DE3219636A1 - TENSION FRAME FOR SHEET PANELS - Google Patents

Abstract

1. A bracing frame for shoring plates (1 and 2) supporting the walls of a trench comprising at least two superposed braces (5 and 6) which are pivoted at both ends about level pivot pins (10) in vertical abutment posts (3 and 4) supporting the shoring plates and are held by means of springs (15) so as to be generally at a right angle to the abutment posts, characterized in that support faces (11 and 11') which are curved parallel to the pivot pins (10) or are inclined, are present at the ends of the braces (5 and 6), and on the abutment posts (3 or 4) abutment faces (12 and 12') are present which correspond to the support faces (11 and 11'), said abutment faces (12 and 12') forming with the support faces (11 and 11') at least two spring sockets (13, 13' and 14, 14') at each brace end, such sockets having a cross section which tapers in the plane of the pivoting of the braces (5 and 6) in both directions of pivoting and in each spring socket (13, 13' and 14, 14') a roller-like elastomeric spring member (15) is inserted with a pretensioning effect as a spring.

Description

State of the art

The invention is based on a tensioning frame for shoring panels according to the preamble of the patent claim 1. Such a tensioning frame is known from DE-PS 22 57 881. The struts are on this tenter frame on both sides between the walls of cross-sectionally U-shaped abutment posts about horizontal pivot axes pivoted and by means of relatively stiff leaf springs at right angles to the abutment posts and held the shoring panels. The arrangement is made so that the spreaders are at relatively small angles, e.g. 5 ° around its pivot axis in the abutment post

^ 5 are pivotable so that the two shoring panels of a shoring unit can be moved vertically by a certain amount independently of the other shoring panel. The known clamping frame has that leaf springs change disadvantage in a row dirt, corrosion and oxidation ^ their spring characteristic strong. Furthermore, the assembly of the known clamping frame is so complex that special tools and specialists are required to replace the springs. Finally, the known clamping frame has the disadvantage that the leaf springs re ^

are relatively difficult if they are increased with an increasing swivel angle should have a sharply increasing stiffness.

Task:

The invention specified in claim 1 is based on the object of providing the resilient support of the spreaders to improve in the abutment post so that soiling, corrosion and oxidation are only minimal Influence on the spring characteristics and that despite progressive and high spring stiffness the weight of the resilient support as well as their material and assembly

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wall are low.

This problem is solved by the features of the claim.

Effect :

When swiveling the spreaders mounted in the VJiderlagerpfosten roll between the arched Support surfaces and the abutment surfaces clamped roller-shaped, rubber-elastic spring body on the surfaces moving relative to one another and are thereby in the areas that are narrowing in cross-section the spring chambers forced. The progressiveness of the spring stiffness is essentially just that Depending on the angle with which the spring space becomes narrower in the pivoting direction. The larger this angle, the more the spring stiffness increases more. The spring body made of natural or synthetic rubber is light Adaptable to the respective requirements because the load capacity increases with the length of the cylindrical spring body increases. By means of stops it can be achieved that the spring body is protected against destruction or overload is.

Further embodiment of the invention. Advantageous further developments of the invention are shown in the subclaims described. With the feature of claim 2 it is achieved that the spring body not only Allow pivoting movements of the spreaders relative to the abutment post about the horizontal pivot axis, but also small swivel movements around a vertical axis as well as movements in the axial direction of the spreaders.

In the following description, several exemplary embodiments of the invention are described with reference to FIGS Drawings explained next. The drawings show in

1 shows a side view of a clamping frame supporting a shoring panel according to the invention,

2 shows an enlarged illustration of the mounting and suspension of a spreader according to FIG. 1,

3 shows a representation corresponding to FIG. 2 of a second embodiment of the invention, Fig. 4 is a front view and

Fig. 5 is a plan view of the device according to Fig. In Fig. 1 is a shoring device is shown with two parallel shoring panels 1 and 2, which via elaan from vertical abutment posts 3 and 4 and two superimposed spreaders 5 and 6 composing clamping frames at a distance are held. In the exemplary embodiment shown, the shoring panels 1, 2 are connected to one another to form a unit via the tensioning frames 3, 4, 5, 6. The shoring panels 1, 2 can also be guided vertically in the abutment post of the clamping frame, so that the shoring panels 1 and 2 and the clamping frame are only joined together to form a shoring device in the trench to be supported.

The ends of the spreaders 5 and 6 are designed as threaded sleeves 7 in the exemplary embodiment shown here. Threaded spindles 8, which are connected to one another via couplings 9, are guided in these. the The threads of the two threaded spindles 8 and of the two threaded sleeves 8 of a spreader 5 or 6 are in opposite directions. The spreaders 5 and 6 are pivotable on both sides via pivot axes 10 in the abutment posts 3, 4, their cross-sections Are U-shaped, stored. So that the shoring panels 1 and 2 and the clamping frame form a stable unit can form, acting as a spring, roller-shaped, rubber-elastic spring body 15 are provided, which endeavors are to keep the spreaders 5.6 in a horizontal position. So, for example, the left abutment post 3 regardless of the right abutment post 4 after

"Can be dragged up or printed down, are

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3219836

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^ the spreading 5.6 around the pivot axes 10 against the effect the spring body 15 is pivotable.

When the spreader 5 is pivoted about the axis 10 from its right-angled position to the abutment post 3 As FIG. 2 shows in particular, the roller-shaped spring bodies 15 roll on one with the spreader 5 connected support surface 11 and one with the abutment post 3 connected abutment surface 12 and are while in the narrowing areas of their feather chamber

ή 0 buttons 13 and 14 pressed.

The pivot axis 10 of the spreading ^r ? is mounted in elongated holes 16 which extend horizontally and are incorporated in side walls 20,21 of a housing which can be inserted and fastened in the abutment post 3 or 4.

The support surface 11 at the front ends of the spreader 5 or 6 is curved parallel to the pivot axis 10 and symmetrically to the longitudinal axis of the spreader 5 or 6 with a radius, which corresponds approximately to twice the distance between the pivot axis 10 and the support surface 11. With this support surface 11 corresponding abutment surface 12 has a vertical plane approximately in the Middle of the spring chambers 13,14 with a rounding 17, the approximately the diameter of the cylindrical spring body 15 corresponds, merges into a roof surface 18 and a floor surface. The roof surface 18 and the floor surface 19 form an angle of 90 to 100 ° between them and the vertical plane. The support surface 11 is of formed two commercially available angle profiles whose long

■ * "ge legs, forming the vertical plane, welded together are.

The support surface 11 can also be curved with a radius which corresponds approximately to the distance between the support surface 11 and the pivot axis 10. The roof area 18 and

the bottom surface 19 are inclined at such an angle,

that the cross-sectional constriction of the spring chamber is 13.14 in both pivot directions is approximately the same.

In the embodiment according to FIGS. 3 to 5 is the support surface 11 'by two parallel, symmetrical to Longitudinal axis of the spreader 5, 6 offset axes are arched and the abutment surface 12 'interacting therewith sets consists of four sub-areas, two of which are at an angle of 95 ° to each other, and one Curvature of the support surface 11 'are assigned. The four partial surfaces of the abutment surface 12 'are of the inner "' sides of two commercially available angle profiles welded to one another with their long legs and so arranged to the two curvatures of the support surface 11 'that the cross-sectional constriction of the spring chambers

Ί5 13 ', 14' is approximately the same in both pivoting directions.

The two inner, ridge-like abutting partial surfaces form with their towards the pivot axis 10 protruding part a stop 24 against which the two bulges of the support surface 11 'abut when the maximum permissible pivot angle is reached. The two curvatures of the support surface 11 'are of a corresponding one formed sheet steel wall 26 formed, which is welded to one on the end face of the spreader 5.6 Base plate 27 is welded on.

As FIGS. 4 and 5 show, form the side walls

20 and 21 together with the profiles to form the abutment surfaces 11 and 11 'a head flange 22, a bottom flange 23 and a rear wall 25, an inherently rigid housing between two horizontal webs

f screwed into the abutment post 3, 4 or otherwise can be attached.

The restoring force of the spring body 15 is all the greater, the greater the radius of the curvature of the support surface 11s is or the greater the distance between the two axes of curvature

the support surface 11 '.

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- ΟΙ List of reference symbols

1 shoring plate

2 shoring plate

3 abutment posts

4 abutment posts

5 spreader

6 spreader

„7 threaded sleeve i-10 -: 8 threaded spindle =; "9 clutch

10 pivot axis 11,11 'support surface 12,12' abutment surface 13.13 'spring chamber 14.14 'spring chamber

15 cylindrical spring body

16 elongated hole 17 rounding

18 roof area

19 floor space

20 side wall 21 side wall

22 head flange

23 bottom flange

24 stop

25 back panel

^jG 26 sheet steel wall 27 base plate

Claims (9)

Μ '· f' ι r 4 · I · ■ · · ι · 3213636 PATENT CLAIMS: 1. Clamping frames for shoring panels supporting the walls of a pipe trench, with at least two struts arranged one above the other, which are pivotable on both sides about horizontal pivot axes in vertical abutment posts supporting the shoring panels and are held essentially at right angles to the abutment posts by means of springs,
,, 10? characterized, that on the front ends of the spreaders (5,6) parallel to the pivot axes (10) arched support surfaces (11,11 ") and on the abutment post (3 or 4) with the support surfaces (11,11 ') corresponding abutment surfaces (12,' * * 12 ') are arranged, which together with the support surfaces (11,11') at each spreader end form at least two spring chambers (13,13 ', 14,14'), the cross-sections of which are in the pivot plane of the spreaders (5,6) , wedge-shaped narrowing the pivotal directions in examples .. _r and ( ', 14,14' 13,13) under prestress a wal \. zenförmiger rubber-elastic spring body (15) which is inserted in each spring chamber as Fe [. i, 2. Clamping frame according to claim 1 , characterized in that 25 that the pivot axes (10) of the spreaders (5,6) in right ρ at an angle to the longitudinal axis of the abutment post (3,4) ί; extending elongated holes (16) are stored. 3. Clamping frame according to claim 1 or 2, characterized in that the support surface (11) at the front ends of the spreader (5 or 6) parallel to the pivot axis (10) and symmetrical to the longitudinal axis of the spreader (5 or 6) * is curved with a radius which corresponds to up to 3 times the distance between the pivot axis (10) and the support surface (11) and which corresponds to this support surface (11) Il UM _ Omm ponding abutment surface (12) is a vertical plane which is approximately in the middle of the spring chambers (13,14) with a rounding (17) that. corresponds approximately to the diameter of the cylindrical spring body (15), in a Pass over the roof area (18) and a boaen area (19), which include between them and the vertical plane an angle of 90 to 100 °. 4. Clamping frame according to claim 3, characterized in that ί (j- .: that the abutment surface (12) of two commercially available angle profiles is formed whose long legs, forming the vertical plane, are welded to one another. 5. Clamping frame according to claim 3, characterized / that the support surface (11) is curved with a radius, cjYa'ßer, 'st dU <? * RDistance of the support surface (11) from the pivot axis (10) and the roof surface (18) and the bottom surface (19 ^ inclined at such an angle are that the cross-sectional constriction of the spring chambers (13,14) is the same in both ί .. 6. Clamping frame according to claim 1 or 2, characterized in that the curved support surface (11 ') by two parallel, is curved symmetrically to the longitudinal axis of the spreader (5,6) offset axes and the cooperating therewith Abutment surface (12 ') is composed of four partial surfaces, two of which are at an angle are from 90 to 110 ° to each other and are assigned to a curvature. 7. Clamping frame according to claim 6, characterized in that the four partial surfaces of the abutment surface (12 ') of the insides of two with their long legs welded together Commercially available angle profiles are formed. I t ι ι ( II ttlt 8, clamping frame according to claim 5 or 6, characterized in that the four partial surfaces of the abutment surface (12 ^{) are arranged in relation to the two curvatures of the support surface (H 1} ) that the cross-sectional constriction of the spring cairns (13 ', 14') in both Swivel directions is the same. 9. Tenter frame according to one of claims 1 to 8, characterized in that the profiles or walls for formation the abutment surfaces (11, 11) and side walls (20, 21), in which the pivot axes (10) of the spreaders (5, 6) are mounted, form a rigid unit which can be used in the abutment post (3, 4).