DE2009797A1 - Lifting gear, especially jack - Google Patents

Description

Ä.nri! Elderin: Company T? Erd. Braselmann, 5829 Ennepetal-Ober- "

j Kotthausstrasse.

Hoist, in particular V7agenträger. _r

The invention relates to a lifting mechanism, in particular a car jack, mil; a column having an engagement profile made of grooves and with a sharper * which is engaged in a support part and is coupled to a drive "bshe"fc> el

Hoists of this type are in the form of rack and pinion winches ^ The rack profile is with a heat! in engagement. Precisely machined profiles are required, the surface of which must be tempered so that the high loads resulting from the linear contact of the grinding profiles can be absorbed. Outer * ¹¹ a backstop is necessary for a rack and pinion winch, which must work depending on the load. "

The German patent specification 935 754 describes a hoist in which the load is clamped to a support by the tilting effect and is lifted in that the cant body has two rollers that rest against the sides of the support. It must between. Support and should be so great of friction that this jack not due to the high friction effect is more operable. ,

The high accuracy requirements for the In practice, fitting of the clamping parts is not economical:

to fill. '■ "." ■■. ■■■■ ._ .: ":

The object of the invention is to provide a hoist which, with comparatively few individual parts, which also only has to meet low accuracy requirements, is reliable

■ 10 * 1888 / 0-0: 3 $:

.Operation guaranteed. In addition, the hoist according to the invention be self-locking.

This object is achieved according to the invention in that the Engaging body at least two, each in the corners of a regular polygon (including two-sided) distributed, with mutual Distance arranged equal to the engagement profile division Segments of the same cross-section as the grooves and that the distance between the central axis of the engaging body and.

'the engagement profile during the rotation of the engagement body variable is.

; The engagement body acts with the engagement profile as a folding : body in the manner of a roller joint. The movement of the engaging body does not take place according to the laws of gearing, but rather:

j rather represents during the folding movement of the toothing ! body One segment each with a groove of the engagement profile j represents a roller joint. Therefore, the division of the

■ the handle body measured by the mutual spacing of the segments and not on the pitch circle as is the case with teeth.

To achieve an over-center locking behavior, the He-; finding that the line of action of the forces through the axis

■ the engaging body with a perpendicular to the column axis

¹ includes an angle that is less than or at most equal to half the pitch angle of the engagement body. According to the invention, the over-center locking effect thus comes about solely through the kinematic design of the hoist. Frictional influences do not play a role. Slight lowering is possible when the jack is not under load.

The grooves are preferably shaped as circular cylinder sections and the segments as circular cylinder segments. Thus achieved; one that during the folding movement of the engaging body _{in each case a circular cylinder segment rolls in a circular cylinder groove. The extent to which the load is exerted between the engagement body and the saute takes place

BATH ORIGINAL

As a result, each over comparatively large areas, so that the surface pressure is low. As a result, the upper surface quality of the engaging body and the engaging profile are only to have comparatively low requirements. The accuracy * Riding requirements are also comparatively low. It just depends on the exact adherence to the division. the Profile shape itself can be easily produced as a star profile; small deviations are compensated for in operation. The surface ' Pricing and accuracy requirements are much lower than with a rack and pinion winch. Since the load is at rest each two segments of the engaging body are effective the specific load in the holding position is very low. That hoisting gear can be manufactured economically from a few individual parts. The hoist is essentially completely maintenance-free.

The invention is described below with the aid of preferred embodiments with reference to the accompanying drawings which illustrate:.

Fig. 1 shows a schematic embodiment of the invention with a three-way body to explain the principle of action,

2 shows a modified embodiment of the invention with a two-way body,

2a shows a view of the two-egg handle,

Fig. 3 shows an embodiment of the invention with a Four-engaging body in elevation,

Fie. 4 is a side elevation of FIG. 2,

Fig. 5 the column in plan and ^v

Fig. 6 shows a modified embodiment of the column in

109886/0094

Layout.

The jack of Fig. 1 has a column 1 with an input. Handle profile made of semi-cylindrical grooves 2 fixed division. A support part 3 engages over the column 1 in which, on the one hand, an engaging body 4 is rotatably mounted about an axis 5 and, on the other hand, a roller 6 around the axis 7. The carrier part 3 also has a receiving device (not shown) for the load, preferably in the form of a plug-in mandrel. The engagement body 4 is designed as a three-engagement body with three circular cylinder segments 8, 9, 10 arranged in the corners of a regular triangle. The mutual distance between the center lines 11 of adjacent circular cylinder segments is equal to the pitch of the semi-cylindrical grooves. Here, the mutual distance of the center line is measured on a straight line, in contrast to the definition of the division with a third toothing on a pitch circle. A drive lever (not shown) interacts with the engagement body 4, which, for example, can be slipped onto the axis 5 of the engagement body. When the engaging body 4 is rotated clockwise, the carrier part 3 and thus the load are raised. The circular cylinder segment 8 rolls slidingly in the relevant semicylinder groove until the circular cylinder segment 10 comes to rest on the arc 12 in the adjacent semicylinder groove. The ache 5 of the engagement body 4 moves on the circular arc section 13. When the engagement body moves, the load is transmitted from the entire surface of a semi-cylindrical groove to the column, so that the surface pressure remains low. When the load is at rest, according to FIG. 1, two circular cylinder segments are in engagement with the engagement profile of the column 1, so that the load distribution is even more favorable.

never Küappbewegung of the engagement body results in a tibertotpunktsperre, oo that fin · that hoist according to the invention a dor

10308GZOOSi

2003797

Reverse lock is not necessary. Will they be on the axis? of the engaging body acting torques considered. The load P, which can also act elsewhere than in the axis 7 of the roller 6, is generated with the load arm a based on. the axis 5 a moment P χ a. UiB Eeaktionskraft Q acts at the point of contact between roller 6 and column 1 * It generates: With arm b around axis 5 the reaction torque Q χ b. Since, according to the laws of mechanics, the moment of force and the moment of reaction must be equal to one another. ^: . / <

χ ^

a ..

This means that the line of action of the total force on the axis in the diagonal direction c is the moment poor and b effective. From FIG. half of the center line 14 of the circular cylinder segment 9 "thus holds the engagement body in the holding position. To 'turn the engagement body downwards in counterclockwise direction', a force must first be exerted until the diagonal segment passes through the center line 14 of the 9 circular cylinder This relationship applies in general, even if the ■:

, Pillar 1 is not aligned vertically. It can be seen immediately that the angle c £ between the diagonal e and a perpendicular s to the column axis 14 is smaller than odör; at most 'equal to half the pitch angle of the engagement body, 4; may be. In the illustrated example of a triangular engagement r ·. body with a pitch angle of 120 ° so the angle may not exceed 60 °. If this angle is ^ 60 °, one has an unstable equilibrium, then the circular arc 13 for the downward movement of the axis 5 touches the circular arc 45 around the ^; . Axis 7 · In the case of the stable equilibrium shown, the mentioned arcs intersect, so that when rotating ^! deo engaging body 4 counterclockwise the point of application of the load must be raised, ie it must first be up

• Energy is applied to reach the dead center.

• Fig. 2 shows a modified embodiment of the invention

109886/0094

with a two-engaging body 16, both of which were circular cylinders 17 and 18 by bars 19 are taken laterally. Jie Bars 19 each carry an annular flange 20 for storage in the support part 3 and also a square shoulder 21 for a drive lever. In the case of a two-engagement body, the Drive lever can each be pivoted by 180 °. The two-engaging body has essentially all points of attack the load has an over-center locking behavior because of the pitch angle 180 ° and the resultant may occupy a wide range of angles.

A special embodiment of the invention has according to the Ed. 3 and 4 a support "grant from each other Shield plates 22, between which on the axis 7 the roller on a bolt 23, a mandrel 24 and finally one Bolt 25 a resilient roller for example. A rubber roller each are rotatably mounted. The shield plates 22 also have Long slots 27 for the respective inclusion of a four-engaging body 28, which with xUngflanschen 29 on Bogenwandüngen the Long slots 27 rests. On the axis of the four-engagement body 28 there is a polygonal profile for receiving one Drive lever. The drive lever can be connected to the engagement body by a ratchet lock.

The resilient xtolle 26 ensures that the engaging body 28 remains in engagement with the profile of the column 1 even in the unloaded state; When rotating the engaging body 28 is the compliant roller and allows a change in the distance of the axis of the engagement body from the engagement profile in the section explained in detail above. Also enables the resilient role a corresponding pivoting of the Elnateckdams 24, so that the same always in a horizontal position remain.

The function of this embodiment of the invention is evident without further ado from the foregoing.

109888/0084

ORIGINAL

uie column 1 can have a solid profile according to FIG. 5, into which the semi-cylindrical grooves 2 are pierced or milled. In another way, the column 1 * according to FIG. 6 can also consist of one U-shaped sheet metal profile Confess, in whose legs 31 the Engagement profile 32 is incorporated. Preferably that is Engagement profile'32 punched out in the flat state of the sheet metal blank, wherein the sheet metal blank is bent into the U-shape according to FIG. The engagement body 28 itself can be an extruded profile be trained.

1Q-988G / .00-94

OBlGiNAt

Claims (7)

Patent to sayings. 1 J lifting mechanism, in particular a jack, with a column having an engagement profile of grooves with a fixed pitch and with an engaging body which is rotatable in a carrier part and which is coupled to a "drive lever, characterized in that the engagement body (4, 16, 28) at least two, each distributed in the corners of a regular polygon (including two-cornered), Segments (8, 9, 10) with the same cross-section as the segments (8, 9, 10) arranged at a mutual distance equal to the engagement profile division Carries grooves and that the distance between the central axis (5) of the engagement body (4) and the engagement profile during rotation >
of the engagement body is variable. 2. Hoist according to claim 1, characterized in that to achieve an over-center locking behavior, the line of action (c) of the forces through the axis (5) of the engagement body (4) with a perpendicular (s) to the column axis (14) an 'angle (OC ) includes, which is less than or at most equal to half the pitch angle of the engagement body (4). 3 »hoist according to claim 1 or 2, characterized in that the grooves as K'reisylindabechnitte and the segments as ILreiszyliiideregmente are shaped. 4. Lifting mechanism according to claim 3, characterized in that the grooves are designed as semi-cylindrical grooves (2). 5. Kubwerk according to one of claims 1 to 4 »characterized in that that in the carrier part (22) of the engagement body (28) and a roller (6) opposite in the longitudinal direction of the column the engagement body is offset, are rotatably mounted. 6. Hoist according to claim 5, characterized in that in the Träp part (22) about the engagement body opposite a resilient Roll (2G) rotatably mounted .iß, on which also üin 109886/0094 BATH Insertion mandrel (24) is resiliently supported. 7. Hoist according to one of claims 1 to 6, characterized by a massive column (Pig. 5). ο .. Hoist according to one of claims 1 to 6, characterized cut through a column with a U-cross section (3? ig. 6). BAO