SE511841C2 - Spring lock system for struts etc. - Google Patents

Abstract

Spring lock system for posts, pillars (13) and similar objects which can be subjected to varying loads in at least two opposite directions, and comprising a mounting means (12, 14) for the post (13) and a spring (1) adapted to force the post (13) outwards against an embracing clamp (14) of the mounting means, and in which the spring is arranged loosely and displaceable in the mounting means (12) between an upper stationary nut (10) and a lower vertical support (18) and is arranged for being secured in a clamp position using a pin (11) having a threaded portion (16) adapted to be screwed into the nut (10), and a conical pin portion (17) adapted to cooperate lockingly with a corresponding conical bore (5) of the spring (1). The spring (1) is plane parallel and is formed as an integral part having two integral spring clamps, namely an outer spring clamp (2) and an inner spring clamp (3) presenting a little space (8⇔9) between said spring clamps (2, 3) at non-loaded or only medium loaded spring (1).

Description

15 20 25 30 35 511 841 its attachment, for example in a handle or a sweep next to a timber bench, an attachment beam or the like, that it has the possibility of giving way after some resilience in the direction of the mother load bed, and so that it returns to its normal position as soon as the lateral force against the support ceases. Great demands are placed on the spring part of the fastening system, and the spring must be able to absorb lateral forces of 2-3 tonnes or more for many purposes. A coil spring or a leaf spring cannot normally withstand such large loads, and a coil spring or leaf spring can also be difficult and time-consuming to clamp in so that it presses the support outwards for a non-slip attachment.

The invention has therefore been based on the problem of providing a fastening means with a spring locking system for a post or support, - which provides a resilient attachment of the post or a support, - which allows a resilient action of the support in inward direction towards the load platform without the support being curved. or damaged in another way, - where the spring locking means can be mounted quickly and easily on plastic and for loose attachment of the support, - which spring means can also be detached quickly and easily, - where spring means are capable of withstanding inward forces of several tons, - which spring means can mounted without clamping tools and without the use of large mounting forces, - and which spring means can be quickly and easily detached when the strut is to be detached from the platform.

According to the invention, the spring locking system consists of a spring with a preferably conical, vertically continuous locking hole, in which a similarly conical pin can be inserted and secured so that it holds the spring in place, a nut fixedly mounted in the platform or timber bench, in which the pin can be threaded into engagement with the locking hole of the spring, and a spring which allows a certain limited suspension movement inwards with very large suspension counterforce, and which in fully depressed position provides a fixed stop, and which returns the strut or post to a play-free normal position as soon as the inward force against the support ceased.

In a particular embodiment of the invention, the spring is designed as a substantially Q-shaped double spring bracket with a central bracket for the fastening pin. The spring is plane-parallel, and at its outwardly facing side the spring is flat and intended to abut against a flat side of the strut, (or for use against round struts arcuate with the same rounding as the strut), and furthermore the outwardly facing side of the foot part and the corresponding inwardly facing the side of the spring clip so as to form vertical, cooperating planar surfaces "to form a stop for the spring movement.

Further features and advantages of the invention will become apparent from the following detailed description, in which reference will be made to the accompanying drawings of a treaty embodiment of the spring locking system according to the invention.

In the drawings, figure 1 shows a spring included in the spring locking system according to the invention in an unloaded condition, while figure 2 shows the same spring when the spring is loaded inwards towards the flatbed of the truck. Figure 3 shows the entire spring locking system according to the invention in a vertical section, seen along the line lll-lll in figure 1 and figure 4 shows the same spring locking system seen in vertical section along the line lV-lV in figure 2. Figure 5 schematically shows the function of the spring in the spring locking system in unloaded condition, and Figure 6 similarly shows the function when a strut is loaded with an inward force. Figure 7 shows the spring locking system in its entirety detached from the fastening means in the vehicle for the support.

The spring 1 shown in Figures 1 and 2, which forms part of the spring locking system according to the invention, can be said to constitute a double Q-shaped spring with an outer spring bracket 2, which essentially encloses an inner spring bracket 3, which serves as a foot in the spring. The outer and inner spring brackets 2 and 3 are connected to each other at transition areas 4 located at the inwardly facing part of the outer bracket 2. The inner spring bracket 3 or foot has a central, preferably downwardly tapered cone hole 5 centrally in the foot 3, and from this hole 5 is the inner bracket 3 formed with a slot 6, which divides the inner bracket 3 into its Q-shape.

The said parts of the spring are integrated with each other, whereby it forms a continuous unit, and the spring has flat and parallel upper and lower sides. The spring is designed of spring steel and can be made with the desired strong spring force. For use with timber supports, it may be appropriate to design the spring with a spring force of 2-3 tons, possibly more. The outer bracket 3 has a flat, vertical outside 7 and a corresponding plane, vertical inside 8. Correspondingly, the inner bracket 3 has a flat, vertical outer side 9. The spring is intended to be mounted so that the sides 7, 8 and 9 face the strut.

In the unloaded state, the slot 6 has substantially parallel sides, and the flat, vertical sides 8 and 9 of the outer and inner brackets 2 and 3 facing each other are located at a certain distance from each other. In the fully loaded condition, as shown in Figure 2, the outer bracket 2 with its side 8 has been pressed into abutment against the side 9 of the inner bracket 3 at the same time. At the same time, the inner bracket 3 is also bent slightly resiliently, which leads to the 6 sides of the slot are angled more or less inwards towards each other.

The through hole 5 in the inner bracket 3 can be cylindrical, but in order to enable a certain pressing in and a guide of the spring 1, which is loosely lying in the system, the hole 5 can suitably be designed conically tapered downwards, so that the spring will be displaced to exactly the desired position. when lowering the stationary mountable conical pin in the hole 5. This is most clearly illustrated in Figures 3 and 4, which show the spring locking system according to the invention in its entirety. Figures 3 and 4 show that the spring locking system consists of the spring 1 described above, a stationary nut 10, a pin 1 1, which can be screwed into the "nut 10 and which thereby causes a locking of the spring 1 in the desired position. The spring locking system is shown connected to a timber bank 12, to the end of which a timber support 13 is arranged to be connected, held by a hanger 14 attached to the timber bank.

The nut 10 is fixedly mounted to the top of the timber bank 12, and it is formed with a threaded hole 15. The timber bank has a corresponding through hole or an opening for the passage 11 of the pin 11, which has a threaded part 16 with inner hexagon holes for screwing into the nut hole 15. and a preferably conical pin portion 17 for insertion into the central hole 5 in the spring 1.

As mentioned above, the spring hole 5 and the pin part 17 suitably have a tapered conical shape downwards, so that the spring 1 can be pressed by the action into abutment against the timber support 13 when the pin part 17 is screwed into the nut.

The spring 1 is arranged loose and displaceable inside the timber bank 12, but is held in place in the vertical direction by abutting on top of a vertical support 18 welded between the sides of the timber bank.

The timber strut 13 obtains a stable pressing and clamping against the attack handle 14 by actuating the spring 1, and it is thereby quite sufficient that the strut at the lower edge is fixed in height, which can be done by means of a simple bolt joint 19. The spring 1 thus presses the strut 13, which in the case shown is square, but which could just as well be circular-cylindrical or have another shape, towards the outside of the hook 14 with a force determined partly by the fastening position on the nut 10, partly also by the screw-in length on the pin 17. A suitable tension is obtained thus by screwing in the appropriate depth of the threaded part 16 of the pin 11 in the stationary nut 10. If the support 13 should accidentally be pressed inwards, for example due to careless handling of a timber lift, it has the possibility of resiliently bending. inwards around the attachment point at the bolt joint 19, as indicated by the dashed lines in Figure 4. The spring then yields in the manner shown in Figure 2. As soon as the inward force ceases, the spring 1 pushes the strut 13 back into abutment against the outside of the handle 14. Therefore, neither the strut, the spring, the hook, nor any other part of the device is damaged due to the careless handling and inward pressing of the strut.

The mounting of the spring locking member according to the invention takes place by: - the nut 10 is welded in the desired position against the upper part of the timber bench 12; the vertical support 18 is welded in between the sides of the timber bank 12; the spring 1 is inserted between the nut 10 and the vertical support 18; - the pin 11 is screwed loosely into the nut 10, so that the spring cannot slide out; the support 13 is pushed down into the assault handle 14; the support 13 is screwed with a bolted joint 19 at its lower end; - the pin 11 is screwed in so that the spring 1 presses the support 13 to the desired pressure against the outside of the handle 14.

A loosening of the strut 13 takes place in a simple manner by the pin 1 1 being screwed up slightly out of the nut 10, suitably only so that the spring 1 is loosened but not completely released, the bolt joint 19 at the bottom of the strut is loosened, and the strut 13 can now be easily pulled out, or alternatively let down, through the hanger 14. \ mir 10 15 20 511 841 REFERENCE DESIGNATIONS spring outer spring bracket inner spring bracket, foot transition area hole (i 1) slit (i 1) flat outer surface flat inside flat outside nut 10) threaded part (i 1) pin part (i 1) vertical support bolted joint _.x ... n_x_.x_a_a_n_.x_a_x

Claims (8)

10 15 20 25 30 35 511 841 PATENT REQUIREMENTS Spring locking system for posts, struts (13) and the like which can be subjected to varying loads in at least two different directions, and consisting of a fastening means (12, 14) for the strut (13) and a spring (1) arranged to press the strut (13) outwards against a handle (14) in the fastening means, characterized in - that the spring (1) is loosely mounted and displaceable in the fastening means (12) in a direction substantially perpendicular to the axial direction of the strut (13), - that the spring is arranged to be secured in the clamping position by means of a (16) vertically adjustable pin (11), - which is formed with a threaded part (16), which cooperates with an internally threaded nut (10), which is stationary connected to the fastening member, and in which nut (10) the pin (11) is arranged to be screwed in, - and in that the pin (11) is formed with a conical pin part (17) arranged to cooperate with a vertically continuous, conical hole (5) in the spring (1), wherein a screwing of the pin (11) into the nut (10) and thus an offset insertion of the conical pin part (17) in the conical hole (5) of the spring causes a pressure of the spring (1) against the strut (1 1). Spring locking system according to Claim 1, characterized in that the spring (1) is formed with holes (5) which taper in the downward direction, and in that the holes (5) of the pin (17) of the spring (1) have the same conical shape. Spring locking system according to one of Claims 1 or 2, characterized in that the spring (1) is loosely inserted and displaceable in a horizontal plane between the nut (10) and a vertical support (18) in the fastening means (a timber bench 12). Spring locking system according to one of the preceding claims, characterized in that the spring (1) is formed with two continuous spring brackets, an outer spring bracket (2) and an inner spring bracket (3) which are connected over a transition area (4), and where in the case of unloaded spring there is a small gap (8c> 9) between the spring brackets (2, 3) at the part facing the strut (13) to be clamped. Spring locking system according to claim 4, characterized in that each of the two spring brackets (2, 3) has a shape similar to the letter Q (omega), and in that the continuous, conical holes (5) of the spring (1) are arranged in the inner spring clip (3). 511 841 Spring locking system according to claims 3 and 5, characterized in that the inner spring bracket (3) has a slot (6) extending from the conical hole (5) and in the direction away from the support (13) (= inwards towards the timber bench 12) . Spring locking system according to claim 5, 6 or 7, characterized in that the spring is plane-parallel and is formed with flat, vertical abutment surfaces (7, 8, 9) facing the support (13) to be fastened. Spring locking system according to one of Claims 5 to 7, characterized in that the spring is made of spring steel and is designed to give a pressing force of at least 2-3 tonnes when pressed inwards by the support (13).