FRAME, MORE PARTICULARLY IN THE FORM OF A TRIPOD

Abstract

To create a stable and safe frame, more particularly in the form of a tripod, having a plurality of rod-like legs (2), which are fastened centrally to a connection part (3), wherein the frame (1) can be folded up into a space-saving transportation position, in which the legs are oriented substantially in parallel, and the frame can be folded out into a usage position, in which the legs are crossed, the invention proposes that at least one concavely rounded support surface (5) for providing support over an area of the leg surface is arranged between the legs (2), more particularly that two support surfaces (5, 5′) of this type are provided, which in the usage position are in contact with an area of the respective leg surface opposite one another.

Claims

1. Frame, in particular in the form of a tripod, having a plurality of rod-like legs which are fastened centrally to a connection part, wherein the frame can be folded into a space-saving transport position in which the legs are aligned largely parallel, and the frame can be unfolded into a usage position in which the legs are aligned in a crossed manner, characterized in that at least one concavely rounded support surface is arranged between the legs for providing surface support of the leg surface, in particular two such support surfaces are provided, which in the usage position are in surface contact with the respective leg surface opposite one another.

2. Frame according to claim 1, characterized in that the support surfaces is are each formed on the connection part.

3. Frame according to claim 1, characterized in that the support surfaces is are each formed on the legs.

4. Frame according to claim 1, characterized in that the support surfaces adjoin one another.

5. Frame according to claim 1, characterized in that between the support surfaces is arranged in each case a pin, which is preferably radially aligned.

6. Frame according to claim 1, characterized in that several tubular legs, in particular made of light metal, are arranged on the connection part.

7. Frame according to claim 1, characterized in that the legs are stiffened in the region of the connection part, in particular with a metal insert, a bushing or an intermediate piece.

8. Frame according to claim 1, characterized in that screw bolts can be screwed into the legs from the outside, in particular with a flat head in a largely flush arrangement.

9. Frame according to claim 8, characterized in that a spring, in particular a disk spring, is arranged on the screw bolt.

10. Frame according to claim 1, characterized in that the connection part is formed as a metal casting.

11. Frame according to claim 1, characterized in that a grill bowl or fire bowl can be inserted in the upper part above the connection part, or a seating surface or table surface or a tub, in particular a plant tub or a beverage-cooling tub, or a light, in particular a light sphere, is arranged in the upper part.

12. Frame according to claim 1, characterized in that between the support surfaces and a bearing surface a latching lug is formed, which is preferably shaped like a gusset or is aligned in each case parallel to the legs in transport position or in each case parallel to the legs in usage position.

13. Frame according to claim 1, characterized in that the legs are designed in multipart form, in particular can be extended with quick or screw connections.

14. Frame according to claim 1, characterized in that the leg surface has different compressive strength, in particular is designed to be more compliant towards the center of the connection part.

15. A tripod frame assembly for supporting an article in an elevated condition, said assembly comprising: first and second and third legs, each of the first and second and third legs being of an elongated cylindrical construction and extending between opposite ends, each of the first and second and third legs having a generally equal length, a connection part pivotally attached to each of the first and second and third legs generally centrally along the respective lengths thereof, the connection part configured to enable articulating movement of each leg between a space-saving transport position in which the first and second and third legs are aligned largely parallel and a usage position in which the first and second and third legs are splayed in a crossed manner with the respective ends thereof spread apart, the connection part including at least two concavely rounded support surfaces, each support surface being associated with a respective one of the legs, the at least two concavely rounded support surfaces arranged to provide surface support for the associated leg in the usage position.

16. The frame of claim 15 wherein each leg is a hollow tubular member, further including a stiffening insert disposed inside each of the first and second and third legs, each stiffening member traversing the connection part to reinforce the central region of the respective leg directly adjacent the connection part.

17. The frame of claim 15 wherein each concavely rounded support surfaces includes a latching lug, each latching lug being aligned parallel to its associated leg in either the transport position or the usage position.

18. The frame of claim 15 wherein the connection part includes three circumferentially spaced pins, each pin pivotally joining the connection part to a respective leg, a fastener interacting with each pin to secure the associated leg thereto, and a biasing element operatively disposed between each fastener and the respective pin.

19. The frame of claim 15 further including an article supported in the splayed ends of the legs configured in the usage position, the article selected from the group consisting essentially of: a grill bowl, a fire bowl, a seating surface, a table surface, a plant tub, a beverage-cooling tub, and a light sphere.

20. A tripod frame assembly for supporting an article in an elevated condition, said assembly comprising: first and second and third legs, each of the first and second and third legs being of an elongated cylindrical construction and extending between opposite ends, each of the first and second and third legs having a generally equal length, a connection part pivotally attached to each of the first and second and third legs generally centrally along the respective lengths thereof, the connection part configured to enable articulating movement of each leg between a space-saving transport position in which the first and second and third legs are aligned largely parallel and a usage position in which the first and second and third legs are splayed in a crossed manner with the respective ends thereof spread apart, the connection part including at least two concavely rounded support surfaces, each support surface being associated with a respective one of the first and second and third legs, the at least two concavely rounded support surfaces arranged to provide surface support for the associated leg in the usage position, each concavely rounded support surfaces including a gusset-shaped latching lug, each latching lug being aligned parallel to its associated leg in either the transport position or the usage position, the connection part including three circumferentially spaced pins, each pin pivotally joining the connection part to a respective leg, a fastener interacting with each pin to secure the associated leg thereto, a biasing element operatively disposed between each fastener and the respective pin.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0010] These and other features and advantages of the present invention will become more readily appreciated when considered in connection with the following detailed description and appended drawings, wherein:

[0011] FIG. 1 a frame in the form of a tripod in three views (FIGS. 1a, 1b and 1c);

[0012] FIG. 2 a top view of the frame in transport position (according to FIG. 1b);

[0013] FIG. 3 a perspective view of the central connection part;

[0014] FIG. 4 a similar view as FIG. 3, with one leg omitted;

[0015] FIG. 5 a cross-sectional view of a leg with a screw connection;

[0016] FIG. 6 two modified versions of latching lugs on the connection part;

[0017] FIG. 7 an annular connection part (second configuration); and

[0018] FIG. 8 a frame constructed therewith, wherein one leg is omitted for a detailed view.

DETAILED DESCRIPTION OF THE INVENTION

[0019] FIG. 1 shows a frame 1 in the form of a tripod, which here has three rod-shaped legs 2 that are fastened centrally to a connection part 3. In FIG. 1a, the frame 1 is unfolded in a usage position in which the legs 2 are aligned in a crossed manner with respect to each other in the direction of space, e.g. to accommodate a fire bowl 1a (see FIG. 1c) in the upper region. In this case, the fire bowl 1a (or a similar device, such as a light or a tub for cooling beverages drinks, etc.) may also be pivoted as required. In FIG. 1b, the frame 1 is shown in its space-saving transport position, wherein the three legs 2 are folded in a largely parallel alignment for being stacked in a compact manner, if necessary. Two end surfaces of the legs 2 are here provided with reference signs 2b to suggest quick or screw connections at which the legs 2 can be extended if necessary, for example to increase the standing height. Thus, the fire bowl may be arranged elevated according to FIG. 1c. However, the quick or screw connection 2b may also be arranged closer to the connection part 3, as indicated in dashed lines in FIG. 1c. This allows the legs 2 to be shortened, particularly in the transport position according to FIG. 1b, so as to take up smaller packing dimensions. The partial legs 2 can also be made of wooden rods or plastic tubes, while the central area is generally made of metal for stability reasons.

[0020] As shown in FIG. 2, two concavely curved support surfaces 5, 5′ are provided on the connection part 3 and/or the (three) legs 2, respectively, against which the outer surface of the legs 2 can alternately nestle in the usage position, whereby the surface pressure at these contact surfaces is substantially reduced and thus the frame 1 is highly loadable. In the transport position shown here, i.e. with a top view according to FIG. 1b of the upper side of the connection part 3, the (convex) outer surfaces of the tubular legs 2 rest in a similarly shaped, concave bearing surface 5a and are thus positioned. During the transition to the usage position (cf. FIG. 3), the surfaces of the legs 2 are twisted over slight elevations in the form of latching lugs 5b in order to then rest against the concave support surfaces 5, 5′ and thus be anchored in a form-fit manner. For clarification purposes, a distinction is made here between the upper support surfaces 5 and the lower support surfaces 5′, which are arranged correspondingly for each leg 2.

[0021] As shown in FIG. 3, crossing into the usage position is performed by rotating the legs 2, here around radially aligned pins 4, which are respectively arranged between the rounded support surfaces 5 and 5′, preferably adjacent to said latching lugs 5b (cf. also FIG. 6). The legs 2 (here the front leg is omitted for better illustration of pin 4) are preferably made of light metal tubes, as shown slightly shaded. To increase the stability of the frame 1, the tubular legs 2 can be stiffened in the region of the connection part 3, in particular with a metal insert 2a or a bushing (see FIG. 5). Bolts 4a (see also FIG. 1a) with a flat head 4b can be screwed into this pin 4 from the outside to ensure a flush, secure fastening in a countersunk manner. The connection part 3 is preferably manufactured as a metal casting, in particular together with radially aligned pins 4 or similar connecting elements, as shown in FIG. 4 in a slightly different perspective.

[0022] FIG. 4 also shows the transition between the respective concave roundings, as well as the latching lug 5b located in between, which is formed here in a gusset-like manner in order to form a “positioning stop” for the tube surface resting there in the usage position (FIG. 1a), but also in the transport position (FIG. 1b), respectively. Thus, an exact positioning for the legs 2 and precisely fitting contact either at the bearing surface 5a or in the (upper) support surface 5 is achieved, depending on the desired position (according to FIG. 1a or FIG. 1b). In the usage position, however, the rod or leg surface contacts not only the support surface 5 which is on top here, but also the lower support surface 5′ which is arranged rotationally symmetrical to the axis of the pin 4. This significantly reduces the surface pressure and increases the load-bearing capacity.

[0023] In other words, when viewed in the axial direction to the pin 4, the upper support surface 5 extends analogously to a dial in the region from about 0 o'clock to 3 o'clock and the lower support surface 5′ extends from about 6 o'clock to 9 o'clock. As can be seen from the leg 2 fastened with a flat head 4b, the leg surface nestles perfectly to the correspondingly rounded support surface 5′. It should be noted that despite the relatively low material thickness of the connection part 3 between the two support surfaces 5 and 5′, a high stability is given, since the support forces at this location (directed largely downwards at the support surface 5 and directed upwards at the support surface 5′) practically cancel each other out.

[0024] FIG. 5 shows a cross-section through a tubular leg 2 at the height of the connection part 3, wherein the sectional surface appears elliptical due to the inclined alignment of the leg (corresponding to FIG. 1a). It should be noted that the leg cross-section is not restricted to a cylindrical shape, but may also be elliptical or polygon, for example, in which case the shaping of the support surfaces 5, 5′ is adapted accordingly. For axially somewhat compliant fastening, a spring 4c (in particular a disk spring) is arranged here between the pin 4 and the screw bolt 4a, so that the outer surface of the leg 2 slides more smoothly over the latching lug 5b during the transition between the bearing surface 5a and the support surface 5 (or vice versa). This may also be solved by a segment-like metal insert 2a, so that some tube deformation occurs. Similarly, the material cross-section could be weakened towards the latching lug, e.g. by a ground flattening which does not affect the bending strength of the leg 2 and the surface nestling (contact) with the support surfaces 5, 5′. Although the concave support surfaces 5, 5′ are each shown here on the connection part 3 to interact with the convex outer surface of the respective leg 2, the support surfaces can—in kinematic reversal—also be formed on the legs 2 respectively, wherein the correspondingly adapted convex shape would then be formed on the connection part 3.

[0025] In FIG. 6, two alternatives to the above described gusset shape of the latching lug 5b between the support surfaces 5 and 5a are shown. In the upper illustration, the latching lug 5b is aligned parallel to the legs 3 in transport position (cf. FIG. 1b) in each case, while in the lower part of the drawing, the alignment is designed parallel to the legs 3 in usage position (FIG. 1a or 1c).

[0026] In the above, first configuration according to FIGS. 1 to 6, the central connection part 3 is designed to be open radially outwards so that the legs 2 can be mounted particularly easily, i.e. they do not have to be threaded in as with rings. In addition, this open design offers an attractive appearance (cf. FIGS. 1a-1c), since the central connection part 3 is hardly visible. In addition, the open, star-shaped design offers significant advantages in manufacturing compared with a ring shape. For example, the support surfaces 5, 5′ can be machined with high precision on a CNC milling center, in particular together with the pin 4 in one operation. Grinding heads with radial infeed (feed from the outside) can also be used to manufacture the support surfaces 5, 5′ with high precision in the sense of an optimized contact (“nestling”) and thus low surface pressure, which is hardly possible with ring shapes with poor accessibility.

[0027] However, a ring shape has particular stability, so that here in FIG. 7 the connection part 3 is shown as a second configuration as a closed ring in which—in a tripod—three passages are provided. These each have the (upper) support surface 5 and also rounded (lower) support surface 5′, which can be seen here at the left passage. As mentioned above, the support surface 5 is located in the first quadrant and the support surface 5′ in the third quadrant of an imaginary dial or coordinate cross when viewed along the arrow 4a (for the screw-in direction of a grub screw sufficient here for prefixing the respective leg).

[0028] FIG. 8 shows a frame constructed in this way, wherein one leg is omitted to illustrate the arrangement of the two support surfaces 5 and 5′ in the above manner. The apparent “nestling” of the leg surface on the two quasi-opposite support surfaces 5 and 5′ results in a particularly high load-bearing capacity of the frame 1 thus formed. As mentioned, however, the manufacture of the support surfaces 5, 5′ is more complex here, since machining is hardly possible in a single clamping operation (as in the open design according to FIGS. 1 to 6). In addition, the material consumption in the second configuration (FIGS. 7 and 8) is considerably higher and thus also the weight. Especially in camping applications, the higher mass may be a disadvantage, as well as the more complicated assembly compared to the star-shaped design according to FIGS. 1 to 6.

[0029] The foregoing invention has been described in accordance with the relevant legal standards, thus the description is exemplary rather than limiting in nature. Variations and modifications to the disclosed embodiment may become apparent to those skilled in the art and fall within the scope of the invention.