DE19711624A1 - Jack - Google Patents

Description

The invention relates to a jack with a two Stand column with side walls and a support arm, which in the Area of its rear end around one between the top and the lower transverse column end arranged first transverse axis hinged to the pedestal as well as from a bottom Ren starting position by means of a threaded spindle is pivotable, which on the one hand by means of two abutments in the area of an upper end section of the pillar and on the other hand, at a distance from the first transverse axis on the support arm rotatable and in each case about a parallel to the first transverse axis second or third transverse axis is pivotally mounted, wherein one of the abutments a nut for the threaded spindle bil det, and with a plate-like foot to put on the Jack on the floor, being in the area of a lower one End section of the pedestal over at least one Ge Fourth joint with steering pin with the first cross axis parallel joint axis for articulated connection of the two pillar side walls, each with a bearing cheek of the foot and the hinge pin on the one hand in the Column side walls or the bearing cheeks is held and on the other hand in storage openings in the other part engages so that the pedestal be over one by stops limited swivel angle is pivotable relative to the foot.

Such a jack is known to be on one of the longitudinal sides of the body of the vehicle to be lifted sets that its transverse or pivot axes approximately parallel run to the vehicle's longitudinal direction. Especially when a unloaded vehicle should be raised, in particular  especially in the neighborhood of one of the two rear barrels wheels of a vehicle with a front engine, there is a risk that in the course of lifting or with the vehicle raised raised impeller opposite impeller of the rear axle (The same applies of course to the front axle of one Vehicle with rear engine) slips on the floor, and in a direction away from the jack especially when the floor is relatively smooth; this There is a particular danger if the jack is up operator accidentally supports the vehicle. Then But it can happen that the vehicle is already raised slips and slips, causing considerable damage and risk of injury.

Starting from known jacks of the type mentioned, in which the pillar and foot can be pivoted freely about the fourth joint relative to one another, ie essentially without any significant effort, attempts have already been made to eliminate this risk by providing a control mechanism, through the pedestal and foot controls ge are pivoted against each other, depending on the pivot angle between the support arm and pedestal (see Figures 1, 2, 5 and 6 of DE-B-26 21 425); this control mechanism consists of a lever-like handlebar, which is on the one hand on the support arm and on the other hand at the foot, by means of joints with the other pivot axes of the jack parallel joint axes. However, this known construction has disadvantages: on the one hand, this control mechanism increases both the manufacturing costs and the weight of the jack, and on the other hand, the control mechanism leaves the jack no longer any freedom in the course of the lifting process of the constantly changing position of the jack attachment point to adapt the vehicle body series, with the result that undesirable tension between the vehicle and jack, but also in the jack itself, can occur, which also involve the risk of damage to the jack.

The invention was based on the task of a jack to create the type mentioned by which the above identified risks are at least mitigated without compared to such jacks completely free swiveling foot increases the jack weight or appreciably higher manufacturing costs have to.

The basic idea of the solution to this problem according to the invention is it, the resistance which the jack of a squander opposed to the foot, raised Lich enlarge, but not over the fourth joint between stand column and foot, which already from Ver wear reasons and due to unavoidable ferti tolerances would not be able. Rather, she sees Invention means that ensure that the rolling the lower end of the pedestal on the foot while doing so introduces a significant part of the lifting load into the foot, so that the fourth joint at least to a substantial extent remains relieved and the rolling process requires forces made which have the consequence that the swiveling of the Column opposite the foot is made much more difficult.

This principle can be used constructively for a jack Realize the type mentioned in that the stand column at its lower end with a parallel to the swivel plane of the support arm, arcuate first tooth segment is provided, the center of curvature in the distance  above the fourth joint is that the foot on his Top with an at least substantially straight second Tooth segment is provided, which is over the whole Column swivel angle in engagement with the first tooth segment is located, and that the fourth joint is formed and is arranged that at least a substantial part of the to be picked up by the support arm and introduced into the foot Transfer the lifting load to the foot via the two tooth segments becomes.

Compared to known jacks of the type mentioned are in contrast to that from DE-B-26 21 425 resulting known jack no additional parts required so that especially the weight of the jack is not increased, and the manufacture of the tooth mentioned segments increases production costs compared to one Jack with completely freely swiveling foot only very un essential.

Other features, advantages and details of the invention he give way from the appended claims and from the following description and the accompanying drawings Representation of a particularly advantageous embodiment of the jack according to the invention; show in the drawing:

Figure 1 is a partially sectioned side view of a lower part of the jack, namely its foot and a lower part of its pedestal, which is located relative to the foot in a position in which the foot forms the smallest possible angle.

FIG. 2 shows a representation corresponding to FIG. 1, but with the pedestal already swung up by half the possible swivel angle;

Figure 3 is a position of Figures 1 and 2 corresponding Dar, but with a maximum of aligned, that is pivoted up pillar..;

Fig. 4 shows the foot of the jack in a longitudinal section through one of its tooth segments, and

Fig. 5 is a plan view of the foot of the jack.

Regarding the not shown in the accompanying drawings posed parts of the jack according to the invention is z. B. to DE-A-44 21 464 from E. A. Storz GmbH & Co. KG referenced so that it is not necessary to the whole To represent jack and its function and be write.

Figs. 1 shows the lower part of a support column 10 and a substantially plate-shaped base 12; the vertical column has an approximately U-shaped profile in section perpendicular to its longitudinal direction and thus perpendicular to the plane of the drawing in FIG. 1, formed by two vertical column side walls 14 lying one behind the other in FIG. 1 and a rear wall 16 connecting the two side walls to one another. The foot 12 has a predominantly flat base plate 18 and two lateral bearing cheeks 20 (see also FIG. 5), in the loading area of which the foot 12 is pivotally connected to the column side walls 14 by means of a joint designated 22 as a whole - the axis of the joint 22 extends perpendicular to the plane of the drawing in FIG. 1.

As can be seen from a comparison of FIGS. 1 and 3, the angular range over which the pedestal 10 can be pivoted relative to the foot 12 is limited by stops formed by the pedestal; First stops 24 are formed from the lower ends of two embossments 24 a produced in the column side walls 14 - the stops 24 are in the starting position shown in FIG. 1 of the column 10 against the base plate 18 and define the smallest acute angle α ₁ between the column and foot. Second stops 26 are formed by front end regions of the lower edges of the pillar side walls 14 and lie against the base plate 18 when the pillar is upright (see FIG. 3), so that they define the largest acute angle α ₃ that the pillar forms with the foot can.

The joint 22 comprises a circular cylindrical joint pin 30 in particular, which in the preferred embodiment shown passes through the pedestal 10 and is fixed in the pillar side walls 14 , as well as two approximately kidney-shaped bearing openings 32 in the two bearing cheeks 20 of the foot 12 , into which the pivot pin 30 engages with its end regions, as indicated by dashed lines in FIG. 5. According to the invention each of the two identically shaped bearing openings 32 is shaped so that its edge a forms two arcuate edge portions 32 having centers of curvature 32 b, which at the top by a concavity 32 c and below by a bulge 32d of the bearing opening rim are connected with each other. According to a further preferred feature, the two centers of curvature 32 b lie at equal distances from the base plate 18 over the latter.

The lower edges of the two pillar side walls 14 each form an arcuate first tooth segment 50 with a circular arc as the base line, the center of curvature of which was designated 52 - this center of curvature is therefore a considerable distance above the hinge pin 30 . To interact with these two first toothed segments 50 , two straight second toothed segments 54 have been embossed out of the base plate 18 of the base 12 , which run parallel to one another, in such a transverse distance from one another that when the column 10 is pivoted relative to the base 12 thereof Comb the first two tooth segments 50 with the second tooth segments 54 , specifically over the entire swivel angle range (α ₃ -α ₁ ), via which the pedestal can be swiveled relative to the foot.

According to the invention, the joint 22 is now designed and arranged in such a way that when the pedestal 10 is swung up from its initial position shown in FIG. 1 to its end position shown in FIG. 3, the first toothed segments 50 roll on the second toothed segments 54 , preferably almost transfer the entire lifting load from the pedestal 10 to the foot 12 - it would be ideal if the joint 22 were practically load-free during the lifting process, but this is difficult to achieve in view of the manufacturing tolerances that are unavoidable for cost reasons. During the swiveling up of the pedestal, the hinge pin 30 moves according to the invention in the bearing openings 32 , as can be seen in FIGS . 1 to 3, ie in the starting position shown in FIG. 1, the hinge pin 30 lies against one edge area 32 a Bearing openings 32 on, in the second end position of the pedestal shown in Fig. 3 against the other edge regions 32 a of the bearing openings.

Because of the described rolling process and the design of the jack according to the invention such that a significant Part of the lifting force from the pillar over the tooth segments in the foot is initiated, there is a certain difficulty Commonness of the connection between the pedestal and foot, where due to the risk described at the beginning, at least he is significantly mitigated.

A tongue 70 has been bent out of the rear wall 16 of the pedestal 10 , a tongue 72 has been bent out of the base plate 18 , and a tension spring 74 is suspended in these two tongues, which has two advantages. On the one hand, this tension spring pulls the foot 12 when the jack is not under load in its position shown in FIG. 1 relative to the column 10 - this is the state in which the jack is placed on the ground during use - and on the other hand the tension spring prevents that Despite the play in the joint 22 , any of the toothed segments 50 , 54 can come out of engagement with the toothed segment lying opposite it when the jack is not yet loaded, so as to ensure that the toothed segments always mesh with one another over the entire lifting process, such as this was shown in FIGS. 1 to 3.

The drawings finally show a ge upward expression 80 of the base plate 18 on which the stops 24 of the pedestal 10 are supported when the latter takes their initial position shown in FIG. 1 relative to the foot 12 .

Claims (7)

1. jack with a stand column having two side walls and a support arm which, in the region of its one rear end, is pivotably articulated on the stand column about a first transverse axis arranged between the upper and lower end of the stand column and can be pivoted upwards from a lower starting position by means of a threaded spindle, which is rotatable by means of two abutments on the one hand in the area of an upper end portion of the pillar and on the other hand at a distance from the first transverse axis on the support arm and each pivotable about a second or third transverse axis parallel to the first transverse axis, one of the abutments being a nut for forms the threaded spindle, and with a plate-like foot for placing the jack on the floor, wherein in the area of a lower end portion of the pedestal a ver at least one hinge pin fourth joint with parallel to the first transverse axis joint axis for articulated connection of the two pillars Sidewalls each provided with a bearing cheek of the foot and the hinge pin is held on the one hand in the pillar side walls or the bearing cheeks and on the other hand engages in bearing openings in the other part, so that the pillar can be pivoted relative to the foot via a pivot angle limited by stops, characterized in that that the pedestal ( 10 ) is provided at its lower end with a parallel to the pivot plane of the support arm, bogenformi gene first toothed segment ( 50 ), the center point of the curvature ( 52 ) at a distance above the fourth joint ( 22 ) that the foot ( 12 ) is provided on its upper side with an at least substantially straight, second tooth segment ( 54 ), which is in engagement with the first tooth segment ( 50 ) over the entire vertical column swivel angle (α ₃ -α ₁ ), and that the fourth Joint ( 22 ) is designed and arranged so that at least an essential part of de r to be taken up by the support arm and in the foot ( 12 ) to be introduced lifting load over the two toothed segments ( 50 , 54 ) on the foot ( 12 ). 2. Jack according to claim 1, characterized in that the first toothed segment ( 50 ) is approximately arcuate. 3. Jack according to claim 1 or 2, characterized in that two from the two pillar side walls ( 14 ) formed first toothed segments ( 50 ) are provided, for each of which the foot ( 12 ) has a second toothed segment ( 54 ). 4. Jack according to one or more of the preceding claims, characterized in that the bearing openings ( 32 ) of the fourth joint ( 22 ) are designed so that the latter a rolling movement of the first tooth segment ( 50 ) on the second tooth segment ( 54 ) has possible game. 5. Jack according to claim 4, characterized in that the bearing openings ( 32 ) have an approximately kidney-shaped shape with an overhead indentation ( 32 c). 6. Jack according to one or more of the preceding claims, characterized in that a spring ( 74 ) for pivoting the unloaded foot ( 12 ) is provided in a starting position, in which the pillar ( 10 ) has the smallest possible acute angle (α ₁ ) with the foot ( 12 ). 7. Jack according to claim 6, characterized in that the spring ( 74 ) is a tension spring which engages on the one hand on the pillar ( 10 ) and on the other hand on the foot ( 12 ).