FI82910B - LYFTANORDNING ATT ANVAENDAS FOER LYFTNING AV TILL EXEMPEL BIL. - Google Patents

Description

82910

LIFTING DEVICE USED AS AN EXAMPLE FOR LIFTING A CAR -LYFTANORDNING ATT ANVÄNDAS FÖR LYFTNING AV TILL EXEMPEL BIL

The invention relates to a lifting device for use, for example, in lifting a car, which lifting device comprises a frame part and a lifting mechanism attached to the frame part, which has at least one power member and at least one lifting member.

10 Lifting devices for lifting a car are already known, in which the lifting device, due to its height, has had to be immersed, for example, in the floor of the workshop space, below floor level in order to bring the car onto the device. This is a very expensive solution and a further disadvantage is that the solution embedded in the floor 15 is tied in one place.

Also known is a lifting device with four columns anchored to the floor of the workshop space, one in each corner of the device. Each column has an articulated lifting arm which can be pivoted horizontally and the distance of the lifting part from the column being adjustable. The lifting arm moves vertically along the column during the lifting and lowering movement. This, too, is an expensive and bulky solution. A further disadvantage is that this device is also tied in one place and that the posts 25 in the corners interfere with the repair or painting work.

There are also smaller, mobile lifting devices that are first pushed under the car, after which the lifting arms are applied to suitable lifting points. The disadvantage is precisely that it is very difficult to place the 30 lifting arms under the car in a low space. In addition, it may happen that due to the inconvenience, one of the lifting arms is incorrectly positioned, which can damage any part in the bottom of the car.

The object of the present invention is to eliminate the drawbacks of the above-mentioned solutions and to provide an easy-to-use, safe and inexpensive lifting device for use in lifting a car, e.g. in connection with repair and painting work. The lifting device according to the invention is characterized in that the body part is articulated with a substantially horizontally pivotable transmission member, and that the force member is articulated at its first end to the body part and at the second end to the transmission member, and that the transmission member is further articulated by a spacer at its first end. is correspondingly articulated at one end to the lifting member. The advantage is the advantageous orientation of the forces, which results in a compact structure and the fact that the lifting mechanism is protected inside the body part.

10

A previous embodiment of the invention is characterized in that the lifting member consists of at least two lifting legs at a suitable distance from each other, at least one support member between them and support rollers and at least one spacer mounting lug. The advantage is that the lifting force is evenly distributed on the lifting device and that the sliding friction becomes rolling friction due to the support rollers during the lifting phase.

Another previous embodiment of the invention is characterized in that the lifting leg is a substantially uniform, planar body with a first end, a fold point and a second end when viewed from the side, and which lifting leg le-stretches from the first end towards the fold point ·: 25 and tapers again after the fold towards the other end: reaching its maximum width at the fold. A very significant advantage now is that the lifting operation is two-stage. In the pre-lifting step, the required lifting force is reduced by shortening the lever arm of the lifting leg so that the lever arm extends from the fold of the lifting leg on the floor to the leveling point of the lifting leg. However, more lifting height is required than would be obtained, and therefore in the second stage of lifting, when the length of the lever arm of the spacer mounting lug has become more advantageous, the tip portion of the lifting foot hits the floor. As a result, the length of the lever arm formed by the lifting leg increases and more force is required. Correspondingly, a higher lifting height is achieved.

: A third preceding embodiment of the invention 3 82910 is characterized in that the other end of the lifting member is fixed 4 · to a substantially horizontal shaft, which shaft is mounted at its ends by means of bearings so as to pivot about its central axis, and which shaft has two with respect to the body part 5 an angled mounting lug for each spacer, the mounting lug having a hole for articulating the spacer so that the pivot point of the spacer is located as far as possible in the height direction from the pivot point of the lifting member and below the pivot point of the lifting member. The advantage, due to the largest possible height difference between the articulation points 10, is that the lever arm of the spacer is formed as long as possible relative to the joint of the lifting member.

Yet another preferred embodiment of the invention is characterized in that the device has two lifting members, a force member and a spacer, which are symmetrical with respect to each other and mirror images of each other with respect to the transverse and longitudinal axes of the lifting device body and such that the intermediate member pulls the intermediate member and by means of the lifting member 20, the support rollers at the fold of the lifting foot first hit the base, such as the floor, and as the power member continues to pull the lifting member, the support rollers at the first end hit the floor, releasing the support rollers 25 from the floor. The advantage is minimized power requirements and compact design. The design of the device enables a pre-lifting phase and immediately afterwards the actual lifting phase so that the available force can be optimized.

Another preferred embodiment of the invention is characterized in that the transmission member consists of two overlapping and spaced-apart plates, in the space between which the first ends of the force member and the spacer are articulated, and which transmission member is articulated to the body 35 for pivoting about a vertical pivot pin. further fixed to the lower surface of the upper plate of the body portion by the fixing portion, and to the lower part of the pivot pin, below the transmission member, there is attached a support plate carrying the weight of the transmission member. The advantage is the favorable orientation of the forces and the low structure.

4,82910

Yet another preferred embodiment of the invention is characterized in that the geometry, articulation points and lever ratios of the hoisting mechanism are selected so that when the hoisting device is in the down position 5 the entire hoisting machine fits in the space formed by the top plate and end plates and side plates. The advantage is the advantageous orientation of the forces and the low structure, as well as the fact that the lifting mechanism is protected inside the body part.

The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which Figure 1 shows the lifting device obliquely in front and top view, Figure 2 shows the lifting device in top view and the top plate of the body removed, Figure 3 shows the lifting device in top view and the top plate of the body part removed, Fig. 4 shows a side view of the lifting device in the lower position and cut along the line IV-IV in Fig. 2, Fig. 5 shows a side view of the lifting device in the final state of the pre-lifting stage and partly cut and simplified, Fig. 6 shows the lifting device seen from the side in the up: position and cut along the line VI-: VI in Fig. 3 and; Fig. 7 shows a front view of the transmission member. 2 from the direction of line VII to VII.

30

The lifting device has a body part 1 in the shape of a rectangular box opening downwards. The body part consists of a horizontal top plate 2 and end plates 3 and side plates 35 4 at its edges, which are perpendicular to the top plate. 4. The height of the end and side plates is as small as possible in order to keep the structure of the device as low as possible. Both. the inner surface of the side plate 4 has a fastening lug 30 for the articulation 21 of the second end 9 of the force member 5. The power element is: a standard hydraulic cylinder. The mounting lugs are located symmetrically with respect to the longitudinal and transverse axes of the body portion, one on each side of each axis. In addition, the inner surface of each side plate 4 has two sleeve-bearings 29, which are also located symmetrically when viewed from above with respect to the longitudinal and transverse axes of the body part. The sleeve bearings 29 are closer to the end of the body than the mounting lugs 30.

Seen from above, the center of the body part has a vertical ni-10 flap pin 19 which is fixed to the lower surface of the upper plate 2 by means of a fixing part 23. A pivot member 7 is mounted on the pivot pin, which can pivot horizontally. Attached to the lower part of the pivot pin 19, below the transmission member, is a support plate 24 which carries the weight of the transmission member and thus does not allow the transmission member 15 to fall off the pivot pin 15. The intermediate member 7 consists of two overlapping plates of the same shape at a suitable distance from each other. The thickness of the plates and the distance between them are chosen so that, when viewed from the side, the intermediate member remains completely inside the body part. At each end of the transmission member 7, symmetrically with respect to the pivot pin 19, there is a vertical pivot pin 20 to which the first end 8 of the force member 5 is articulated. The mutual position of the pivot pins 20 and the mounting lugs 30 is selected so that the force member 5 is substantially horizontal inside the section. Between the pivot pin 19 25 and the pivot pins 20, there is another vertical pivot pin 15 in the transmission member 7, the position of which on each side is symmetrical with respect to the pivot pin 19. When viewed from above, all the pivot pins 20, 15 and 19 are located in the same straight line, which is at the same time the center line of the transmission member.

30

The lifting device has two symmetrical and oppositely operating lifting members 6 located close to the ends of the lifting device. The lifting member 6 consists of two spaced-apart parallel lifting legs 13, a shaft 28 between and perpendicular thereto, a thinner support member 14, support rollers 17 and 18 and mounting lugs 22. The lifting leg 13 is a planar, plate-like body when viewed from above. Viewed from the side, the upper side of the lifting leg 13 is straight and the entire length of the lifting leg. The other end 26 of the lifting leg is approximately 6,82910 by the diameter of the shaft 28. Going towards the first end 25 of the lifting platform, the lifting leg initially begins to widen to the bending point 27, where the width is at its maximum. Going further towards the first end, the underside begins to rise steadily-5 ti towards the top.

The lifting leg is attached at one end 26 to a shaft 28, close to the end of the shaft, which shaft is further articulated to the body 1 of the lifting device by means of a sleeve bearing 29. Near the end of the shaft 10, two mounting lugs 22 are attached to the shaft, which point when the lifting device is in the down position downwards from the shaft 28 and outwards from the transmission member 7 in the longitudinal direction of the body part 1, the mounting lugs being at an acute angle to the vertical plane 28. The magnitude of the angle 15 is between 30 * and 60 ”. With the lifting device in the upper position, the fastening lugs 22 still point downwards, but now the angle is such that at the same time the fastening lugs point towards the transmission member 7 at an acute angle to the vertical plane passing through the shaft 28. The size of the angle is still between 30 ° 20 and 60 ”, but the angle is on the other side of the above-mentioned vertical plane. When the lifting device is in the down position, the fastening lugs 22 are completely inside the body part. At the lower end of the mounting lugs there is a horizontal pivot pin 16, the vertical distance from the shaft 28 being as large as possible in order to make the longest possible torque arm act between the pivot points 16 and 29 to reduce the required lifting force.

The lifting leg 13 has two adjacent support rollers 17 for lifting at the first end 25 of the foot and likewise two adjacent support rollers 3 0 18 for lifting at the leg flexion point 27. The support rollers are mounted on each side of the lifting legs and convert sliding friction into rolling friction during the lifting phase. In particular, the support rollers 17 move a relatively long distance during the actual lifting after the pre-lifting step. Support rollers 35 are needed mainly because there are two lifting devices and they act in opposite horizontal directions. The support member 14 between the lifting times is located close to the first end 25, where it well supports the narrower tips of the lifting times.

• · I.

Between the transfer member 7 and each lifting member 6 there is an intermediate piece 10 articulated at its first end 11 to the pivot pin 15 and at the second end 12 to the pivot pin 16. The spacer 10 is a flat bar, the first end of which is slightly higher than the other end when viewed from the side. The function of the spacers is to transfer the necessary lifting force, which is provided by the force member 5, from the transmission member to the lifting members 6.

Due to the geometry of the device, a much higher lifting force is required in the initial stage of lifting than in the final stage of lifting, whereby the articulation point 16 has moved lower relative to the articulation point 29 than at the beginning of the lifting, and thus the torque arm is extended. Because the lifting force is limited, a separate pre-lifting step is required to shorten the torque arm of the support forces acting on the floor relative to the hinge point 29. This is possible due to the geometry of the lifting leg. Initially, the torque arm of the support forces is short because it extends from the support roller 18 of the bending point 27 to the joint 29. As the lifting movement continues and the pusher 10 pulls the lifting member 20 off carry the load. In this case, the lever arm of the support forces also lengthens, but at the same time the length of the torque arm between the joints 16 and 29 has also increased, so that lifting is possible.

25

It will be apparent to those skilled in the art that the invention is not limited to the example set forth above, but may vary within the scope of the claims set forth below. Thus, for example, the side profile of the lifting leg may be suitably curved to distribute the lifting force more evenly. In addition, the spacer can be a tow rope or a chain instead of a drawbar, because due to the load, the spacer does not have to transmit thrust forces. Furthermore, the geometry of the transmission member and the relative position of the joints therein may vary to achieve the desired lifting result 35.

Claims (7)

8 82910 A lifting device for use, for example, in lifting a car, the lifting device comprising a frame part (1) and a lifting mechanism attached to the frame part, having at least one power member (5) and at least one lifting member (6), characterized in that the frame member (1) ) is articulated to a substantially horizontally pivotable transmission member (7), and that the force member (5) is articulated at its first end (8) to the body portion (1) and at the second end (9) to the transmission member (7), and that the transmission member is further articulated a spacer (10) at its first end (11), which spacer is respectively articulated at its second end (12) to the lifting member (6). 15 Lifting device according to Claim 1, characterized in that the lifting element (6) consists of at least two lifting legs (13) at a suitable distance from one another, at least one support element (14) between them and support rollers (17, 18). and at least one spacer mounting lug (22). Lifting device according to Claim 1 or 2, characterized in that the lifting time (13) is a substantially uniform, plate-like body with a first end (25), a fold point (27) when viewed from the side. and the other end (26), ··; and which lifting leg widens from the side at the first end:. (25) towards the fold (27) and tapers again after the fold towards the other end (26), reaching its maximum width at the fold (27). Lifting device according to Claim 1, 2 or 3, characterized in that the other end (26) of the lifting element is fastened to a substantially horizontal shaft (28), which shaft is mounted at its ends on the body part (1) pivotable by means of bearings (29). about its central axis, and in which the shaft (28) has two mounting holes (22) mounted at an angle to the body part on an angle spacer, the mounting lugs having a hole for articulating (16) the body (10), thus, that the articulation point (16) of the intermediate 9 82910 is located as far as possible in the height direction from the articulation point (29) of the lifting member and below the articulation point (29) of the lifting member. Lifting device according to one of the preceding claims, characterized in that the device has two lifting members (6), a force element (5) and an intermediate piece (10) which are symmetrical with respect to each other and mirror images of each other transverse to the lifting device body (1). and longitudinal axis 10 and such that when the power member pulls the lifting member from the mounting lug (22) by the transmission member and the spacer, the support rollers (18) at the bend of the lifting foot first hit the base, such as the floor, and the support members at the first end meet the support rollers (17). , wherein as the lifting member further pivots about its joints (29), the support rollers (18) at the fold are detached from the floor. Lifting device according to one of the preceding claims, characterized in that the transmission element consists of two overlapping and spaced-apart plates (7), between which the first ends of the force element (5) and the spacer (10) are articulated, and which transmission element is articulated to the body part pivotable about a vertical pivot pin 25 (19), which pivot pin is further fixed to the lower surface of the upper plate (2) of the body part by a fixing portion (23), and a support plate (24) is attached to the lower part of the pivot pin below the transmission member. the weight of the mediator. Lifting device according to one of the preceding claims, characterized in that the geometry, articulation points and lever ratios of the lifting mechanism are selected so that the entire lifting mechanism can accommodate the upper plate (2) and the end plates (3) and side plates (4). -35 to give space. 10 8291 0