FI107141B - Shaft door construction - Google Patents

Abstract

Shaft door construction for a lift and comprising a sill 25 fastened in the lower edge of the door opening in the shaft, an upper supporting beam 29 and also at least one door leaf 23 suspended from the upper supporting beam. Belonging to the door construction are further vertical members 26 on both sides of the door opening being fastened to the sill 25, the upper supporting beam being fastened to said vertical members, and said vertical members upwardly being fixated in the horizontal plane and resilient in the vertical plane. <IMAGE>

Description

107141

LIFT LEVEL DOOR STRUCTURE

The invention relates to an elevator level door structure as defined in the preamble of claim 1.

5 Traditionally, the lift-level door fastening is arranged from both the lower and upper end of the door directly into the building. In other words, the threshold is fixed to the lower edge of the door opening and the upper bracket is separately attached to the upper edge of the door opening. The disadvantage of such a structure is first and foremost the difficulty of attachment and the complexity of the structures. Both the threshold and the top bracket must be separately fixed and accurately measured.

Also known are solutions in which the attachment of the level door 15 takes place in a secondary structure connected to the building. For example, steel-structured shafts have a steel H-frame used to secure the level door, which is generally secured at its lower end to the level plate and at its upper end to the level 20 supporting plate. Such a frame requires a lot of design work, is expensive to manufacture and difficult to install.

In general, there are problems and difficulties in attaching a level door because good attachment points are difficult for both the threshold and the top bracket, the shaft dimension can vary widely across layers, and yet the door openings must be precisely straight and in line, and between the different floors 30, because of the longitudinal movement of the elevator shafts to which the structure of the elevator has to be adapted.

The object of the invention is to eliminate the aforementioned disadvantages. In particular, it is an object of the invention to provide a novel elevator-level door structure which is • *

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2 107141 as simple and inexpensive as possible to manufacture and install.

As regards the aspects of the invention, reference is made to 5 claims.

Preferably, the upright frame is supported at its upper and lower ends to the thresholds at the bottom of the floor door opening and to each other. This support is implemented such that the vertically extending vertically extending vertical frames are rigidly connected to one another, but in their joint connection the lower vertical frame can reach the threshold and the upper vertical frame slides in a longitudinal and sliding manner.

Preferably, the vertical frame is dimensioned such that it extends from one sill to another.

20

At different levels, vertically extending vertical frames can be connected to one another in several ways. The only thing that is important is that the joint provides a horizontal py-25 depth for the vertical frames, but allows the longitudinal vertical frames ·. movements relative to each other. It is also essential that the uprights are not in full contact with each other. The vertical bodies may be superimposed or nested so that they slide relative to one another when necessary. Various rigid profiles such as U-profile, H-profile, T-profile or round or angular tube profile can be used as the vertical frame. The L-beam acting as a vertical frame takes up a little dry space and is sturdy in both directions. By making 35 beams of two parts, if necessary, it can be fabricated for larger interstices with a standard machine base. Maintenance costs are reduced and quality improved.

In the case of the elevator top-level door structure, the vertical-5 frames may be fastened at their top end to the shaft ceiling or the like. In applications with particularly long layer spacing, the vertical frame can be supported from its top directly on the shaft wall. Also in this embodiment, the anchorage is made horizontally rigid and vertically suitably yielded.

Preferably, the vertical frame is attached to the end of the sill. Likewise, preferably, the top bracket is fastened at its ends between two vertical frames, although depending on the mounting space used and the profile of the vertical frame used, the mounting may also be otherwise arranged.

The elevator level door structure according to the invention has 20 significant advantages over the prior art. The door structure is very simple and easy to set up. Once the thresholds of the doorway level door openings have been fitted and secured, no further accurate measurements are needed. The vertical frames have 25 precise attachment points, such as perforations, for both the sill and the top bracket. Thus, the vertical frames are fixed to the ends of the sill and the upper brackets are attached to the top ends of the vertical frames. At the same time, the vertical frames are supported at their upper end by a corresponding vertical frame fixed to the upper level threshold.

': * The same standard solution and product can be ordered and used without case-specific design. When ordering, the spacing between the floors and the door height at which the mounting holes for the upper door bracket 35 are made to the correct height are specified. There are also no problems with case-specific planning.

4,107,141

In the following, the invention will be described in detail with reference to the accompanying drawings, which schematically show an elevator level 5 door structure according to the invention.

Figure 1 schematically shows an embodiment of the invention in two planes and Figure 10 shows an enlarged view of the solution according to the invention.

Shaft structures such as door openings and planes are not shown in Figure 1 for the sake of clarity of the inventive structure itself. In the door structure, a threshold 30 is fixedly attached to the lower edge of the top-level door opening by means of fasteners 31. Thereafter, a vertical rigid second rod 26 is attached to the end of the sill 30 and a similar vertical frame is also attached to the other end of the threshold 20 for hanging. Thus, the threshold 30 remains between the vertical frames 26. The vertical frames 26 have pre-dimensioned mounting holes for the sill 30, 25 and the upper bracket 29 so that no measurements are required when installed.

25. At the bottom of the middle-level doorway, a threshold 25 is respectively secured by fasteners 28. A vertical rigid first vertical frame 24 is then secured to the end of the threshold 25 and similarly hanging to the other end of the threshold 30 using mounting screws 32 through hole 35 and threshold 25. The second upright frame 26 remains between the first upright frame 24 and the sill 25. The first vertical body 24 is suspended by a fastening screw 32 acting as a fastening member, and the clearance in its elongated hole 35 is below the screw 32. In this way, a horizontal rigid screw connection is formed between the columns 24 and 26 of the columns, which, however, succumbs at high forces as needed in the longitudinal direction of the columns.

The elongated hole 36 in Figure 2 is used to account for the manufacturing tolerance of the building's floor spacing, whereby the manufactured vertical frame fits into place. Next, a hole is drilled through the opening hole 26 in the sill 25 and the vertical frame 26, and a pin 34 acting as a connecting member 10 is mounted, whereby the threshold 25 and the second vertical frame 26 can no longer move relative to one another. The first upright body 24 has an elongated hole 37 at the pin 34, whereby the pin 34 does not touch the first upright frame 24 and the portion of the clearance 15 is below the pin 34. The fastening screw 32 and the pin 34 lock the first vertical body 24 and the second vertical body 26 having elongated holes 35 and 37 and the sill 25 together and the pin 34 freely descending in the elongated hole 37 of the first stop frame 20.

Next, the top bracket 29 of the level doors is mounted on the vertical frames 26. The top bracket 29 can then be mounted on the door leafs 23 in the usual way. attached directly to the shaft structures. The shrinkage of the house results in a large vertical force that overcomes the frictional force produced by the screw 32 acting as the fastening member and the threshold 25 lowered to the stop level is lowered. A second vertical 26 follows a threshold 25 locked by a pin 34 and a door top bracket 29 follows a threshold '' * 25 attached to a second vertical frame 26. The pin 34 can freely descend in the elongated hole 37 of the first vertical frame 24.

Above, there is one way in which the sliding can be made to take place between the lower vertical frame 24 and the upper vertical frame 26 and the sill 25 bound to each other *, whereby the distance between the threshold 25 and the upper bracket 29 remains unchanged.

The entire weight of the level door structure according to the invention is transmitted through the threshold to the plane with the upper part of the door structure supported only horizontally through the threshold of the upper level door structure to the shaft structures.

10

The invention has been described above by way of example with reference to the accompanying drawings, in which various embodiments of the invention are possible within the scope of the claimed inventive concept. In the solution according to the invention, it is also possible to use one elongated hole instead of the holes 35 and 37, but in this case the structure does not become as sturdy.

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Claims (7)

A shaft door structure for an elevator, comprising a threshold (21, 25) secured to the lower edge of the door opening in the shaft, an upper support beam (22, 29) and at least one door leaf movable in the upper support beam (23), and in addition to the door structure there are also vertical frames (24, 26) which are attached to both sides of the door opening at the thresholds (21, 25) with fasteners (32, 34) and 10 heels (35, 36, 37), in which vertical bodies the upper support beams are fixed, and the vertical bodies (24, 26) are fixedly rigidly fixed in the horizontal plane, characterized in that the vertical bodies are provided with longitudinal heels (35) and (37), the construction comprising fasteners (32) and (34) which read assemble the first vertical body (24), the second vertical body (26) located above this threshold and the threshold (25) and the fastener (34) can move downwardly in the longitudinal hole (37) of the first vertical body (24). Door structure according to claim 1, characterized in that the vertical bodies (24) are fixed at the top so that they are resilient in the vertical plane. 25 Door structure according to claim 1, characterized in that the vertical bodies (24) extend from the lower threshold (21) to the upper (25) and are attached to them. '; ♦ <30 Door structure according to claim 1, characterized in that the vertical bodies (24) are fixed at the top of the upper threshold (25) so that they are resilient in the vertical plane. Door structure according to Claim 1, characterized in that the vertical bodies (26) at the bottom are fixed to the lower threshold (25) so that they are relatively immobile. Door structure according to claim 1, characterized in that the vertical bodies (24) are fixed at the top with sarana fasteners (32) to the upper threshold (25) and to the upper vertical body (26). Door structure according to any of the preceding claims, characterized in that the vertical inch (24) at the pin (34) is provided with a longitudinal heel (37). 1 · I · ·