SLIDING GUIDE SHOE, COUNTERWEIGHT EQUIPPED WITH SLIDING GUIDE SHOES, AND ELEVATOR SYSTEM

Abstract

A sliding guide shoe for guiding a counterweight includes a single-piece guide element made of a plastic material. The guide element has an engagement element that extends in the longitudinal direction and can be brought into interlocking engagement in a cutout formed in a yoke of a counterweight frame. The guide element further includes a collar engaging around the cutout and forming a stop for positionally securing the guide element, the collar adjoining the engagement element.

Claims

1-15. (canceled)

16. A sliding guide shoe for guiding an elevator car or a counterweight along a guide rail extending in a longitudinal direction, the sliding guide shoe comprising: a guide element having a guide channel formed therein; the guide element including an engagement element extending in the longitudinal direction and adapted to engage in a recess of a support structure of the elevator car or the counterweight; and the guide element including a collar adjoining the engagement element, the collar adapted to engage the support structure around the recess and forming a stop securing the guide element on the support structure in a predetermined position in the longitudinal direction.

17. The sliding guide shoe according to claim 16 wherein the guide element is formed as a one-piece molded body made of a plastic material.

18. The sliding guide shoe according to claim 17 wherein the guide element is formed as an injection molded part.

19. The sliding guide shoe according to claim 16 wherein the engagement element is formed as a shell-like retaining pin adapted to be fitted or inserted into the recess.

20. The sliding guide shoe according to claim 16 wherein the guide element includes an attachment portion adapted to fix the guide element to the support structure.

21. The sliding guide shoe according to claim 20 wherein the attachment portion extends from the collar perpendicular to the longitudinal direction.

22. The sliding guide shoe according to claim 20 wherein the attachment portion has a hole formed therein, the hole adapted to receive a screw for screwing the guide element to the support structure.

23. The sliding guide shoe according to claim 22 wherein that the hole is positioned less than 5 cm from a groove bottom of the guide channel.

24. The sliding guide shoe according to claim 22 wherein the hole is a through hole into which a metal bushing is inserted.

25. The sliding guide shoe according to claim 16 wherein the guide element is segmented in the longitudinal direction, the guide element having a first segment including the engagement element and a second segment including the collar, and wherein the second segment has a head part extending in the longitudinal direction.

26. The sliding guide shoe according to claim 25 wherein a length of the second segment is equal to or greater than a length of the first segment.

27. A counterweight for an elevator system, the counterweight comprising; a counterweight frame adapted to hold a plurality of weight elements, the counterweight frame including at least one yoke; at least one sliding guide shoe according to claim 16 adapted to guide the counterweight along a guide rail; and wherein the at least one yoke has a horizontal yoke plate to which the at least one sliding guide shoe is fastened, wherein the yoke plate has a recess formed therein as an emergency guide into which the guide rail projects and in which recess the at least one sliding guide shoe is received.

28. The counterweight according to claim 27 wherein the recess in the yoke plate is U-shaped and the at least one sliding guide shoe includes a guide element with a guide channel formed therein, the guide channel having a round groove bottom.

29. The counterweight according to claim 27 wherein the at least one yoke is an upper yoke and the counterweight frame includes a lower yoke having a horizontal yoke plate.

30. The counterweight according to claim 29 wherein the upper yoke and the lower yoke each have two recesses formed therein aligned with one another, wherein one of the recesses is arranged in the yoke plate of each of the yokes and another of the recesses is arranged on an extension piece detachably fixed to the yoke plate of each of the yokes.

31. An elevator system comprising: the counterweight according to claim 30; and four of the sliding guide shoes, each of the sliding guide shoes received in an associated one of the recesses and adapted to guide the counterweight on guide rails.

Description

DESCRIPTION OF THE DRAWINGS

[0024] Additional advantages and individual features of the invention are derived from the following description of an exemplary embodiment and from the drawings. In the drawings:

[0025] FIG. 1 shows a schematic diagram of an elevator system,

[0026] FIG. 2 shows a perspective view of a counterweight for the elevator system in accordance with FIG. 1,

[0027] FIG. 3 shows a highly simplified top view of an elevator system with one elevator car and two counterweights,

[0028] FIG. 4 shows a perspective view of a counterweight for the elevator system in accordance with FIG. 1,

[0029] FIG. 5 shows an enlarged perspective view of a yoke plate with two sliding guide shoes of the counterweight from FIG. 4 attached to it,

[0030] FIG. 6 shows a detailed view of the yoke plate one of the sliding guide shoes of the counterweight (detail A of FIG. 5),

[0031] FIG. 7 shows a perspective exploded view of the arrangement in FIG. 6, and

[0032] FIG. 8 shows a guide element of the sliding guide shoe in accordance with FIG. 5 from a different angle.

DETAILED DESCRIPTION

[0033] FIG. 1 shows an elevator installation, denoted by 1, for a multi-story building. The building has an elevator shaft 28 in which an elevator car 2 can be moved vertically up and down to individual floors for transporting people or goods. The direction of travel is indicated by an arrow z. The elevator system 1 of FIG. 1 is designed as a traction elevator system with a counterweight 3 movable in the opposite direction to the elevator car 2, wherein the support means 25 are designed as support ropes or belts and are guided under the elevator car 2 and around a traction sheave.

[0034] The elevator shaft 28 further contains guide rails 29 for the elevator car and guide rails 5 for the counterweight, which serve to guide the elevator car 2 and the counterweight 3, respectively. The counterweight 3 is equipped with (not shown here) a new type of guide concept with special sliding guide shoes, which is described in detail below.

[0035] As shown in FIG. 1, the counterweight 3 is fastened directly to the ends of the support means marked 25. However, it is also conceivable that the counterweight has one or, if necessary, several deflection pulleys via which it can be suspended.

[0036] FIG. 2 shows an embodiment of a counterweight 3 of an elevator system 1 in accordance with FIG. 1. Such a counterweight 3 can be used in elevator systems 1 that comprise one counterweight 3 for each elevator car. The counterweight is positioned between two guide rails 5 (only one is shown).

[0037] In the present embodiment, the guide rail 5 for the counterweight 3 is formed by a T-profile as an example. The T-profile can, for example, be a steel profile manufactured by rolling. Other suitable guide rails are extruded steel profiles or profiles bent from sheet metal. However, the guide rails can also be made of other metallic materials (e.g. aluminum) and have other profile shapes.

[0038] The counterweight 3 comprises a counterweight frame 6 as a support structure for the counterweight. Weight elements 19 are arranged in the counterweight frame 6 and fixed therein. The rectangular counterweight frame 6 has an upper, horizontally extending yoke 7 and a lower yoke 8 wherein the upper and lower yokes 7, 8 respectively terminate the counterweight frame at the top and bottom. The counterweight frame 6 further has the upper yoke and lower yoke interconnecting supports 9 configured as side shields. The vertical supports 9 may be U-shaped in cross-section, for the receptacle of the weight elements 19, which fit between the two U-sections with their open sides facing one another and are thus secured in the same. For fastening the counterweight frame 6 to the support means 25, for example, rope locks or other rope end fastenings can be provided.

[0039] Each yoke 7, 8 has two vertical yoke parts 26 extending parallel to one another and a horizontal yoke plate 20 connecting the two yoke parts. Recesses 21 are arranged in the yoke plates 20 of the counterweight frame 6. As can be seen, the U-shaped recesses 21 are arranged on the face sides at the ends of the yoke plates 20, wherein the recesses 21 are directed away from one another.

[0040] Sliding guide shoes for guiding the counterweight can be attached to the counterweight frame 6 via these recesses 21. A single sliding guide shoe 10 for insertion into recess 21 can be seen in FIG. 2. The sliding guide shoe 10 has a guide element 11 with an engagement element 13 that can be positively engaged in the recess 21 in the yoke plate 20 of the counterweight frame 6. Further, the guide element 11 comprises a collar 14 subsequently adjoining the engagement element 13. When the guide element 11 is inserted and thus the engagement element 13 is positively received in the recess 21 of the yoke plate 20, collar 14 bears against the yoke plate 20. The collar 14 forms a stop for securing the guide element 11 in position in the longitudinal direction z. With regard to design details of the sliding guide shoe 10, reference is made to FIGS. 6-8, which is of approximately similar design except for a different shape for the guide channel 12.

[0041] The yoke plates 20 and their recesses 21 are designed in such a manner that the respective guide rail 5 protrudes into the respective recesses 21, thereby creating an emergency guide if a sliding guide shoe 10 were to accidentally fall away.

[0042] The elevator system 1 shown in FIG. 3 has two counterweights 3, 4 as well as (not shown) support means and drives. The two drives (e.g. traction sheave drives) drive the respective support means (e.g. belts, steel ropes) and thus move the car 2 and the two counterweights 3, 4 in opposite directions. Each drive is assigned to one of the counterweights 3 or 4. Two guide rails 5 are provided on both sides of the elevator car 2 to guide the elevator car 2 and the counterweights 3, 4.

[0043] The elevator system 1 shown in the present embodiment is characterized by special guide rails 5 with which both the elevator car 2 and the respective counterweights 3, 4 serve as linear guides. The guide rails 5 are manufactured as one-piece roll profiles. The elevator system 1 is designed as a so-called front bag elevator. Further details on the front bag elevator and the guidance of the car and the counterweights with common guide rails can be found in WO 2020/127303 A1 and WO 2020/127787 A1.

[0044] The respective counterweights 3, 4 are equipped with the novel sliding guide shoes 10 already mentioned (shown here in schematic form) for guiding the counterweights 3, 4 along the respective guide rails 5 with the guide channels 12 engaging at protrusions 35. This sliding guide shoe 10 is described in detail below.

[0045] As shown in FIG. 4, the counterweight 3 of the elevator system 1 has a counterweight frame 6 with two vertical supports 9 designed as side plates or shields, two further vertical supports 33 and an upper yoke 7 and a lower yoke 8. A plurality of weight elements 19 are arranged in the counterweight frame 6. The vertical supports 9 and 33 together with the vertical frame parts 7 and 8 form a kind of cage for the weight elements 19. In the present embodiment, two different types of weight elements comprise concrete elements designated 19 and weight elements in the form of steel plates designated 19.

[0046] Two sliding guide shoes 10 are assigned to each of the yokes 7, 8. One of the sliding guide shoes 10 is directly connected to the yoke plate 20. The other sliding guide shoe is marked 10. This sliding guide shoe 10 has the same design as the sliding guide shoe 10 on the right; however, it is connected to the yoke plate 20 via an extension piece 30. The extension piece 30 is screwed to the yoke plate 20. The extension piece 30 makes it easy to fill the counterweight with weight elements 19.

[0047] FIG. 5 shows the upper yoke 7 of the counterweight frame 6. However, the lower yoke 8 has the same design. The extension piece 30, which has a recess for form closure with the sliding guide shoe, is detachably fixed to the yoke plate by means of three screws, as an example.

[0048] Further details of the sliding guide shoe 10 and how the sliding guide shoe 10 is connected to the yoke plate 20 are shown in FIG. 6. The guide element 11 comprises the engagement element 13 extending in the longitudinal direction z. The engagement element 13 thus extends in the same direction as the guide channel 12. The engagement element 13 is positively received in the complementary recess 21 (see FIG. 2) in the yoke plate 20. The collar 14, which subsequently engages the engagement element 13, embraces the recess 21 and formswith respect to the longitudinal direction za stop for securing the guide element 11 in position. The guide element 11 thus inserted is screwed to the yoke plate 20 using a screw 17 and thus secured.

[0049] The engagement element 13 is evidently a shell-like retaining pin which can be fitted or inserted into the recess 21. The engagement element 13 comprises a semicircular active surface extending in the z-direction. The engagement element 13 is fitted into the recess 21 via this active surface. The collar 14 is a flange-like designed elevation that forms a stop in the z-direction. The corresponding stop surface of the stop lies on a plane extending orthogonally to the z-direction. An attachment portion 15 formed at right angles to the longitudinal direction is provided on the collar 14 for fastening the guide element 11 to the counterweight support structure by means of the screw 17. Furthermore, a head part 31 adjoins the collar 14 with respect to the longitudinal direction z. The head part 31 extends the guide channel 12 upward or to the side opposite the engagement element 13.

[0050] As can be seen from FIG. 7, the guide element 11 is segmented with respect to the longitudinal direction z and consists substantially of the following two segments: The first segment is assigned to the engagement element 13. The other or second segment is associated with the collar 14, wherein this segment also includes the head part 31. The stop surface thus forms the dividing line or plane between the two segments. The two segments can be identified in FIG. 7 by the lengths labeled L1 and L2. In the present embodiment, the length L2 of the second segment is slightly greater than the length L1 of the first segment.

[0051] Further, it can be seen in FIG. 7 that the attachment portion 15 has a hole 16 for the screw 17 for screwing the guide element 11 to the yoke plate 20. A metal bushing (not shown) can be inserted into the hole 16, which is designed as a through hole, whereby a reinforcement of the attachment area can be achieved. A threaded hole 34 is provided in the yoke plate 20 for screwing on. Of course, instead of the threaded hole there could be an arrangement with a nut. Furthermore, FIG. 7 shows how the recess 21 is designed. The recess 21 is designed in a U-shape.

[0052] Further constructional details on the design of the sliding guide shoe 10 can be seen in FIG. 8. Thus, it is readily apparent from this that the guide element 11 is characterized by a compact design. The hole 16 is evidently close, usually less than 5 cm from the groove bottom 18 of the guide channel 12. This distance is indicated by d.

[0053] It is clear from FIG. 7 and particularly FIG. 8 that the engagement element 13 extending in the longitudinal direction z is designed as a retaining pin that can be fitted or inserted into the recess 21 of the retaining plate 20. As can be seen, the retaining pin has a sectionally cylindrical outer contour and two opposing, plane-parallel side surfaces which form the active surfaces via which the engagement element 13 is fitted in the recess 21. The cylindrical sectional outer contour forms the semicircular, z-direction extension of the engagement element 13 mentioned above. Extending outwardly from the side surfaces are stop surfaces 24 that engage the retaining plate 20 at the opening of the recess 21 to align the hole 16 with the threaded hole 34 before the screw 17 is inserted.

[0054] FIG. 8 further shows that the guide channel 12 has a round groove bottom 18 for receptacle of the guide area protrusion 35 of the guide rail 5 shown in previous FIG. 3.

[0055] The guide element 11 is designed as a one-piece molded body made of a plastic. In the present example, the guide element 11 is designed as a component produced by means of milling and other metal-cutting methods. Preferably, however, the guide element 11 can be a plastic injection molded part.

[0056] The guide element 11 is preferably rigid and made of a plastic that is characterized by a low coefficient of friction. For example, plastics such as UHMW-PE or PTFE can be used for the guide element 11. Of course, other plastics such as PA, PA6 (Perlon), POM, PEEK, PAS, PUR, PP or PVDF are also possible.

[0057] The counterweight frame 6 forms the support structure for supporting the counterweight 3 and, more precisely, a support structure for supporting the weight elements of the counterweight 3. The sliding guide shoe 10 could in itself also be used to guide the elevator car 2. For this purpose, the support structure, for example a so-called catch frame for supporting the car body, would have to be adapted accordingly. Such a catch frame or other support structure could also have plate-like support components such as the horizontal recessed yoke plates of the type described above, into which the guide element 12 can be inserted to form the sliding guide shoe 10.

[0058] In accordance with the provisions of the patent statutes, the present invention has been described in what is considered to represent its preferred embodiment. However, it should be noted that the invention can be practiced otherwise than as specifically illustrated and described without departing from its spirit or scope.