ROLLING BEARING DEVICE FOR TELESCOPIC MASTS AND FORK CARRIAGE FOR FORK LIFT TRUCKS

Abstract

A device for adjusting a rolling bearing for mutual sliding of mast members for supporting a fork carriage of a fork lift truck includes a threaded coupling between an inner ring of the rolling bearing and a relative support pin, and an actuation member freely rotatable through the support pin and rotatably connected with the inner ring. The actuation member can be maneuvered to rotate the inner ring and vary the axial position of the rolling bearing with respect to the support pin through the threaded coupling.

Claims

1. A rolling bearing device for a mutual sliding guide of mast members which are part of telescopic masts for supporting a fork of a fork lift truck, said device comprising: a support pin rigidly connected to a first mast member, a rolling bearing comprising an inner ring, an outer ring and a plurality of rolling members interposed between the inner ring and the outer ring, wherein said inner ring is borne by said support pin and said outer ring is designed to roll relative to a contiguous second mast member, and a device for adjusting an axial position of said roller bearing relative to said support pin, wherein said adjustment device comprises: a threaded coupling between an inner threading provided on said inner ring of the roller bearing and an outer threading provided on said support pin, an actuation member axially extending in a freely rotatable fashion through said support pin and connected in rotation with the inner ring of the roller bearing, said actuation member being maneuverable to rotate said inner ring and vary the axial position of the roller bearing relative to said support pin by means of the said threaded coupling.

2. The device according to claim 1, wherein said actuation member includes, at one end thereof, a transverse element coupled in rotation with said inner ring of the roller bearing, and wherein an opposite end of the actuation member traverses the first mast member and is housed within an outer recess of the first mast member.

3. The device according to claim 2, wherein said opposite end of the actuation member is provided with a seat for introduction of a maneuvering tool and an outer threading for engagement of a blocking nut.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] The invention will now be described in detail, purely by way of non-limiting example, with reference to the attached drawings, wherein:

[0012] FIG. 1 is a schematic perspective view showing the telescopic masts unit of a fork lift truck, represented in a minimum height contracted condition,

[0013] FIG. 2 is a view analogous to FIG. 1 representing the masts unit in the fully raised extended configuration,

[0014] FIG. 3 is a transversal section and larger detail view according to line III-III of FIG. 1,

[0015] FIG. 4 showsin larger detail and axial cross-sectionone of the rolling bearings of the masts unit, equipped with the device according to the invention represented in a first adjustment position, and

[0016] FIG. 5 is a view analogous to FIG. 4 with the device in a second adjustment position.

DETAILED DESCRIPTION OF THE INVENTION

[0017] FIGS. 1 and 2 schematically illustrate the system for moving the fork carriage 1 of a fork lift truck, conventionally comprising two vertical telescopic masts units 2 each of which comprises, in the case of the illustrated example, three mast members respectively outer 2a, intermediate 2b and inner 2c. Each mast member 2a, 2b, 2c is generally channel-shaped so as to enable the vertical sliding of the contiguous mast member between the fully lowered configuration of FIG. 1 and the fully raised configuration of FIG. 2 of the mast units 2. The sliding occurs with the help of rolling bearings indicated with 3: specifically, each outer mast member 2a is provided with a rolling bearing 3 at whose upper end each intermediate mast member 2b is provided with a pair of rolling bearings 3 respectively arranged at the lower end thereof and at the upper end thereof, and each inner mast member 2c is provided with a rolling bearing 3 at the lower end thereof.

[0018] Each bearing 3 is pre-assembled with the relative mast member before forming the mast units 2, as represented in detail in FIGS. 4 and 5 which simplify the application of a rolling bearing 3 to one of the outer mast members 2a. It should be observed that the description below can be identically applied to each of the rolling bearings 3 applied to each mast unit 2.

[0019] The rolling bearing 3 conventionally comprises a radially inner track or ring 4 and a radially outer track or ring 5 between which rolling members for example made up of a crown of balls 6 are interposed. The inner ring 4 is mounted on a small diameter portion 7 of a support pin 8 rigidly fixed to the mast member 2a and projecting thereinto. The radially outer ring 5 is designated to obtain the rolling contact with the corresponding contiguous mast member, constitutedin the case of the illustrated exampleby the intermediate mast member 2b (not shown for illustration simplification purposes).

[0020] According to the distinctive characteristic of the invention, the radially inner ring 4 of the rolling bearing 3 has a threaded surface 9 at contact with a threaded outer surface 10 of the portion 7 of the support pin 8, so as to obtain a threaded coupling between such support pin 8 and the rolling bearing 3 through which the axial position of the latter can be easily and efficiently adjusted without requiring shim washers and thus avoiding the disassembling and reassembling of the rolling bearing 3 when assembling the mast units 2.

[0021] The screwing and unscrewing of the inner ring 4 with respect to the threaded portion 7 of the support pin 8, and thus the axial adjustment of the rolling bearing 3, is obtained according to the invention through an adjustment key 11 constituted by a stem which coaxially traversesin a freely rotatable fashionthe mast member 2a and the support pin 8 and it is providedat the distal end thereof, projecting beyond the threaded portion 7with a tang 12 rotatably coupled with a transversal or radial arm 13 in turn rotatably coupled with the inner ring 4 of the rolling bearing 3. The opposite proximal end of the adjustment key 11, indicated with 14, is housed in an outer recess 15 of the mast member 2a and it has an axial seat 16 for the insertion of a maneuvering key. Such proximal end 14 is also externally threaded to receive, following operations for adjusting the rolling bearing 3, a blocking nut 17 represented in FIG. 5 through which the adjustment key 11 prevents the rotation of the radial arm 13 and thus of the inner ring 4.

[0022] In light of the description above, it is clear that the axial adjustment of the rolling bearing 3, for example between the two positions respectively represented in FIG. 4 and in FIG. 5 for the travel indicated with A in the latter, is obtained by simply turning the adjustment key 11 using the maneuvering tool inserted in the seat 16 thereof so as to screw or respectively unscrewusing the radial arm 13the inner ring 4 with respect to the support pin 8. The threaded coupling 9-10 between the inner ring 4 of the rolling bearing 3 and the support pin 8 of each rolling bearing 3 enables the axial load applied theretoduring the extensions and contractions of the mast units 2to be directly transferred to the respective mast member 2a or 2b or 2, respectively, without affecting the relative adjustment key 11 which is thus exempted from any structural function, in particular as regards the axial loads transmitted from the mast member to the outer ring 5 of the rolling bearing 3.

[0023] Obviously, the construction details and the embodiments may widely vary with respect to what has been described and illustrated, without departing from the scope of protection of the present invention as defined in the claims that follow. Thus, the invention identically and equally advantageously applies to the rolling bearings that the fork carriage 1 of the fork lift truck is usually provided with, inserted in the masts 2c.