EP1295839A1 - Method and template to instal a landing door of an elevator - Google Patents

Abstract

A template possessing a positioning element (3) and a frame (2) is first inserted into the unfinished shaft-door opening. The positioning element is then removed from the frame, and the shaft-door mounted in the opening formed by the frame. The frame has anchoring-clips anchoring it in the unfinished shaft-door opening.

Description

The invention relates to a method for installing a Landing door of an elevator system and an inlay frame Installation of a landing door of an elevator system.

A teaching is known from the document US 3,984,952, in order to Construction of a building making the door openings for the Lighten elevator doors. The teaching is already on one door guide installed inside the shaft with Fasteners attached and to the desired one Position positioned. Because the teaching is the one you want Door opening size plus 2.5 cm tolerance on each Side, the wall with the door opening up to Concrete poured. After their use, the teaching completely removed. Then the door opening for the shaft door that can be used later. Disadvantage of the proposed lesson is that the door guides of the Shaft doors installed before the shaft wall was built Need to become. It is also at this stage of construction extremely difficult to find the exact position of the shaft doors determine. When installing the final door frame must this can be adjusted again. Another disadvantage is this known solution the fact that through the Removal of the teaching the interface between the concrete wall and the gauge are still damaged can. The bricklayer or plasterer must then be used again come and rework the wall with the door opening, this time but without the presence of the teaching. These ex post Fine work takes time and additional coordination between the elevator fitters and the masons or plasterers. This significantly increases the installation times. The subsequent fine work can be inevitable unwanted contamination of the main frame of the door opening lead, which in turn causes additional work. There especially the door interface is particularly critical for that Cost of the whole elevator system, these lead additionally emerging work on the door opening to massive higher Installation costs.

The invention has for its object to provide a method for Installation of a shaft door and an inlay frame To carry out the procedure to propose the do not have the aforementioned disadvantages and a fast, allow more accurate and clean installation of the landing doors.

This object is achieved by the features of patent claim 1 and of claim 9 solved.

One advantage is the fact that it is accurate to the millimeter Installation of the insert frame is possible, in which the prefabricated shaft door frames later used precisely becomes. No reworking on the wall is necessary.

By those listed in the dependent claims Measures are advantageous training and Improvements of the method specified in claim 1 and of the insert frame specified in claim 9 possible.

The inlay frame can be used as a reference level for concreting serve. This has the advantage of being a smooth, refined one and better finishing the definitive Shaft door opening is possible.

Another advantage is that the connectivity between the shaft door and the insert frame, the means between sheet and sheet, is better than that conventional connection concrete sheet. This will be achieved that the gauge can be made of sheet metal.

Overall, the invention also has the following advantages:

No screws and bolts for positioning the Inlay frames in the raw shaft door wall are necessary. This saves material and assembly time.

A temporal dependency between the mason / plaster team and the elevator fitter team is avoided. The two teams can do theirs independently Plan work and carry it out undisturbed.

With the method according to the invention, a higher one Degree of prefabrication can be achieved.

Almost everything can be installed in the dry phase.

At the end of assembly, there is only a minimal air gap between the shaft door frame and the shaft door opening, which none costly rework caused.

All the features explained are not only in each specified combination, but also in others Combinations or usable alone, without the Leave the scope of the invention.

Fig. 1 eine Globaldarstellung einer Lehre in einer rohen Schachttüröffnung gemäss der Erfindung,

Fig. 2 einen Einlegerahmen einer Lehre gemäss einer Ausführungsform der Erfindung,

Fig. 3 ein Positionierungselement, das mit dem Einlegerahmen gemäss Figur 1 anwendbar ist,

Fig. 3a eine Seitenansicht des Positionierungselementes aus Figur 3,

Fig. 4 eine Schachttüröffnung mit einem bereits fixierten Einlegerahmen gemäss Figur 1,

Fig. 5 eine teilweise Draufsicht der Schnittstelle Schchttürrahmen-definitive Schachttüröffnung,

Fig. 6 eine Lehre im nicht zusammengebauten Zustand,

Fig. 7 die Positionierung einer Lehre in der rohen Schachttüröffnung,

Fig. 8 eine Ausführungsform eines weiteren Befestigungsmittels.

Various exemplary embodiments of the invention are shown in the schematic drawings and explained in more detail in the description below. Show it:

1 is a global representation of a teaching in a raw shaft door opening according to the invention,

2 shows an insert frame of a teaching according to an embodiment of the invention,

3 shows a positioning element which can be used with the insert frame according to FIG. 1,

3a shows a side view of the positioning element from FIG. 3,

4 shows a shaft door opening with an already fixed insert frame according to FIG. 1,

5 is a partial top view of the interface between the shaft door frame and the shaft door opening,

6 is a teaching in the unassembled state,

7 the positioning of a gauge in the raw shaft door opening,

Fig. 8 shows an embodiment of a further fastener.

Figure 1 shows a global representation of a teaching 1, the an insert frame 2 and a positioning element 3 having. The insert frame 2 becomes detachable with the Positioning element 3 connected. This is where Positioning element 3 within the insert frame 2. Die Gauge 1 is roughly a few centimeters wide wider shaft door opening RS used.

Figure 2 shows the insert frame 2 of teaching 1, which for the precise installation of a landing door 11 of an elevator is used. The insert frame 2 has one rectangular shape and is preferably made of sheet metal. The insertion frame 2 can preferably be made in three parts that is, it can have two vertical lateral profiles 21 and have an upper horizontal profile 22. The Assembling these profiles forms the rectangular one Insert frame 2. The circumference of the insert frame 2 corresponds essentially the size of the later to be used Landing door 11. There are 2 on the outside of the insert frame Anchoring tabs 4 are present, which anchoring the Serve insert frame with the wall of the elevator shaft. The Anchoring tabs 4 are parallel to the peripheral surface of the insert frame 2. When installed, the Anchoring tabs 4, however, bent out to obliquely with respect to the peripheral surface of the insert frame 2 to be asked. One end E1 of the anchor tab 4 remains fixed on the insert frame 2 and the other end E2 Anchoring tab 4 is at an angle α to the vertical distanced from the insert frame 2.

Figure 3 shows a positioning element 3, which together with the insert frame 2 forms the teaching 1. The Positioning element 3 has in this embodiment a left longitudinal rod 5 and a right longitudinal rod 6, the one another by three in height essentially equidistant cross bars 7 are connected. The Positioning means 3 also has fastening means 8 on, by means of which the insert frame 2 on Positioning element 3 is attached. The Positioning element 3 also has reference elements 14 on that with further fasteners 15 to the Longitudinal rods 5, 6 are attached.

In Figure 3a is a side view of the Positioning element 3 specified, in which the Reference elements 14 are clearly visible. each Reference element 14 has a reference symbol M, which as Line, marking or groove is formed. This Reference elements 14 are used for the exact positioning of the Teaching 1 used and can be swiveled in this example the longitudinal rods 5, 6 attached. You can go from one Hibernation, where they are essentially parallel to the respective longitudinal rods 5, 6 are arranged in one Be brought to work where they are essentially arranged perpendicular to the respective longitudinal bars 5, 6 are. For example, this movement is in Figure 3a with P designated. With the help of one suspended in the shaft Lot 1 L or a laser beam, teaching 1 is correct positioned. The plumb line L is aligned with the Reference symbol M of the one in the working state Reference elements 14 positioned.

Figure 4 shows a shaft door 11 in the installed state. The Insert frame 2 is in the definitive shaft door opening 9 installed, the extended anchoring tabs 4 in the shaft door wall 10 are concreted. The shaft door wall 10 is used by the bricklayer towards the shaft door opening with concrete filled in until the insert frame edge 2.1 is reached (see also Figure 5). In the end, the inner surface O the definitive shaft door opening 9 partly made of concrete be (towards aisle G) and partly with the insert frame 2 provided (towards shaft S). The insert frame is thus hardly visible from the outside. That means if you go from aisle G from exactly in a vertical direction to the shaft door surface the insert frame 2 is not visible. The inner one Surface O of the definitive shaft door opening 9 is aligned in perpendicular to the shaft door surface with the Insert frame edge 2.1 (see also Figure 5). That detail is only partially in Figure 4 for the sake of simplicity indicated (detail A). The concreting is preferably carried out in this way over the entire circumference of the insert frame 2. The shaft door frame 12 fits into the through the insert frame 2 formed shaft door opening 9. Between the Insert frame 2 and the shaft door frame 12 will only be one small air gap 13 may be present at the end of the Installation easily with e.g. silicone can be.

Figure 6 shows the teaching in not yet assembled Status. The three profiles 21, 22 of the insert frame 2 are attached to the circumference of the positioning element 3.

FIG. 7 shows how a clamping device 16 aligns gauge 1 in a raw shaft door opening and holds. The tensioning device 16 is between the ceiling D and Floor B braced. With the help of brackets 17 Clamping device 16 the teaching 1.

Figure 8 shows a possible embodiment of another Fastening means 15 with a thread 18 and a Wing nut 19 is provided.

Um die Lehre 1 zu bilden, wird der Einlegerahmen 2 am Positionierungselement 3 befestigt (siehe Figur 6). Die Lehre 1 wir dann in die rohe Schachttüröffnung RS des Aufzugsschachtes S eingebaut, damit der Einlegerahmen 2 an der richtigen Stelle positioniert werden kann. Die Lehre 1 wird zwischen der Decke und dem Boden eines Stockwerkes ausgerichtet und mittels Spanneinrichtungen 16 eingespannt (siehe Figur 7). Die Lehre 1 wird somit mit Hilfe einer Spanneinrichtung und ohne jegliche Verwendung von Schrauben oder Bolzen am richtigen Ort eingesetzt. Die Verankerungslaschen 4 des Einlegerahmens 2 werden dann herausgezogen, damit sie in dem Raum R zwischen dem Einlegerahmen 2 und der daneben stehenden rohen Schachtüröffnungswand RS liegen. Der Maurer wird dann den Raum R zwischen dem Einlegerahmen 2 und der rohen Schachttüröffnungswand RS zum Beispiel mit Beton ausfüllen. Die Verankerungslaschen 4 werden damit auch einbetoniert. Der Einlegerahmen 2 dient dem Maurer als Referenzebene für die Betonierung und erleichtert ihm die Arbeit wesentlich. Der Maurer wird die Schachttüröffnungswand in Richtung Schachttüröffnung mit Beton ausfüllen, bis er die Einlegerahmen-Kante 2.1 erreicht hat. Somit wird der Einlegerahmen 2 mit der Schachtwand fixiert. Das Positionierungselement 3 wird dann vom Einlegerahmen 2 entfernt, damit später die vorgefertigte Schachttür 11 in die definitive Schachttüröffnung 9 eingesteckt werden kann. Die Schachtür 11 weist den Schachttürrahmen 12 und vorzugsweise Türflügel 12' auf. Das Positionierungselement 3 kann dann für weitere Stockwerke verwendet werden. Der minimale Luftspalt 13 zwischen Schachttürrahmen 12 und definitiver Schachttüröffnung 9 kann, wie gesagt, problemlos mit einer Dichtmasse, zum Beispiel mit Silikon, ausgefugt werden.

The procedure for installing landing doors essentially looks like this:

In order to form the gauge 1, the insert frame 2 is attached to the positioning element 3 (see FIG. 6). The gauge 1 is then installed in the raw shaft door opening RS of the elevator shaft S, so that the insert frame 2 can be positioned in the right place. The gauge 1 is aligned between the ceiling and the floor of a floor and clamped by means of clamping devices 16 (see Figure 7). The gauge 1 is thus used in the right place with the help of a clamping device and without any use of screws or bolts. The anchoring tabs 4 of the insert frame 2 are then pulled out so that they lie in the space R between the insert frame 2 and the raw shaft door opening wall RS next to it. The bricklayer will then fill the space R between the insert frame 2 and the raw shaft door opening wall RS with concrete, for example. The anchoring tabs 4 are thus also concreted in. The insertion frame 2 serves the mason as a reference plane for the concreting and makes work much easier for him. The mason will fill the shaft door opening wall with concrete in the direction of the shaft door opening until he has reached the insert frame edge 2.1. The insert frame 2 is thus fixed with the shaft wall. The positioning element 3 is then removed from the insertion frame 2, so that the prefabricated shaft door 11 can later be inserted into the definitive shaft door opening 9. The shaft door 11 has the shaft door frame 12 and preferably door leaf 12 '. The positioning element 3 can then be used for further floors. The minimum air gap 13 between the shaft door frame 12 and the definitive shaft door opening 9 can, as said, be easily filled with a sealing compound, for example with silicone.

Since the shaft door frame 12 and the insert frame 2 from the are the same material, preferably made of sheet metal, the Ability to connect door frame insert frame, i.e. sheet metal better and cleaner than the conventional connection Sheet metal and concrete. The subsequent fine work will much easier and happen all in one Working phase where the concrete is already dry. this leads to a clean installation.

Claims (10)

Method for installing a shaft door (11) Elevator system, in which a first one Positioning element (3) and an insert frame (2) showing gauge (1) in a raw shaft door opening (RS) is inserted, then the positioning element (3) from the Insert frame (2) is removed and then the shaft door (11) in the definitive formed by the insert frame (2) Shaft door opening (9) is mounted. Method according to claim 1, in which the teaching (1) in the raw shaft door opening (RS) in a predetermined Position is aligned to the shaft. The method of claim 1 or 2, wherein the Insert frame (2) for its anchoring to the definitive Has shaft door opening (9) anchoring tabs (4). A method according to claim 3, wherein the Anchoring tabs (4) in the space (R) between the Insert frame (2) and a wall of the raw shaft door opening (RS) are brought out of the insert frame (2). Method according to one of the preceding Claims in which the space (R) between the Insert frame (2) and a wall of the raw shaft door opening (RS) is concreted. Method according to one of the preceding claims, in which the insert frame (2) as a reference plane for the Concreting, for the subsequent fine work on the wall as well as for the installation of the shaft door (11) in the wall the definitive shaft door opening (9) remains. Method according to one of the preceding Claims, in which the teaching (1) made of sheet metal becomes. Method according to one of the preceding Claims, in which a gap (13) between Landing door frame (12) and insert frame (2) with silicone is grouted. Insert frame for installing a landing door Elevator system, which can be installed with a Positioning element (3) can be connected, the Insert frame (2) for anchoring in a shaft wall Has anchoring tabs (4). Insert frame according to claim 9, wherein the preferably stamped anchor tabs (4) from the Insert frame (2) can be bent out.

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