 26 .
  • the first recess 122 is introduced as a through hole in the first connecting region 40b in the positioning element 40a and extends over its entire thickness 50.
  • a sleeve or bushing e.g.
  • first recess 122 made of aluminum or an aluminum alloy
  • a connecting element e.g. in the form of a screw, especially wood screw
  • the connecting element is guided by the first recess 122 in such a way that it pierces the opening side of the groove 36 and can be fastened in the depression area and/or the groove base of the groove 36 in the lining board 26 .
  • the extension and alignment of the second recess 124 is axially symmetrical (relative to a central longitudinal axis of the positioning element 40a) to the first recess 122. Accordingly, in the installed state, the central axis M of the second recess 124 is aligned in such a way that this central axis M coincides with a recessed area of the groove 36 the frame 10 is aligned.
  • the second recess 124 is made as a through hole in the second connecting area 40c in the positioning element 40a and extends over its entire thickness 50. According to FIG. introduced in order to improve the guidance of a connecting element (e.g. in the form of a screw, especially a wood screw) and to reduce wear during repeated assembly and disassembly.
  • the connecting element (not shown in FIG. 11 ) is guided by the second recess 124 in such a way that it pierces the opening side of the groove 36 and can be fastened in the depression area and/or the groove base of the groove 36 in the lining board 26 .
  • the depth or thickness 50 of the positioning element 40a is selected according to FIG the greatest possible overlap with the two straight inner sides of the fold cladding 28 is created. This can result in an overlap of 60, 70, 80, 90 or 100%.
  • FIG. 12 shows a section of a perspective representation of a frame 10 with a mounted frame positioning device 40 according to FIG. 3 or FIG. 4 .
  • an outer adjuster attachment means 60a (described in more detail in Figures 4 to 5c). It is arranged flush with the rebate cladding 28 of the frame by means of an outside surface in order to achieve maximum stability.
  • the height adjustment device 70 which is described in more detail in FIG.
  • the height adjuster 70 has an angled extension extending from its attachment plate to the bottom end side of the first positioning plate 42 and through which reinforcements of the respective ground contact surfaces of the first positioning plate 42 can be formed.
  • the bottom end sides of the frame 10 and the positioning element 40a (or the first positioning plate 42) and the angled extension are aligned flush with one another, which is advantageous for precise positioning of the frame 10. This also applies correspondingly to the further height adjustment device 72 and the further bottom end sides of the frame 10 and the positioning element 40a (or the second positioning plate 44).
  • FIG. 12 also shows that for the assembly of the frame positioning device 40 the seal or the sealing element 34 has been taken out or removed from the groove (not shown in FIG. 12) at least according to the length of the frame positioning device 40 .
  • the sealing element 34 is passed through a free space in the adjusting device fastening means 60a and is thus fastened.
  • the frame positioning device 40 can have appropriate fastening devices (not shown in Fig. 12) such as loops, clips or hooks for fastening the one or more sealing elements 34, so that the sealing element 34 cannot be damaged during the various assembly steps as part of an assembly process.
  • the already completed assembly step can be seen, based on which the Zargenpositioniervoriques 40 is releasably attached to the frame 10 or connected to it.
  • Other preceding and subsequent assembling steps will now be explained below with reference to an assembling method.
  • a corresponding method for positioning and mounting the frame 10 in a wall or a wall section using the frame positioning device 40 can include the following steps:
  • the detachable connection of the frame positioning device 40 to the frame 10 takes place here by the at least one connecting means 120, which is detachably fastened in the groove 36, as already described in connection with FIG.
  • Fig. 13 shows a packaging unit 134 with a frame positioning device 40 according to Fig. 3 or Fig. 4.
  • the packaging unit 134 has a frame positioning device 40 as illustrated in FIG. 3 or FIG. 4 disposed therein in a collapsed state.
  • the packaging unit 134 has one or more side support elements 126 on, which (s) is arranged in the packaging unit 134.
  • the packaging unit 134 is made of a cardboard material and encloses the frame positioning device 40 circumferentially essentially flush.
  • the packaging unit has filling material 136, e.g and thus has a transportable seat within the unit 134.
  • FIG. 14 shows a mirrored representation of the frame positioning device 40 according to FIG.
  • the frame positioning device 40 according to FIG. 14 essentially has the same structural and functional features as the frame positioning device 40 according to FIG. 3, but in a mirrored representation with respect to the longitudinal central axis.
  • the adjusting devices 56a, 56b, 56c have a rigid, radially outer rod element 55a, 55b, 55c, which is fastened to the first positioning plate 42.
  • an inner rod element 57a, 57b, 57c which is slidably guided therein and is fastened to the second positioning plate 44, is provided.
  • a scale (cf. FIG. 5b) is applied to the inner rod element 57a, 57b, 57c and can be read through a recess in the outer rod element 55a, 55b, 55c in the form of the control device 92.
  • the values of the scale increase starting from the free end of the inner rod element 57a, 57b, 57c (cannot be shown due to the guidance in the outer rod element 55a, 55b, 55c) in the direction of the end of the inner rod element 57a, 57b attached to the outer adjustment device attachment means 62a, 57c. Accordingly, as the width 47 of the positioning element 40a increases, smaller values are displayed on the scale and vice versa, which is counterintuitive for a user. In this context, it can be conceivable that the scale from FIG. 3 has a correspondingly reversed assignment in relation to the two ends of the inner rod element 57a, 57b, 57c described above.
  • the inner rod element 57a, 57b, 57c which is slidably guided therein and is fastened to the second positioning plate 44, is provided.
  • the scale (cf. FIG. 5b) is applied to the inner rod element 57a, 57b, 57c.
  • the scale in Fig. 14 (compared to Fig. 3) is not mirrored, so that the values of the scale start from the end of the inner rod element 57a, 57b, 57c attached to the outer adjusting device attachment means 62a in the direction of the free end of the inner rod element 57a, 57b, 57c (guided inside the outer rod element 55a, 55b, 55c). Accordingly, as the width 47 of the positioning element 40a increases, larger values are also displayed on the scale and vice versa, which is intuitive for a user.
  • FIG. 15 shows the mirrored arrangement of the adjusting device 56 (only one device shown) compared to FIG. 14 in more detail.
  • the adjusting device 56 according to FIG. 15 essentially has the same structural and functional features as the adjusting device 56 according to FIG. 5a, but in a mirrored representation with respect to the transverse central axis.
  • Fig. 16 shows a perspective view of a further embodiment of a height adjustment device 70, 72.
  • the height adjustment device 70, 72 has a threaded bolt or pin 73 (can also be designed as a threaded rod), which is guided in two bolt receptacles 75a, 75b.
  • the height adjustment device 70, 72 has an L-shaped retaining plate 77, a first leg of the plate 77 being fastened to the respective positioning plate 42, 44 by means of four screws.
  • a second leg is aligned perpendicular to the first leg and is thus aligned perpendicular to the surface of the respective positioning plate 42, 44 in the assembled state.
  • the second leg has the first bolt receptacle 75a, which has an internal thread corresponding to the threaded bolt 73 and by means of which the threaded bolt is guided in the first bolt receptacle 75a.
  • 16 shows the first bolt receptacle 75a in the form of a welded-on nut, although other corresponding solutions such as sleeves, bushings or a thread introduced directly only in the second leg can also be provided.
  • the second bolt receptacle 75b is designed as a sleeve whose central axis is aligned with the central axis of the first bolt receptacle 75a.
  • the second bolt receptacle 75b also has an internal thread corresponding to the threaded bolt 73 and is fastened to the outer adjustment device fastening means 60a by a welded connection.
  • the second leg of the retaining plate 77 which is attached to the respective positioning plate 42, 44, has a right-angled extension in the area of the lower edge 74, 76 or edge area of the positioning plates 42, 44, through which reinforcements of the ground contact surfaces of the first and second Positioning plate 42, 44 can be formed.
  • the bottom end of the threaded bolt 73 has a foot element 71 in the form a circular disc.
  • a hand wheel or star head 71a for manual and tool-free height adjustment is arranged on an end of the threaded bolt 73 opposite the foot element 71 and is connected to the threaded bolt in a non-rotatable manner.
  • the threaded bolt 73 can be turned clockwise or counterclockwise by means of the hand wheel 71a, so that the side elements of the frame 10 (fixedly connected to the positioning plates 42, 44) can be raised or lowered in the vertical direction and the frame 10 can thereby be aligned.
  • sealing lip sealing element
  • Frame positioning device a positioning element 40b first connecting areac second connecting area d first frame attachment surface e second frame attachment surface f further first frame attachment surface g additional second frame attachment surface first positioning plate a base plate b outer plate leg c middle plate leg d outer plate leg second positioning plate
  • Height adjustment device height adjustment element Threaded bolt lower edge of the first positioning plate Bolt receptacles a Bolt receptacle b Bolt receptacle lower edge of the second positioning plate Retaining plate for the height adjustment device Level indicator in the middle area
  • Holding device holding recess, holding openinga holding device, holding recess, holding openingb holding device, holding recess, holding opening holding device, holding recess, holding openinga holding device, holding recess, holding openingb holding device, holding recess, holding opening working recess, working opening

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Connection Of Plates (AREA)
  • Packaging Frangible Articles (AREA)

Abstract

La présente invention concerne un dispositif de positionnement de cadre (40) destiné au positionnement d'un cadre (10) dans une paroi ou une section de paroi. Au moins un élément de positionnement (40a) qui comporte une première zone de raccordement (40b) et une seconde zone de raccordement (40c) est fourni et ledit au moins un élément de positionnement (40a) peut être relié, en particulier de manière amovible, au cadre (10) au moyen de la première et de la deuxième zone de raccordement (40b, 40c). Au moins un moyen de raccordement (120) pour relier le dispositif de positionnement de cadre (40) au cadre (10) est disposé sur la première et/ou la deuxième zone de raccordement (40b, 40c). En outre, la présente invention concerne une unité d'encapsulation (134) comprenant au moins un dispositif de positionnement de cadre (40), un cadre (10) qui est relié au dispositif de positionnement de cadre (40) tout en étant positionné, et un empilement de cadres ayant au moins un premier cadre (10) et au moins un second cadre (10). En outre, la présente invention concerne un procédé de positionnement et/ou de montage d'un cadre (10) dans une paroi ou une section de paroi au moyen d'au moins un dispositif de positionnement de cadre (40).
PCT/EP2022/073825 2021-09-02 2022-08-26 Dispositif de positionnement de cadre et procédé de positionnement d'un cadre WO2023031052A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CA3230065A CA3230065A1 (fr) 2021-09-02 2022-08-26 Dispositif de positionnement de cadre et procede de positionnement d'un cadre
AU2022336965A AU2022336965A1 (en) 2021-09-02 2022-08-26 Frame-positioning device and method for positioning a frame

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
DE202021002855.2 2021-09-02
DE202021002855.2U DE202021002855U1 (de) 2021-09-02 2021-09-02 Montagehilfe für den Einbau einer Zarge
EP21000285.3 2021-10-07
EP21000285.3A EP4144936A1 (fr) 2021-09-02 2021-10-07 Dispositif de positionnement d'encadrement et procédé de positionnement d'encadrement
DE202022001083.4U DE202022001083U1 (de) 2022-05-05 2022-05-05 Zargenpositioniervorrichtung
DE202022001083.4 2022-05-05

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WO2023031052A1 true WO2023031052A1 (fr) 2023-03-09

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PCT/EP2022/073825 WO2023031052A1 (fr) 2021-09-02 2022-08-26 Dispositif de positionnement de cadre et procédé de positionnement d'un cadre

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AU (1) AU2022336965A1 (fr)
CA (1) CA3230065A1 (fr)
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE8014314U1 (de) * 1980-05-28 1980-10-02 Sehr, Alfred, 8000 Muenchen Vorrichtung zur ausrichtung einer zarge in einer wandoeffnung
EP0918127A1 (fr) * 1997-11-20 1999-05-26 Schreinerei Plüss Châssis de porte et dispositif de montage
DE29822526U1 (de) * 1998-12-17 2000-04-20 Mueller Georg Montagevorrichtung zum Montieren einer Zarge

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE8014314U1 (de) * 1980-05-28 1980-10-02 Sehr, Alfred, 8000 Muenchen Vorrichtung zur ausrichtung einer zarge in einer wandoeffnung
EP0918127A1 (fr) * 1997-11-20 1999-05-26 Schreinerei Plüss Châssis de porte et dispositif de montage
DE29822526U1 (de) * 1998-12-17 2000-04-20 Mueller Georg Montagevorrichtung zum Montieren einer Zarge

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CA3230065A1 (fr) 2023-03-09

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