FI92314B - Arrangement for fixing a lift guide to a guide bed - Google Patents

Description

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ARRANGEMENT FOR ATTACHING THE ELEVATOR GUIDE TO ITS GUIDE BASE

The invention relates to an arrangement according to the preamble of claim 1 for attaching an elevator guide to a guide base.

Elevator guides are subjected to vertical forces due to shrinkage of the concrete used in the building and other causes, which 10 tend to change the alignment of the guides. The forces are transmitted to the guides through the fasteners. One known solution for attaching an elevator guide to a guide base is disclosed in EP application No. 0448839, which solution allows the guide to move in the longitudinal direction of the guide, but not in the transverse direction of the guide. In the conductor fastener according to said publication 15, the conductor is pressed against the base by a roller-like, flanged fastener, the lower surface of which is machined conically to correspond to the shape of the inclined surface of the conductor. This is an expensive solution compared to our own solution. In addition, the lateral contact between the fastener and the guide is very "thin" in nature and, in the case of high forces, can cause puncture peaks so large that either the fastener itself or the guide is damaged. A further drawback is that the structure implemented with two pairs of disc springs and a sleeve is a very complex solution that requires precise manufacturing.

The object of the present invention is to solve the above-mentioned problems by arranging the fastening of the conductors in a new way so that the modifications in the building 30 do not significantly impair the alignment of the conductors. To achieve this, the invention is characterized by what is stated in the characterizing part of claim 1. The invention is further characterized by what is stated in the other claims. The invention provides a conductor attachment in which the grip of the conductor fasteners 35 from the conductor in the direction of the conductor is small, without, however, compromising the transverse holding of the conductor. A small guide grip means that, in practice, the guide fasteners slide down the guide line with the shrinkage of the building 9231 4 2 and do not apply so much vertical force to the guide line that it would bounce into a bend in the guide. The benefit of the invention is obtained mainly from the direct guide line as the next driving comfort and in terms of cost also from the reduced need for post-chasing of the guide line 5. Another advantage is the simplicity of the installation components required in the arrangement. In particular, compared with the solution according to the above-mentioned EP application, the arrangement according to the invention is remarkably advantageous, simple and reliable in operation.

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The invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1 shows an elevator guide attached to a guide base in the longitudinal direction of the conductor, Figure 2 shows a front view of a guide on a guide base, Figure 3 shows a guide fastener according to the invention, cable clamp-20.

Figure 1 shows an elevator guide 1 attached to the guide platform 2 as seen in the longitudinal direction of the guide. The cable is fastened on each side of the back 4 of the cable with a cable clamp 3.

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Figure 2 shows a front view of a short piece of elevator cable 1 fastened to the base 2. The width of the fastening according to the back 4 of the guide is set using the long fastening holes 5 of the base plate 2 to which the cable clamps 3 are fastened with screws 6 and 30. The long holes 5 in the conductor base can also be used in the alignment of the conductor line. The connection of the guide platform to the elevator shaft has not been shown.

Figure 3 shows a conductor fastener 35 3 according to the invention in more detail. The body portion 7 of the fastener 3 is formed of two rectangular plate pieces 7a, 7b welded together. On the side of the guide 1, the uppermost plate piece 7a extends further than the lower 7b. Thus, two support surfaces 8a, 8b are formed against the guide in the body 7 3 9231 4, to which at least the edges of the surfaces 8a, 8b correspond to the back 4 of the guide. The surface 8a in the uppermost body-forming body 7a presses the guide 1 against the base 2 and the surface 8b in the lower body 7b 5, i.e. the end of the lower plate, supports the guide 1 in the lateral direction. Through the body 7 of the fastener there is a hole 9 in which a sleeve 10 is placed. flexibility in this direction. The length of the sleeve is somewhat larger than the thickness of the body part 7 and the outer diameter of the sleeve is smaller than the base 11 of the fastening screw 6. This leaves a gap 14 between the screw base 11 and the body part 7. Two disc-15 springs are placed around the sleeve ( 15a, 15b) a resilient element 15 through which a support force is caused from the screw head 11 to press the body part 7 so that it further presses the guide 1 onto the base plate 2. The size of the support force depends on the selected disc springs 15 and the gap 14. Instead of the body part 7 being formed of two plate pieces 7a, 7b, it could also be a Z-shaped plate body made of poplar with support surfaces 8a, 8b for a support force parallel to the base plate 2 and perpendicular to the base plate 2.

Figure 4 is a graph showing the spring force of a disc spring as a function of the displacement due to compression. The vertical axis F represents the force and the position on the horizontal axis d represents the length of the disc spring (the height of the disc). When the disc spring is compressed, the force first increases approximately linearly. When pressing an additional 30, the area a is reached, where the displacement has little effect on the required pressing force. Further, when compressed, the amount of force required increases sharply, i.e. comes to area b, where the disc spring can be practically kept almost uncompressed.

When the fastener 3 according to Fig. 3 is used to fasten the guide 1 with a thicker back 4, it follows that the pair of disc springs 15 in the slot 14 are compressed more tightly. Likewise, there is, of course, a variation between the compression of the slots in the various fasteners of the conductor line due to the variation according to the dimensional tolerance of the conductor back 4. When the disc springs 15 of the fastener 3 are selected so that the operating point x on the curve 5 of Fig. 4 hits an area where the effect of the displacement on the force is small, very small differences in the compressive force of the different fasteners are easily achieved. Suitably loose disc springs 15 together close enough to area b, the operating point x selected from area a results in a firm, low-clearance, but at the same time only 10, low-compression mounting.

Figure 5 shows a second fastener 3 according to the invention. .The fastening is by means of a hole in the part as a screw fastening. The fixing screw 6 has a cylindrical collar 16 which presses the lower body 7d into the base 2. The upper body body 7c has a hole 20 larger than the collar 16 of the screw. The upper body 7c is arranged from its hole around the screw 6 between the screw head 11 and the lower body 7d. Between the screw head and the upper body is a pair of disc springs 15, the spring force of which presses the upper piece against the back 4 of the guide, just as the disc springs 25 press the body part in the fastener of Fig. 3. It is advantageous to make the upper body part 7c round (resembling perforated bread), so that its installation does not require special precision.

The invention has been described above by means of some preferred embodiments thereof. However, the disclosure is not to be construed as limiting, but embodiments of the invention may vary within the limits defined by the claims.

Claims (4)

An arrangement for fixing a lift guide (1) with T-shaped cross section at a guide support (2) with guide clips (3), which comprises a body part (7) with a support surface (8a) pressing the flange of the guide (4) ) towards the guide support (2) and a second support surface (8b) which provides a substantially rigid, directed support force along the guide support (2), which is supported by the guide support (2), the body part (7) is provided with a shark (9). for a fastener (6) which fixes the body part (7) to the guide base (2), and in which arrangement the supporting force with which the guide clamp (3) presses against the guide flange (4) and thereby pushes the guide (1) against the support (2) of an elastic element (15), characterized in that the working point (x) of the elastic element (15) is within the deformation interval (a) where the spring force changes relatively little. 2. Arrangement according to claim 1, characterized in that the elastic element (15) consists of at least one disc spring (15a, 15b) and is located adjacent to the fastener (6). . Arrangement according to claim 1 or 2, characterized in that the body (7) of the clamp consists of two parts, of which the part (7d) which is located closer to the guide support (1) acts on the guide support (1) and along the guide support (1). 2) the directed lateral force is intended to be inelasticly attached to the guide surface (2) with the fastener (6), and the longer portion (7c) located away from the guide support is pressed against the guide by the elastic element (15). li