EP2842901A1 - Sliding guide shoe for a lift - Google Patents

Abstract

A sliding guide shoe for an elevator comprises a two-part insert (6) which can be inserted into a guide shoe housing (5) for guiding an elevator cage along a guide rail (3). The insert (6) has a carrier element (7) with a recess designed as a receiving pocket for receiving a sliding element (8), so that the sliding element (8) can be inserted in the longitudinal direction (z) and the carrier element can be latched.

Description

The invention relates to a sliding guide shoe for a lift for the transport of persons or goods according to the preamble of claim 1.

Sliding guide shoes are often used to guide elevator cars. Elevator systems in buildings have a generally vertical elevator shaft, in which a respective guide rail is arranged on mutually opposite shaft walls. Sliding guide shoes arranged on the elevator car contain inserts with sliding surfaces which slide along a guide rail with little play. Sliding guide shoes in which the inserts are configured as profiles of U-shaped cross-section are known. In contrast to roller guide shoes, the sliding guide shoe basically has no moving parts. Since the deposits wear off over time, used or old sliding inserts must be replaced.

A generic comparable Gleitführungsschuh is from the WO 2013/060583 A1 known. The sliding guide shoe has a two-part insert inserted into a guide shoe housing with a carrier element and one or more sliding elements. The sliding element can be inserted from one longitudinal side into a recess extending in the longitudinal direction in the carrier element. Since the recess in the region of the long side is open, the slider must be secured by means of a holding part. When the retaining element is screwed onto the guide shoe housing, the sliding element is clamped between a shoulder formed by the depression and the retaining element.

It is an object of the present invention to provide a sliding guide shoe of the type mentioned, which is easy to handle. In particular, for the first-time assembly of the Gleitführungsschuhs sliding elements are easy to use or for maintenance or inspection old sliding elements can be replaced quickly and efficiently.

According to the invention this object is achieved with a Gleitführungsschuh with the features of claim 1. The inserted or insertable into a guide shoe housing insert comprises a guide rail facing the sliding element, and a support member for supporting the sliding element. The two-part insert thus has an inner insert part (sliding element) and an outer insert part (carrier element). The carrier element with the depression is configured in such a way that the sliding element can be introduced longitudinally into or out of the sliding guide shoe, so that after completion of the insertion process, the sliding element is fixed captively in the carrier element at least with respect to the longitudinal direction. The special design of the carrier element ensures that when inserting the sliding element into the receiving pocket, the sliding element can be easily secured in position in the carrier element only as a consequence of the insertion process and thus to a certain extent automatically and without the use of further components.

The sliding element can be fixed particularly easily in the carrier element, if the arrangement is designed such that the sliding element can be latched into the carrier element by insertion in the insertion direction along the longitudinal direction.

The support member may comprise at least one movable or flexible securing portion for securing or holding the sliding element inserted in the guide shoe housing, which is movable or deformable outwardly for releasing an insertion opening. The release allows the insertion of the sliding element in the insertion in the recess of the support member which extends in the installed state along the longitudinal direction. The sliding element can be removed in the same way again from the carrier element. To remove the sliding element, the opposing securing sections are pressed outwards, whereby the latching closure is unlocked and the sliding element can be pulled out without resistance in the longitudinal direction.

The securing section can be a flexible securing section which is preferably formed on the carrier element and forms a monolithically configured component together with the carrier element. The carrier element may for example consist of a plastic material. To insert a sliding element of the securing portion is moved by hand or with a tool from a rest position to an open position to the outside or pressed to the outside. In the now open insertion opening, the sliding element can be easily inserted. After or even during the insertion of the sliding element, the securing section can be released. Thanks to the springy properties of the plastic material, the securing section is again without further action in the original rest position.

However, the securing portion could also have a latching nose with a cooperating with the sliding contact edge, which is pushed away during insertion of the sliding element.

In a further embodiment, the carrier element in the inserted state, the guide shoe housing at least partially overhang, whereby the securing portion is exposed and can be easily pushed away to the outside.

If the carrier element is configured at least in the inserted state as a cross-sectionally U-shaped profile with two legparts associated with the plane-parallel guide surfaces of the guide rails and a leg connecting, the front end guide surface of the guide rail associated profile bottom, it may be advantageous if only the legs overhang the guide shoe housing. The profile floor can thus be shortened compared to the profile legs. The profile bottom is dimensioned with respect to the longitudinal direction such that when the carrier element is inserted in the guide shoe housing, the profile bottom is offset back or approximately flush with the adjacent housing top of the guide shoe housing connects.

It can advantageously be further if the carrier element is locally weakened in the region of the securing section, as a result of which the securing section can be moved more easily to release the insertion opening. With the local weakening, for example, a bending line can be specified, around which the securing section can be bent.

Particularly advantageously, the local weakening can be a recess running transversely to the longitudinal direction. This recess can be arranged on the outer side of the leg facing the guide shoe. The recess ensures that, for example, when using a comparatively hard and therefore difficultly flexible plastic, the securing portion can still be moved without excessive force and without the risk of accidental material damage to the outside. In a further embodiment, a securing part for securing the securing portion in a rest position on the guide shoe housing can be attached or attached. The securing portion is supported laterally outwardly by the securing part, whereby an outward movement or deformation of the securing portion is prevented.

At the longitudinal end of the guide shoe housing, preferably in the region of the insertion opening predetermined by the securing sections, a lubrication attachment can be fastened or fastened, which optionally additionally or alternatively to the securing part can secure the securing section or sections in the inoperative position. The lubrication attachment has a support structure with a recess for an oil insert. The oil insert can be used captively, preferably slightly clamped in the support structure. The oil insert may for example consist of an impregnated with oil or impregnated felt. The felt element has inner surfaces facing the sliding surfaces of the guide rail, which contact the sliding surfaces and thus cover the guide rails with a light oil film as soon as the cab moves.

The sliding element can be formed by a U-shaped profile, which can be configured rigid. The sliding element can therefore have two opposing sliding surfaces and a transverse to this sliding surface. In this case, a sliding element, which is designed as a one-piece and preferably monolithic component, predetermine the three aforementioned sliding surfaces.

Another aspect of the invention could relate to a cab for an elevator with at least one sliding guide shoe in the manner previously described.

Figur 1:

eine vereinfachte Darstellung eines Aufzugs mit einer über Gleitführungsschuhe an Führungsschienen geführten Aufzugskabine in einer Draufsicht,

Figur 2:

eine perspektivische Ansicht eines erfindungsgemässen Gleitführungsschuhs,

Figur 3:

der Gleitführungsschuh aus Figur 2 mit einem ausgebautem Gleitelement und demontierten Sicherungsteil,

Figur 4:

ein noch nicht fertig zusammengesetzter Gleitführungsschuh mit einem geöffneten Trägerelement für die Aufnahme des Gleitelements,

Figur 5:

der Gleitführungsschuh mit teilweise eingeschobenem Gleitelement,

Figur 6:

eine Variante des Gleitführungsschuhs gemäss Figur 2, und

Figur 7:

der Gleitführungsschuh aus Figur 6 mit demontierten Schmierungsaufsatz.

Further advantages and individual features will become apparent from the following description of an embodiment and from the drawings. Show it:

FIG. 1:

2 is a simplified representation of an elevator with an elevator car guided by guide shoes on guide rails in a plan view,

FIG. 2:

a perspective view of a sliding guide shoe according to the invention,

FIG. 3:

the Gleitführungsschuh off FIG. 2 with a removed sliding element and dismounted securing part,

FIG. 4:

an unfinished sliding guide shoe with an open carrier element for receiving the sliding element,

FIG. 5:

the sliding guide shoe with partially inserted sliding element,

FIG. 6:

a variant of the Gleitführungsschuhs according FIG. 2 , and

FIG. 7:

the Gleitführungsschuh off FIG. 6 with disassembled lubrication attachment.

FIG. 1 shows a generally designated 1 elevator with an elevator car 2, which is guided vertically between two guide rails 3 in an elevator shaft of a building, not shown, up and down movable. The direction of travel of the cabin is indicated by an arrow z. The guide rail 3 is formed, for example, by a T-profile extending in the z-direction. At least one guide shoe 4 for guiding the car 2 to the guide rails 3 is arranged on the elevator car 2 on each side. The guide shoe is a Gleitführungsschuh having a cross-sectionally U-shaped insert 6, which includes the guide rail 3 and which - like the guide rail - extends in the longitudinal direction z.

How out FIG. 2 The insert 6 is formed in two parts and has as an inner insert part of the guide rail facing sliding element 8 and as an outer insert part, a support member 7 for supporting the sliding member on , The outer insert part 7 is made of a material with which noise and vibration can be damped during the cabin ride. By contrast, the sliding element 8 is made comparatively stiff. The sliding element has two plane-parallel sliding surfaces 19 and a transverse to this, this connecting sliding surface. The sliding element 8 is made of a plastic, which is characterized by a low coefficient of friction such as PTFE, UHMW-PE distinguished.

The guide shoe housing 5 consists of a plate-shaped base 15 and two vertically projecting from the base support walls 16, which form a longitudinally extending z channel-like receptacle for the insert 6. The carrier element 7 has on the outer sides in each case two bearing pins 17, which engage in corresponding recesses in the support walls of the guide shoe housing 5, whereby the insert 6 is fixed in the guide shoe housing 5. The support element 7 is designed as a cross-sectionally U-shaped, monolithic component. For example, an elastic plastic (eg TUR, EPDM, NBR, NR) can be used as the material for the carrier element 7. The respective guide surfaces of the guide rail are slidably loaded in a sliding movement in the z-direction by the sliding surfaces of the sliding member 8 with a small clearance. The sliding element 8 is received in a recess 9 designed to be complementary to the sliding element. The recess 9 in the carrier element 7 is designed as a receiving pocket. The carrier element 7 has at the upper and lower end of the recess 9 in each case a stop for the sliding element. The lower (or upper, depending on how the Gleitführungsschuh was mounted to the cabin), designated 13 stop is formed by a shoulder which limits the depression downwards. On the opposite side of the sliding element 8 is supported on a shoulder 15, which is part of a detent connection described in more detail below. At the top (or bottom), a securing section 10 adjoins the recess, thanks to which the sliding element 8 is captively fixed in the carrier element 7.

The two adjoining the two legs 11 of the support element, opposite securing portions 10 project beyond the longitudinal guide shoe housing 5. For fixing and ensuring a secure fit a securing member 18 is screwed to the longitudinal end of the guide shoe housing. The securing portions 10 are laterally supported on the securing part 18, whereby it is prevented that the flexible securing portions 10 can be moved to the outside.

For the sliding element to be used, the securing part must be unscrewed and removed. FIG. 3 shows the guide shoe in this state. Out FIG. 3 is particularly apparent that the recess 9 is designed for receiving the sliding element as a receiving pocket. The over the entire width of the legs 11 in the z direction extending recess is closed with respect to the longitudinal direction z on each side by the shoulders 13 and 14. To open the fuse sections 10 must be pressed to the outside. This can be done manually or at most with the aid of a tool. The corresponding direction of movement is indicated by the arrows a. Transverse to the longitudinal direction z extending recesses 26 cause a local weakening in the support member 7, whereby the securing portions 10 can be pressed easily and with little effort to the outside. In particular, with thin-walled support elements but it would also be conceivable to provide no recesses or other local weakenings.

As FIG. 4 shows, with weggedrückten securing portions 10 an insertion, through which or in which the slider can be easily inserted in the e-direction in the upwardly open, designated 9 'depression. With 26 a bending edge is indicated by which the securing portion 10 has been bent. Such a sharp kink is under real conditions usually not available.

FIG. 5 shows the Gleitführungsschuh during a Einschiebevorgangs. Since the sliding element 8 can also be pulled out or used when the remainder of the sliding guide shoe remains on the guide rail, considerable advantages arise for the maintenance outlay with regard to time savings and manageability. The tedious and time-consuming dismantling of the entire Gleitführungsschuhs of the cabin can thus be omitted. After completion of the Einschiebevorgangs go the securing portions 10 due to the resilience of the material for the support element automatically back to its original rest position, thus resulting in an advantageous locking connection.

Instead of the simple security part according to the preceding embodiment is in the variant according to FIG. 6 a multi-part element attached to the guide shoe housing 5. The mentioned multi-part element 20 comprises an insert 22, which consists for example of an oil-impregnated felt. This felt element 22 has the sliding surfaces of the guide rail facing inner surfaces which contact the sliding surfaces. The touching action of the felt element allows the guide rails to be coated with a light oil film as soon as the cab moves. Therefore, the element generally designated 20 will be referred to hereinafter as a lubrication attachment.

The lubrication attachment 20, which can be fastened to the longitudinal end of the guide shoe housing, further consists of a support structure 21 which has a receiving space 25 adapted to the oil insert. How out FIG. 7 it can be seen, the oil insert 22 in the f-direction in the receiving space 25 of the support structure 21 can be used. In the present embodiment, the support structure 21 consists of two bent parts 27, 28 made of metal (eg steel). The bending parts 27, 28 can be assembled such that a receiving space 25 is provided, in which the oil insert is sandwiched between the U-shaped surface portions of the bending parts 27, 28 or receivable. The oil insert 22 is thus captive, preferably slightly clamped between the plane-parallel surface portions of the bending parts 27, 28 held in the support structure 21. The bent part 27 has a recess 29 adapted to the carrier element 7, in which the securing section 10 is guided and which laterally supports the securing section 10 for securing purposes. The lubrication attachment 20 can simply be screwed to the guide shoe housing 5 by means of two fastening screws. If the oil insert 22 is dry and thus the lubrication of the guide rails is no longer ensured, the oil inserts must be replaced by oil-soaked felt elements. Of course, it would also be possible to rewet the dried insert 22 with a lubricating oil. Compared with known solutions that work with oil reservoirs and supply lines, this solution has the advantage that it is both cheap and easy to use and on the other hand ensures that not too much oil is applied to the guide rails. It has been shown that good and essentially consistent lubrication results can be achieved even in different climatic conditions (eg changing conditions, tropical conditions, arctic conditions). Instead of a felt part as an oil insert 22, of course, other materials would be conceivable that can absorb lubricating oils. For example, foams made of synthetic or animal material are conceivable.

Claims (9)

Sliding guide shoe for a lift for transporting persons or goods with a guide shoe housing (5) and an insert (6) inserted or insertable into the guide shoe housing (5) for guiding an elevator cage along a guide rail (3) extending in the travel or longitudinal direction (3) ), wherein the insert (6) has a sliding element (8) facing the guide rail and a carrier element (7) with a recess for receiving the sliding element (8), characterized in that the recess (9) serves as a receiving pocket for the sliding element (8 ) and that the support element (7) is designed such that the sliding element (8) in the longitudinal direction (z) insertable or from the Gleitführungsschuh (4) is removable, so that after completion of the insertion process, the sliding element (8) captive in the support element (7) is fixed. Sliding guide shoe according to claim 1, characterized in that the sliding element (8) can be latched into the carrier element (7). Sliding guide shoe according to claim 1 or 2, characterized in that the carrier element (7) has at least one movable or flexible securing section (10) for securing the sliding element (8) inserted in the guide shoe housing (5), which can be moved outwardly or deformed to release an insertion opening is. Sliding guide shoe according to claim 3, characterized in that the carrier element (7) in the inserted state, the guide shoe housing (5) projects beyond at least in sections. Sliding guide shoe according to one of claims 1 to 4, characterized in that the carrier element (7) is designed at least in the inserted state as a cross-sectionally U-shaped profile with two legs (11) and a leg connecting the profile bottom (12) and that the legs (11) of the carrier element (7) designed as a U-shaped profile project beyond the guide shoe housing (5) and the profile bottom (12) is shortened relative to the legs (11). Sliding guide shoe according to one of claims 3 to 5, characterized in that the carrier element (7) in the region of the securing portion (10) is locally weakened. Sliding guide shoe according to claim 6, characterized in that the local weakening is a transverse to the longitudinal direction (z) extending recess (26) in the carrier element (7). Sliding guide shoe according to one of claims 3 to 7, characterized in that a securing part (18, 21) for securing the securing portion (18) in a rest position on a longitudinal side on the guide shoe housing (5) attachable or attached, wherein the securing portion (10) according to out through the securing part (18, 21) is supported. Sliding guide shoe according to one of claims 1 to 8, characterized in that the sliding element (8) is formed by a U-shaped profile.

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