DE3726914C2 - - Google Patents

Description

The invention relates to a jack with a Stand column, on which a support member is height-adjustable and on which a foot is pivoted, the jack being pivoted as it is used its pedestal to the foot about an approximately horizontal running axis at different angles of attack is applicable, and wherein the selected angle of attack Stand with a detachable locking device is fixable.

Such a jack is already the US-PS 15 19 946 as known, the locking device creates a positive connection between the pillar and the foot. For this is between the pillar and the foot a claw coupling is provided, which is offset in height to  Swivel bearing is arranged. The claw clutch includes a spring-loaded sliding claw on the pedestal is arranged, and thus when pivoting the pedestal opposite the foot on a circular path around the pivot bearing is moved. Adapting to this circular path are from an opposite, upright side leg of the foot to the sliding claw in opposite engagement openings provided, in which the sliding claw each by the spring load is kept in engagement.

Should a different angle of attack between the Stand column and the foot are adjusted, so the claw coupling be expressed first, for what purpose on the pedestal a push button is arranged through a slot in the Standpipe of the stand column connected to the sliding claw is. Thus, when you press the push button the sliding claw pivots against its direction of engagement, so that the pedestal can now be swiveled in relation to the foot is. Because the push button is depressed during the swiveling process must remain is the handling of the jack when adjusting the angle of attack of its pillar relative laborious. In addition, there is also the function link of the push button with the visible claw coupling not obvious, so the operation of the jack is in need of explanation.

Thus, the well-known jack is already from its operating functions hardly suitable as an on-board tool for motor vehicles.

In addition, the support member is in the swivel plane of the pedestal height adjustable, so that changes of the  Angle of attack of the pedestal in relation to the foot only in Affect the width direction of the vehicle. More problematic with regard to the stability of jacks however, the support relationships of the same in the one-sided Lifting motor vehicles on inclines or descents. If the motor vehicle is on appropriately inclined surfaces is raised, even when the handbrake is firmly applied only one braked wheel firmly on the ground. There the center of gravity of the motor vehicle in its middle area a moment with the Seek to slow the car to the footprint of the braked Turning wheel picked up by the jack must become. Since the stand of the jack referred to the inclined plane of the underground under a right one If the angle is set, it is structurally less favorable Way already inclined to the mainly perpendicular acting support force of the motor vehicle.

Under unfavorable conditions, such as B. with slippery This can become a dangerous underground Tilt the jack in its incline direction. Furthermore, from DE-GM 17 78 760 ago a plug-in car jack known that between his pillar and a square plate base has a ball joint, whereby the pillar in all conceivable directions compared to the Foot is pivotable. So there would be the possibility open, leaning the pillars for lifting motor vehicles Layers exactly perpendicular. The smoothness of the ball joint has the consequence, however, that despite static favorable attachment position only low torque of the  Motor vehicle can be intercepted. Thus, the Stability can hardly be improved to the extent that unfavorable boundary conditions was sufficient.

The same applies to a previously known from US Pat. No. 3,259,367, adjustable support clamp. The pedestal this support clamp is at the end of its uprising Joint connected to a footplate, the joint a low height adjustability of the pillar compared to the Allows footplate. The joint allows only a small one Angular deflection in a main plane and is therefore likely for Jack may not be suitable. Here is the height adjustment option required to do so at all certain swing path for the in the calotte shell of the foot overlying, arcuately curved round bolts for Available. The fixing forces on the joint side go but not beyond that of a ball joint.

Furthermore, a jack is from US-PS 40 13 267 known to provide additional support for its pillar two lever brackets movable in the swivel plane of the pedestal having. These are arranged on both sides of the pedestal Lever tabs each have their own Feet, run diagonally upwards to a common connection area on the pillar and are in the connection area with axial support variable in length from the Stand column held. For variable-length mounting are the end areas of the lever tabs remote from the foot as racks formed in which are arranged on the column side  Combing gears. The additional axially sliding Racks can be operated using a common crank mechanism of the two gears move axially at the same time, whereby they move in opposite directions. Therefore in principle it is possible to use such a jack with good stability also for lifting motor vehicles use on sloping slopes. With regard however, use of the jack as an on-board tool is disadvantage that this is only in the disassembled state compactly stowed. It should therefore be used each again with its lever tabs will. However, this is only possible without problems if the operator with appropriate manual skills and has current operating knowledge.

For the reasons explained, the object of the invention based on a generic jack further develop that the pivot bearing of the pedestal at the foot of the jack when lifting a vehicle allows the stand to be erected vertically on a slope, that the pivot bearing in connection with the locking device obviously functional for the user is recognizable, and that the locking device also at little manual skill of the user operated by this can be.

The solution to this problem arises from the characteristic Features of claims 1, 15 and 19.  

According to the principle of operation of the first solution, there is a height adjustment path between the pedestal and the assigned foot exploited as a locking way, whereby the locking automatically he follows. As soon as the jack is removed the trunk or at the latest when turning it in the foot falls due to its position of use before use its own weight in a lower end position in which it is pivotable relative to the pillar. Independently from the angular position of the one lying on the ground The pedestal can now be moved easily Align vertically before the support member in a receiving sleeve is plugged into the vehicle. In the following Turning the jack up lowers its pedestal automatically in front of the foot and places one pivot-blocking form fit between the two. Because of the automatic locking, which is due to the weight of the raised vehicle no special operating step is required would go beyond the normal operation of conventional jacks. Advantageous embodiments of the invention in the form of different Locking devices are the claims 2 up to 14.

The principle of operation of the second solution is based on a pedestal, an elongated foot and an as Link strut inserted lever tab a triangular To form a framework that is only in a node is divisible, in which the lever tab is variable in length can be clamped. The two others  Nodes consist of one articulation point each Stand column or the lever bracket on the common foot, the a safe footprint due to its length offers.

After dividing the framework at the clamp attachment point the stand column and the lever bracket can be inserted into the Longitudinal swivel of the long foot swivel, causing the jack can be compactly folded and thereby takes up little storage space.

The structure of the jack is also so simple that the function of its elements when they are unfolded of the jack in the course of its use as from itself results. The required clamp fastening on the only possible connection point should also be technically inexperienced Hardly pose any problems for operators. Advantageous embodiments of this jack go out claims 16 to 18.

The advantage of lever tabs arranged in mirror image is to be seen in the fact that these are designed as pure tension struts could be. Also, the preference of one possible clamping point even with two lever tabs remain.

Finally, an elongated hole adjustment with a clamping screw can be manufactured inexpensively and offers handling the preference of a well-known screw fastening solution.

The principle of operation of the third solution is to a transverse feed to the bearing axis of the pedestal at the foot  the pillar opposite the foot, and this for the engagement of corresponding spur gears. The instep of the foot opposite the stand column also automatically provides the Positive locking of the spur gears. The principle of operation the jack is thereby already in the course of its use by the fact that the foot with the jack stowed folded into the longitudinal alignment of the pillar and slightly tensioned is. In order to be able to put the foot flat, must therefore the toggle fastener should be released beforehand until the foot is pivotable relative to the pillar, which also Principle of the locking device is recognized. Supports the functional understanding is still when the spur gears are clearly visible during operation. In particular from this point of view, it may make sense to formed by an elongated riot profile to be provided with an L-shaped cross-sectional profile.

Further embodiments of the invention, for the Jacks of all three types are appropriate, emerge from claims 21 to 25.

The following are several embodiments of the invention explained in more detail using a graphic representation. Show it

Figure 1 is a side view of a car lifted using a jack according to the invention.

Figure 2 shows the jack of Figure 1 in a perspective view, the locking device according to the invention being arranged inside a housing of the jack foot and was only shown in broken lines;

FIG. 3 shows the jack of Figures 1 and 2 after the attachment to the vehicle body, but before raising it and so the stand column was loaded, wherein the foot housing cut open and the entire arrangement is shown in side view transversely to the vehicle longitudinal axis.

FIG. 4 shows a representation corresponding to FIG. 3, but after lifting the vehicle body;

Fig. 5 is a representation corresponding to Figure 3 of a second embodiment of the jack of the present invention, however, the upper part of the jack has been omitted.

Fig. 6 is a section along the line VI-VI in Fig. 5;

Fig. 7 is a Figures 3 and 5 corresponding view of a third embodiment.

Fig. 8 is a section along the line VIII-VIII in Fig. 7;

. Fig. 9 is a Figures 3, 5 and 7 corresponding Dar position to a fourth embodiment, in which the jack was again shown in the unloaded state;

Fig. 10 is a section along the line XX in Fig. 9;

FIG. 11 is the detail "A" of Figure 10 in a larger scale.

Fig. 12 is a corresponding to Figures 5 and 7 Dar position of a fifth embodiment.

Fig. 13 is a section along the line XIII-XIII in Fig. 12;

Figure 14 is a further embodiment of a bottom plate of the foot of a jack according to the invention, in a partly sectioned perspective view.

Fig. 15 is a view corresponding to Figure 14 a further variant of the foot bottom plate.

. Fig. 16 is a Figures 5 and 7 corresponding view of another embodiment of the jack according to the invention;

Figure 17 is a section along the line XVII-XVII in Fig. 16 . ;

FIG. 18 is a view of a root portion of a modern fiction, jack;

FIG. 19 is a side view of the root region of FIG. 18;

FIG. 20 is a variant of the foot portion of the jack of Fig. 18;

Fig. 21 is a section along the line XXI-XXI in Fig. 20;

Figure 22 shown another embodiment of a jack with height-adjustable support column in a modified Fußanschlußbereich.

Fig. 23 is a variant of the embodiment according to Fig. 22.

Fig. 1 shows a with a total of 10 designated foot standing on the floor 12 jack 14 , with which a vehicle 16 has been raised. For the sake of simplicity, the vehicle is shown as if both wheels of the rear axle have been lifted off the floor 12 , but this is not the case since only the wheel 18 adjacent to the jack 14 is lifted off the floor. Of FIG. 1 can be clearly seen that the longitudinal axis of the support column 20 of the jack 14 forms an acute angle with the plane of symmetry of the foot 10 corresponding to the inclination of the floor 12 relative to the horizontal.

The jack 14 will now be described in more detail with reference to FIGS. 2 to 4.

The standing column 20 is formed by a steel sheet profile which is approximately square in cross section and in which a threaded spindle (not shown) is rotatably mounted. Under a cap 22 is a bevel gear, not shown, which connects a hand crank 24 rotatable about a horizontal axis at the upper end of the pillar 20 with the threaded spindle. A load arm 26 is guided displaceably in the standing column 20 ; he passes through a longitudinal slot 28 of the column forming the profile and has at its inner end one or more nuts that run on the threaded spindle, so that the load arm 26 can be moved along the stand column 20 by turning the hand crank 24 .

The foot 10 formed according to the invention consists essentially of a base plate 30 and a housing 32 , which has a passage opening 34 for the pillar 20 at the top. As indicated in Figs. 3 and 4, extending perpendicularly to the drawing plane of Fig. 3 and 4 edges of the passage opening are formed spherically 34 so that they form a kind of pivot bearing for the auxiliary column 20. The pivot axis defined by this bearing was designated 36 . On the underside of the base plate 30 , tips or claws 38 are provided which are intended to prevent the foot from slipping on the base 12 . In addition, part of the base plate 30 is an approximately plate-shaped support body 40 , the top of which is designed according to a sector of a circular cylinder jacket with the pivot axis 36 as the cylinder axis and is provided with groove-shaped depressions 42 which, in the embodiment shown, run parallel to the pivot axis 36 .

According to the invention, a pressure plate 44 is fastened to the lower end of the standing column 20 , the underside of which is adapted to the profile of the counter surface formed by the supporting body 40 and is provided with ribs 46 which run parallel to the depressions 42 . Of course, the depressions could also be provided in the underside of the pressure plate 44 and the ribs 46 on the support body 40 .

A designed as a tension spring return spring 48 is on the one hand in a manner not shown attached to the pressure plate 44 and on the other hand hooked to two pins 50 which are attached to the two opposite side walls 32 a of the housing 32 .

The return spring 48 thus tries to pull the pillar 20 upward when the latter is lowered downward from its position shown in FIG. 3 (see FIG. 4).

At the free end of the load arm 26 , an insertion mandrel 52 is attached, with the aid of a hinge pin 54 , so that the insertion mandrel can pivot about a plane perpendicular to the movement of the load arm 26 and horizontally extending axis.

Figs. 2 to 4 are just like the other figures show only the principle of an embodiment of the erfindungsge MAESSEN jack. In practice, the jack shown in FIGS. 2 to 4 will be designed somewhat differently; So you will ensure, for example, that the load arm 26 can be lowered further down, which is not possible in the embodiment shown in the drawing because of the housing 32 and the return spring 48 .

For use, the insertion mandrel 52 is now inserted into a corresponding insertion opening provided on the vehicle 16 and the load arm 26 is shifted by rotating the hand crank 24 along the pedestal so that the foot 10 rests on the floor 12 with the base plate 30 . This is shown in FIG. 3. Since the pedestal 20 can still be freely pivoted relative to the foot, the base plate 30 of the foot 10 can adapt to the inclination of the floor 12 and the pedestal 20 still runs vertically. If one starts to push the load arm 26 along the column 20 upwards by rotating the hand crank 24, the load arm 26 and thus the column 20 is loaded, which leads to the column 20 being counter to the action of the return spring 48 is shifted far down until the pressure plate 44 engages on the base plate 30 or its support body 40 , the pillar 20 is secured against further pivoting relative to the foot (about the pivot axis 36 ) before the wheel 18 of the vehicle 16 from the ground 12 takes off. Thus, although the stand column 20 can be pivoted with the Feststellvor device 44 , 40 on the one hand about the axis of the insertion mandrel 52 relative to the vehicle 16 and on the other hand relative to the foot 10 about the pivot axis 36 , there is a load on the jack when lifting the vehicle stable configuration, since then the pedestal 20 locks on the foot 10 immediately, ie the pivoting mechanism between the pedestal and the foot is blocked, so that it is ensured on the one hand that the foot 10 rests fully on the floor 12 and not only along an edge and on the other hand the carriage lifts the vehicle 16 from rolling downhill, since the stand column 20 is secured against tipping about the pivot axis 36 already in the initial phase of lifting the vehicle. This backup is done automatically so that no operating errors can occur. Another advantage of such embodiments of the jack according to the invention, in which the stand column 20 can tilt about a pivot axis lying above the lower stand with respect to the foot 10 , can be seen in the fact that the line of action of the lifting force absorbed by the load arm 26 is also opposite the foot from its neutral center position pivoted stand column 20 runs approximately through the center of the base plate 30 of the foot: As he can see in FIG. 4, the axis of the insertion mandrel 52 , the pivot axis 36 and the center of the base plate 30 form a flat triangle, the hypotenuse is formed by the solder from the axis of the insertion mandrel 52 downward. Thus, although the pivot axis 36 is in a vehicle raised on an inclined floor 12 next to the line of action of the lifting force acting on the insertion mandrel 52 and the longitudinal direction of the pillar 20 does not coincide with the line of action of the lifting force, on the one hand the locking device prevents the car jack from buckling and on the other hand, the line of action of the lifting force still runs through the central area of the base plate of the foot.

The embodiment shown in FIGS . 5 and 6 of the jack according to the invention differs from the embodiment according to FIGS . 2 to 4 in wesent union only in two respects: on the one hand, the pivot axis 36 defining joint is somewhat different and on the other hand a compression spring in place of the return spring 48 designed as a tension spring. Therefore, only those features of the second embodiment are discussed below, in which the latter differs from the embodiment of FIGS. 2 to 4.

In the embodiment according to FIGS. 5 and 6, the pedestal 20 is guided in a guide opening 101 of a bearing body 102 which is adapted to its cross-sectional shape and can be moved in the longitudinal direction of the pedestal. Two opposite side surfaces of this bearing body are spherical so that the bearing body 102 forms a section from a circular cylinder, the axis of which defines the pivot axis 36 .

A housing 132 of the foot 100 forms, with the upper edge of two opposing side walls, two bearing shell-like joint zones 104 , between which the bearing body 102 is rotatably mounted. In this way, the standing column 20 can not only be displaced in the longitudinal direction relative to the foot 100 , but also tilted about the pivot axis 36 with respect to the foot.

A return spring 148 designed as a compression spring is arranged between a support ring 150 fastened to the support column 20 and an intermediate base 152 fastened in the interior of the housing. For the passage of the pillar 20 , the intermediate floor 152 has a slot 154 which extends transversely to the pivot axis 36 . The return spring 148 is dimensioned so that it biases the stand column 20 in the position shown in FIGS . 5 and 6 upwards and thus holds the abutment ring 150 securely against the bearing body 102 when the jack is not under load. However, if the column 20 is loaded during the lifting of a vehicle, it shifts downward and then prevents the column from tipping about the pivot axis 36 .

For those parts of the embodiment according to FIGS. 5 and 6 which are identical to corresponding parts of the embodiment according to FIGS. 2 to 4, the same reference numerals have been used as in FIGS. 2 to 4.

The embodiment of FIGS. 7 and 8 is characterized in that the pedestal upward return springs simultaneously generate a restoring moment, which endeavors to turn the pedestal pivoted out of the central plane of the foot back to its normal position.

To Fig. 8 it should be noted in advance that there the lower part of the pedestal was broken away in order to represent one of the return springs.

In addition to an intermediate floor 252 , a housing 232 of a foot 200 also contains two intermediate walls 205 which have been formed at the top to form bearing shell-like joint zones 204 ; these joint zones each form a strip from a jacket of a circular cylinder, the axis of which in turn defines the pivot axis 36 . Also in this embodiment, the stand column 20 in a guide opening 201 of a bearing body 202 leads longitudinally displaceable ge, and the latter has two externally crowned bearing strips 203 , with the help of which from a front wall 232 a to a rear wall 232 b of the housing 232 extending bearing body 202 is pivotally mounted in the joint zones 204 of the intermediate walls 205 .

A plate 244 attached to the lower end of the pedestal 20 carries a bearing eye 244 a on both sides of the pedestal. In these bearing eyes two springs formed as a tension return springs 248 are hung with one end, while the other ends holes 205 a serve in the intermediate walls 205 . So that the intermediate walls 205 do not hinder the pivoting of the standing column 20 about the pivot axis 36 , each intermediate wall has a strip-shaped opening 205 b for each of the return springs 248 .

Otherwise, the embodiment according to FIGS. 7 and 8 corresponds to the embodiment according to FIGS. 5 and 6, ie the pressure plate 244 is under the action of the return spring 248 from below against the intermediate floor 252 , which has a slot 254 for the passage of the Stand column 20 has.

If the stand column 20 is now pivoted, for example clockwise, about the pivot axis 36 , the right-hand return spring 248 according to FIG. 7 generates a restoring moment which tends to pull the stand column 20 back into its neutral or rest position, in which the longitudinal axis of the stand column 20 runs through the center of the base plate 230 .

In the embodiment according to FIGS. 9 to 11, the pedestal 20 is supported at its lower end in such a way that it can be tilted about a pivot axis 36 indicated in FIG. 9 in its approximate position, which runs perpendicular to the plane of the drawing. In this embodiment, the foot 300 has a housing 304 which forms a base plate 302 and which receives a bearing body 306 which is fixedly connected to the base plate 302 . This has a central recess 308 , which is bridged by a spring plate 310 . The attachment and a saving of the spring plate 310 on the bearing body 306 serves a mounting ring 312 , which is connected to the bearing body, for example, by screws. The spring plate 310 was provided with a central passage opening 314 through which the pillar 20 extends. Since the spring plate 310 is clamped between a head 316 of the stand column 20 and a clamping ring 318 fastened to the latter, the stand column 20 can be pivoted somewhat about the pivot axis 36 from the position shown in FIG. 9 to both sides, the spring plate 310 is deformed and then generates a restoring torque according to the invention. In addition, thanks to the spring plate 310 , the stand column 20 can also be pressed down somewhat, in which case the spring plate 310 generates a return force. The spring plate thus serves as a return spring in two respects, namely against pivoting and against lowering of the standing column 20 .

On a support bar 320 attached to the bearing body 306 , a locking plate 322 is fastened by means of screws 324 , which lies essentially in a plane running perpendicular to the pivot axis 36 and carries a series of locking teeth 326 on its side facing away from the pillar 20 side. On the pedestal 20 , a locking shoe 328 is attached, which has a downward opening slot 330 into which the locking plate 322 engages. The locking teeth 326 should, which does not result from the drawing, oblique flanks, ie - seen in the longitudinal direction of the teeth - have an approximately triangular cross-section. On one side wall of the slot 330 are also a plurality of locking teeth 334 provided, the depth of which, as can be seen in FIG. 11, increases towards the top and which also has a triangular shape (horizontal and perpendicular to the drawing plane of FIG. 11) Should have a cross-section. . As the detent plates 322 perpendicular to the drawing of FIG plane 9 as can spring, fixedly attached at the base 300 latch plate 322 which together with the attached to the pedestal 20 locking shoe following 328 Effect: In the unloaded state, to Figs 9 to 11. 9, the stand column 20 can pivot about the pivot axis 36 according to FIG. 9 to the right and left, the slightly interlocking locking teeth 326 and 334 due to their triangular profile and the ability of the locking plate 322 , in the slot 330 according to FIG. 10 to the left somewhat Dodge, allow the pivoting of the pedestal, but clearly mark the steps from locking tooth to locking tooth. In this way it is prevented that the column 20 can be pivoted freely in the unloaded state. If a vehicle is now raised and thereby the column 20 is loaded, it lowers itself, so that due to the triangular locking teeth 334 in the side view, the locking effect changes into a locking effect and pivoting of the column 20 about the pivot axis 36 is prevented.

In the embodiment according to FIGS. 12 and 13, a return spring 410 designed as a corrugated spring is supported on the base plate 402 of a foot 400 , on which the standing column 20 rests. If this is pressed down, it deforms the return spring 410 , so that the latter generates an upward return force.

A housing 404 of the foot 400 has behind a front wall 404 a and a rear wall 404 b each have a bearing plate 412 , which is provided with a vertically oriented slot 414 . In this connection it should be noted that in FIG. 12 the front wall 404 a has been broken away. A bearing journal 416 is fastened to the front pillar 20 at the front and rear, which engages in the elongated hole 414 of the bearing plate 412 lying on the corresponding side and thus defines a vertically displaceable pivot axis 36 . To lock the pillar at the base against pivoting, the bearing pins have teeth 418 at the bottom for engaging in recesses 420 at the lower edge of the elongated holes 414 . The unloaded stand column 20 shown in FIGS . 12 and 13 can thus be pivoted relative to the foot 400 , but if the weight of a vehicle to be lifted pushes the stand column 20 downward, the teeth 418 engage in the recesses 420 and thus secure the stand column against further pivoting about axis 36 .

Of course, the housing 404 must have a correspondingly large passage opening 422 for the pillar 20 , which allows pivoting of the pillar, and also the return spring 410 must be designed so that it supports the pillar 20 in any pivot position.

FIGS. 14 and 15 show alternatives for the bottom plate 30 and the bottom plate of the embodiments according to FIGS. 5 and 6 or 7 and 8. In the GE in Fig. 4 showed bottom plate 530, a support body 540 of elastomeric material is provided , into which ribs, serrations or other projections at the lower end of a pillar can be pressed in order to secure the loaded pillar against swiveling. In the embodiment according to FIG. 15, the bottom plate 630 represents a hollow body, the upper wall 640 of which is formed by a steel sheet into which groove-shaped depressions 42 have been embossed.

The embodiment shown in FIGS. 16 and 17 is extremely similar to that of FIGS. 7 and 8 and differs from this only by the type of return spring and the design of the top of the plate attached to the lower end of the pillar pressure. With the exception of these elements, the elements of the embodiment according to FIGS. 16 and 17 have therefore been provided with the same reference numerals as the corresponding elements of the embodiment according to FIGS. 7 and 8.

The plate 744 attached to the lower end of the pedestal 20 is characterized in that its upper side 744 b is formed so concave that it nestles against the convex intermediate floor 252 below.

According to the second essential feature of this embodiment form take the place of the hanging openings of the bearing eyes 244 a of the embodiment according to FIGS. 7 and 8 fastening pins 744 a , on which on both sides of the pillar 20 , ie before and behind the pillar, arranged and return springs 748 designed as leaf springs are fastened. In the side view, these return springs have the shape of a flat U and lie against the intermediate floor 252 from above without pressure or with a slight preload when the column 20 is not loaded. If the support column 20, but compressed by the weight of the lifted vehicle down, the return springs 748 abge through the intermediate bottom 252 flattens and thus produce a force upward return.

The previously described embodiments of a fiction modern jacks consistently have a high building Housing as a foot, so that with a jack, the should serve as an on-board tool, relatively much storage space in the assigned vehicle would be claimed.

In the following, therefore, embodiments are low building foot area.  

For this purpose is shown in FIGS. 18 and 19, a foot region a, the pillar 20 is formed, however, a slit of a circular tube to remove 14 correspondingly shaped jack above the root portion about the jack. However, this does not rule out that, like the pedestal 20, it could also be formed by a slotted rectangular tube.

To support the pedestal 20 a in a foot 10 a , a lower end portion of the pedestal 20 a is formed by a bearing sleeve 11 pushed onto the standpipe. The bearing sleeve 11 is matched in terms of its inner diameter to the outer diameter of the standpipe and designed pot-shaped. The fit can be dimensioned so that the bearing sleeve 11 is held in a frictional manner due to the clamping forces on the standpipe.

To hold the bearing sleeve 11 , it may be advantageous to design it as an investment casting, which makes exciting machining unnecessary.

From the outer periphery of the bearing sleeve 11 collar on two sides under the diametrical arrangement bearing pin 13, which are pressed in to subordinate blind holes in the bearing sleeve. 11 The direction of extension of the bearing pin 13 lies exactly in the plane of movement of the support member, since it overlaps the longitudinal slot 28 . The bearing pin 13 engage with some play in associated bearing holes 15 of the stem 10 a is located in the upright side limbs of a long U-profile that forms the foot 10 a. In order to achieve a wide support base in both pivoting directions of the pedestal 20 a with respect to the base 10 a , the bearing sleeve 11 is arranged approximately in the center of the base 10 a . In addition, the bearing sleeve 11 is mounted at a height from the center leg of the foot 10 a , so that the foot 10 a from the illustrated operating position by about 90 degrees in both directions in the longitudinal alignment of the column 20 a can pivot that the U - Profile encompasses the column 20 . Because of this space-saving folding possibility, the length of the foot 10 a hardly affects the accommodation option of the jack. On the operating side of the jack, a lever bracket 17 is struck in the end region of the foot 10 a . The pivot planes of the two lever tabs 17 are close together and on the outside next to the corresponding, upright leg of the U-profile.

In order to be able to fix the pedestal 20 a in different angular positions with respect to the foot 10 a , the lever tabs 17 run at an angle of approximately 45 degrees with respect to the main direction of extension of the foot 10 a to the pedestal 20 a and its upper end is variable the column 20 a attachable. For variable fastening, a central fastening point is provided correspondingly offset in height from the bearing pin 13 . This attachment point is formed by a stud 19 with an external thread, which sets the pivoting planes of the two lever brackets 17 across, and which is attached on the standpipe side.

In order to enable defined pivoting levels of the lever tabs 17 , it can be attached to the pedestal 20 a if necessary. For this purpose, it protrudes from an elastic sleeve 21 , which is held in the manner of a clamp on the column 20 a . The stud bolt 19 passes through two elongated holes 23 which are recessed from the upper end section of the lever tabs 17 which cross each other in the stud bolt region.

The length of the elongated holes 23 must be such that a relative displacement of the stud 19 in the elongated holes 23 is possible over the desired pivoting range of the pedestal 20 a relative to the foot 10 a . As a result, the levers are tabs 17, for example, by screwing a wing nut 25 onto the stud bolt 19 between a mating surface of the collar 21 and the wing nut 25 itself, in a frictionally locking manner, one on top of the other. Instead of the wing nut 25 , a quick-action fastener or the like can also be used to generate the axial feed.

Regardless of the type of clamping process, it is possible with this embodiment of a jack to continuously determine the selected angle of attack between the pedestal 20 a and the foot 10 a , so that an exactly perpendicular angle of attack of the pedestal 20 a can be set even if an assigned Vehicle is to be raised on an inclined plane.

In contrast, all of the following execution examples are based play on a fine step angle adjustment of the Standpipe.

In the exemplary embodiment according to FIG. 20 or FIG. 21, the standpipe 20 a is pivotally mounted on a foot 10 b , which is also designed as an elongated riot profile, however, with an L-shaped cross section. This gives the foot 10 b the advantage of a significantly lower weight. Since one leg of the foot 10 b serves as a footprint, however, only an upright leg of the L-profile is available for supporting the stand column 20 a . To support the pedestal 20 a , a bearing sleeve 11 a is also pushed onto its lower end here. Diametrically opposed to the longitudinal slot 28 protrudes from the bearing sleeve 11 a from a bolt 27 which penetrates an associated hole 29 in the upright leg of the foot 10 b protruding on the operating side of the jack from the penetrated leg. The arrangement of the screw bolt 27 and the bore 29 is such that the pillar 20 a , which is seen over the longitudinal extension of the foot 10 b in the central region thereof, is pivoted about the bearing axis predetermined by the screw bolt 27 by about 180 degrees.

Concentric with the bolt 27 is a cylindrical disc 31 molded on the pot-shaped bearing sleeve 11 which is provided with an end toothing. Gegenstückig to the disc 31 is on the opposite surface of the foot 10 b a concentrically arranged bore 29 to annular disk 33 welded to a corresponding face toothing. Are the coordinated spur gears disengaged, the column 20 a can be easily pivoted relative to the foot 10 b . However, the spur gears are under sufficient tension in engagement with each other, then the pedestal 20 a is pivotally blocked in the present angular position to the foot 10 b . The bracing of the spur mitein mitein, as provided here, by means of a wing nut 35 screwed onto the protruding end of the screw bolt 27 . Alternatively, however, it is also conceivable, if possible, to generate the axial feed of the screw bolt 27 by means of a quick-action lock. The serrations, also known as Hirth serrations, easily take up the supporting forces that occur at jacks, so that serrations with a filigree tooth pitch can be used to adjust the support angle as precisely as possible.

From Fig. 22 a foot connection area can be seen, in which the pedestal 20 a is articulated in height on a foot 10 c . The foot 10 c is an elongated U-profile, between the upright legs of which the pedestal 20 a is positioned approximately centrally in the longitudinal direction of the foot 10 c . The middle leg of the foot 10 c serves as well as that of the foot 10 a as a footprint for the jack. In contrast to the latter, the side legs of the foot 10 c are sized larger. To support the pedestal 20 a , a bearing sleeve 11 b holding the standpipe is pushed onto its lower end, onto which a toothed segment 37 of rectangular cross section is cast. The cross-sectional width of the toothed segment 37 is matched to the clear width between the parallel legs of the foot 10 c . In addition, the tooth segment 37 is connected to the column 20 a in such a way that its longitudinal slot 28 runs approximately parallel to the broad side of the tooth segment 37 .

For the foot-side mounting of the toothed segment 37 , from both upright legs of the foot 10 c mirror symmetrically extending elongated holes 39 are saved, which extend in relation to their longitudinal direction from bottom to top. From the outside through the elongated holes 39 through approximately the center of the broad sides of the tooth segment 37 lying threaded holes associated guide bolts 41 are screwed in, through which there is a rotary sliding joint in connection with the elongated holes 39 .

The downward-facing, circularly curved circumferential surface of the toothed segment 37 is provided with straight toothing 43 which extends over the entire circumferential surface. Is below the toothed segment 37 for a Ge radeverzahnung 43 gegenstückiges rack profile 45 on sorted, which is fixedly connected with the middle leg c of the foot 10th The rack profile 45 belongs here to a rack 47 , the toothed segment 37 facing lying on the middle leg is welded. Alternatively, however, it is also conceivable to produce the toothed rack profile 45 by milling out the center leg of the U profile, as a result of which the weight of the foot 10 c would be reduced. Also for reasons of weight saving, it would be conceivable to form, instead of the toothed segment 37 has a corresponding ring gear portion with straight teeth 43 directly to the lower end of the bearing sleeve 11b.

In the illustrated engagement state, the drawbar load raised by means of the jack is fully absorbed by the tooth profiles serving as a fixed device, so that the set angle of attack of the pedestal 20 a to the foot 10 c is blocked automatically. After cranking down the load arm 26 only the dead weight of the standpipe-side jack parts rests on the rack profile 45 , so that the pillar 20 a in the slot guide can be easily pulled upwards until the engagement of the straight toothing 43 in the rack profile 45 is completely eliminated is. To ease operation, a return spring can also be provided in this embodiment, with which the pedestal 20 a is held in its raised starting position. When the support member 26 is loaded by a drawbar load, the tooth segment 37 is actively moved downward against the load of the return spring in the elongated holes 39 until the straight toothing 43 is positively supported in the corresponding rack profile 45 , as a result of which the pedestal 20 a in the selected angular position relative to the foot 10 c is locked. After the vertical load has been removed, the toothed segment 37 is automatically driven back into the disengaged starting position by the spring force of the return spring, from which the standing column 20 a over a swivel angle of approximately 180 degrees about the axis defined by the guide pin 41 into the clear fork cross section of the foot 10 c can be folded in.

The variant shown in FIG. 23 for the foot area according to FIG. 22 works according to the same functional principle, which is therefore not explained again. However, it is distinguished from the embodiment already described by a significant simplification of its structure, so that it can be manufactured more cheaply.

Is for this purpose a a be strengthened bearing sleeve 11 c at the lower end of the support column 20 from which the guide pins 41 directly protrude on both sides in slots 39 of the mutually parallel legs of a U-shaped profiled foot 10 d engaging, vertically adjustable on steered. 39 circle segment-shaped toothed segments 49 forth are d from the side legs of the foot 10 beid other on a circular arc about the central longitudinal axis of the slots being severed, which protrude beyond the remaining contour of the foot 10 d. Above the toothed segments 49 protrudes on both sides to the guide pin 41 in alignment with a centering tooth 51 , which is integrally cast on the bearing sleeve 11 c . The centering tooth 51 has a downward-facing wedge cutting edge, which fits in an opposite tooth gap of the associated tooth segment 49 , whereby the pedestal 20 a is locked in the angular position shown to the foot 10 d . With the Darge presented locking device consisting of centering tooth 51 and associated tooth segment 49 can be made by changing the tooth gap of the tooth segment 49 only a coarse step angle adjustment of the standpipe angle to the foot 10 d . In order to overcome this drawback, instead of the single Zentrierzahns 51 gegenstückig a curved segment 49 to the tooth multi-tooth element can be provided with fine teeth, which engage in a corresponding fine toothing in the counter-toothed segment 49 may ver.

Be because the depth of the bearing sleeve 11 c in the region of centering teeth 51 a complete inward swiveling of the pedestal 20 a in the clear fork cross-section of the foot 10 prevents d ver, can contribute to increasing the Auseinanderbiegesteifig ness of the lateral legs end walls 53 in the ends of the foot 10 d sealed .

Claims (25)

1. jack with a column on which a support member is vertically adjustable, and on which a foot is pivotally mounted, the jack being able to be placed in the course of its use by pivoting its column towards the foot about an approximately horizontal axis at different angles of attack, and wherein the selected angle of attack of the pedestal can be locked against pivoting against the foot by means of a releasable, positively acting locking device, characterized in that the pivot axis between the pedestal ( 20, 20 a) and the foot ( 10, 10 c , 10 d , 100, 200 , 300, 400 ) runs in the plane of movement of the support member (load arm 26 ), and that the stand column ( 20, 20 a) is attached to the base ( 10, 10 c , 10 d , 100, 200, 300, 400 ) in such a way that it can be adjusted in height, that it can be lowered from an attachment position into a locking position, in which it is produced by the positive locking of the locking device ( 40 , 4 4 ; 43 , 45 ; 49 51 ; 40 , 244 ; 322 , 328 ; 418 , 420 ; 40 , 540 ; 40 , 744 ) is automatically swivel blocked. 2. Jack according to claim 1, characterized in that as an element of the locking device ( 40 , 44 ) on the pedestal ( 20 ) or on the foot ( 10 ) projections ( 46 ) and on the other part depressions ( 42 ) for engagement of the projections are provided in the locking position. 3. Jack according to claim 1, characterized in that as an element of the locking device ( 44, 540 ) on the stand column ( 20 ) or on the foot ( 10; 100; 200; 300; 400 ) projections ( 46 ) and on the other part one elastomeric surface ( 540 ) are provided for pressing in the projections in the locking position. 4. Jack according to claim 2 or 3, characterized in that the stand column ( 20 ) in the foot ( 10 ) about a spaced from the lower end of the column end transverse axis ( 36 ) is pivotally held and the elements of the locking device ( 44, 40 ) on the lower end of the pedestal and on an area ( 30 ) of the foot ( 10 ) opposite this end are provided. 5. Jack according to claim 2 or 3, characterized in that the pedestal ( 20 ) in the foot ( 300 ) about an arranged at the lower pillar end transverse axis ( 36 ) is pivotally held, and the elements of the locking device ( 322 , 328 ) at a distance this transverse axis are provided on the pedestal and on the foot. 6. Jack according to one or more of the preceding claims, characterized in that the pillar ( 20 ) and the foot ( 400 ) via a transverse axis to the pillar ( 416 ) and a perpendicular to a foot-standing surface ( 402 ) oriented slot ( 414) into which the journal engages, in an articulated and relatively adjustable connected to each other and that a first locking element is at the bottom of the axle journal (416) of at least (418) is provided, which, when loaded support member (52, 26) with a second, on the foot ( 400 ) provided locking element ( 420 ) cooperates. 7. Jack according to claim 5 or 6, characterized in that the elements ( 42 , 46 ) of the locking device ( 40 , 44 ) along the pivot axis ( 36 ) are arranged on concentric circular arc surfaces. 8. Jack according to claim 1, characterized in that the stand column ( 20, 20 a) against the action of a return spring ( 48, 248, 310, 748 ) can be lowered from its attachment position. 9. Jack according to claim 8, characterized in that at the lower end of the stand column ( 20 ) a part of the locking device ( 744, 40 ) forming plate ( 744 ) is attached, which under the action of the return spring ( 748 ) with its top ( 744 b ) bears from below against an abutment ( 252 ) of the foot, which is circular in the form of a side view, and that the upper side ( 744 b ) of the plate ( 744 ) is convex in accordance with the curvature of the abutment ( 252 ). 10. Jack according to claim 8, characterized in that a return spring ( 248 , 310 ) is provided with which the pivoted from its central position column ( 20 ) about the pivot axis ( 36 ) can be pivoted back into its central position. 11. Jack according to claim 10, characterized in that in the pivot plane on both sides of the pillar ( 20 ) designed as tension springs return springs ( 248 ) are easily seen, which extend obliquely upwards from the pillar while increasing the lateral distance from the pillar ( 20 ) and attack there at abutments ( 205 a ) attached to the foot ( 200 ). 12. Jack according to claim 8, characterized in that the return spring ( 748 ) forms a in the side view down convex arc, which is fixed to the pillar ( 20 ) and from above against an arcuate abutment in the side view ( 252 ) of Foot ( 200 ) rests so that the return spring ( 748 ) is flattened by lowering the stand column ( 20 ) on the abutment ( 252 ). 13. Jack according to claim 1, characterized in that the standing column ( 20 a) by means of an elongated hole guide ( 39 , 41 ) in the foot ( 10 c) is guided in a vertically adjustable manner, and that a lower end portion of the standing column ( 20 a) as a toothed segment ( 37 ), which engages in a straight, foot-fixed rack ( 47 ) for swivel blocking. 14. Jack according to claim 1, characterized in that the standing column ( 20 a) by means of an elongated hole guide ( 39, 41 ) in the foot ( 10 d) is adjustable in height and that mirror symmetry to the elongated hole guide ( 39, 41 ) at least one upright leg of the foot ( 10 d) is provided with a toothed segment ( 49 ), in the tooth gaps of which a centering tooth ( 51 ) fixed to the column can be lowered. 15. Jack with a column on which a support member is vertically adjustable, and on which a foot is pivotally mounted, the jack in the course of its use by pivoting its column to the foot about an approximately horizontal axis in the plane of movement of the support member under different Angle of attack is applicable, and the selected angle of attack of the pedestal can be fixed by means of a locking device which comprises a lever bracket which is movable parallel to the pivoting plane of the pedestal and via which a foot laterally offset with respect to the axis with axial support is variable in length with an attachment point at the height offset from the axis Stand column can be connected, characterized in that the stand column ( 20 a) is connected via a common foot ( 10 a) to the lever bracket ( 17 ), the foot ( 10 a ) consisting of an elongated riot profile, which in the course of use of the jack, for example p Arallel to the side wall of the associated vehicle is supported that the lever bracket ( 17 ) is pivotally attached to the foot ( 10 a ) with its lower end region, and that its opposite end can be clamped to the pedestal ( 20 ). 16. Jack according to claim 15, characterized in that two lever tabs ( 17 ) extending approximately mirror-inverted to one another are provided. 17. Jack according to claim 16, characterized in that the lever tabs ( 17 ) with their pillar-side ends in a common attachment point of the pillar stand ( 20 a ) can be attached. 18. Jack according to claim 15 or 16, characterized in that each lever bracket ( 17 ) at its upwardly facing end with an elongated hole ( 23 ) and by means of a slot ( 23 ) penetrating clamping screw ( 19 , 25 ) on the pedestal ( 20 a ) can be screw-fastened. 19. jack with a pedestal on which a support member is vertically adjustable and on which a foot is pivotally mounted, the jack being usable by pivoting its pedestal to the foot about an approximately horizontal axis at different angles of attack in the course of its use, and wherein the selected angle of attack of the pedestal can be fixed by means of a releasable locking device which comprises positively clampable engaging elements arranged on the pedestal and on the foot, the engagement feed of which extends in the longitudinal direction of extension of a transverse bolt over which the pedestal is attached to the foot, characterized in that the Length extension of the cross bolt ( 27 ) in the plane of movement of the support member (load arm 26 ) that concentric to the cross bolt ( 27 ) between an end face of the pedestal ( 20 a) and an opposite surface of the foot ( 10 b) matched forehead verza Hungen ( 31, 33 ) are provided, and that the spur gears ( 31, 33 ) by a related to the extension of the transverse bolt ( 27 ) coaxial feed of the pedestal ( 20 a) against the foot ( 10 b) can be clamped together. 20. Jack according to claim 19, characterized in that the foot ( 10 b) designed as an elongated riot profile is approximately L-shaped. 21. Jack according to claim 13, 14, 15 or 19, characterized in that the foot formed as an elongated riot profile ( 10, 10 c , 10 d) has a U-shaped basic cross section. 22. Jack according to claim 13, 14, 15 or 19, characterized in that the foot ( 10 a , 10 b , 10 c , 10 d) together with the locking device is designed as an attachable unit. 23. Jack according to claim 22, characterized in that a lower end portion of the stand column ( 20 a) is formed by a bearing sleeve pushed onto the standpipe ( 11, 11 a , 11 b , 11 c) . 24. Jack according to claim 23, characterized in that the bearing sleeve ( 11, 11 a , 11 b , 11 c) consists of an investment casting element. 25. Jack according to claim 23 or 24, characterized in that the bearing sleeve ( 11 , 11 a , 11 b , 11 c) can be pushed onto the standpipe of the stand column ( 20 a) in a self-clamping manner.