SPACER DEVICE FOR FORMWORK

Abstract

A spacer device (10) for formwork, comprising a hollow tubular body (2) extending around a longitudinal axis (X-X) is described, said tubular body (2) being configured to house a cross tie rod (7) and comprising: two side tubular portions (2a,2b); each side tubular portion (2a,2b) comprising fastening means at one end; and at the remaining end, a tapered portion (3a,3b) configured to rest on the wall of the formwork; characterised by comprising a ball joint (5a,5b) interposed between each tapered portion (3a,3b) and the respective side tubular portion (2a,2b) to couple each tapered portion (3a,3b) with the respective side tubular portion (2a,2b).

Claims

1. A spacer device (10) for formwork of the type comprising two formwork panels arranged so that they face each other; each panel having an inner wall (20,21) and an outer wall, the inner wall being the one intended to contact the concrete, said device comprising a hollow tubular body (2) extending around a longitudinal axis (X-X), said tubular body (2) being configured to house a cross tie rod (7) and comprising: two side tubular portions (2a,2b); each side tubular portion (2a,2b) comprising fastening means at one end; and at the remaining end, a tapered portion (3a,3b) configured to rest on the inner wall (20,21) of the formwork; characterised by comprising a ball joint (5a,5b) interposed between each tapered portion (3a,3b) and the respective side tubular portion (2a,2b) to couple each tapered portion (3a,3b) with the respective side tubular portion (2a,2b), said ball joint (5a,5b) being integral with a side tubular portion (2a,2b) and being placed in contact with the respective tapered portion (3a,3b).

2. The spacer device (10) for formwork according to claim 1, characterised in that each ball joint (5a,5b) comprises a first curvilinear surface (13) arranged at one end of said side tubular portion (2a,2b) and a second curvilinear surface (14) provided on the tapered portion (3a,3b); said first curvilinear surface (13) having a curvature substantially corresponding to that of said second curvilinear surface (14) so as to rotatably couple said tapered portion (3a,3b) with said side tubular portion (2a,2b).

3. The spacer device (10) for formwork according to claim 1, characterised in that said tubular body (2) comprises a central tubular portion (4); each side tubular portion (2a,2b) being opposite the remaining one with respect to the central tubular portion (4).

4. The spacer device (10) for formwork according to claim 2, characterised in that said tubular body (2) comprises a central tubular portion (4); each side tubular portion (2a,2b) being opposite the remaining one with respect to the central tubular portion (4).

5. The spacer device (10) for formwork according to claim 3, characterised in that said fastening means are shaped to removably couple said side tubular portion (2a,2b) to said central tubular portion (4).

6. The spacer device (10) for formwork according to claim 4, characterised in that said fastening means are shaped to removably couple said side tubular portion (2a,2b) to said central tubular portion (4).

7. The spacer device (10) for formwork according to claim 3, characterised in that said tapered portion (3a,3b) comprises a support base (15) adapted to define a lying plane (α).

8. The pacer device (10) for formwork according to claim 4, characterised in that said tapered portion (3a,3b) comprises a support base (15) adapted to define a lying plane (α).

9. The spacer device (10) for formwork according to claim 7, characterised in that said ball joint (5a,5b) is configured to allow an inclination of said lying plane (α) of less than 45° with respect to a vertical direction.

10. The spacer device (10) for formwork according to claim 1, characterised in that said fastening means comprise a section-reduced portion (17) arranged at one end of said side tubular portion (2a,2b) and a plurality of radially projecting longitudinal ribs (9).

11. The spacer device (10) for formwork according to claim 2, characterised in that said fastening means comprise a section-reduced portion (17) arranged at one end of said side tubular portion (2a,2b) and a plurality of radially projecting longitudinal ribs (9).

12. The spacer device (10) for formwork according to claim 3, characterised in that said fastening means comprise a section-reduced portion (17) arranged at one end of said side tubular portion (2a,2b) and a plurality of radially projecting longitudinal ribs (9).

13. The spacer device (10) for formwork according to claim 4, characterised in that said fastening means comprise a section-reduced portion (17) arranged at one end of said side tubular portion (2a,2b) and a plurality of radially projecting longitudinal ribs (9).

14. The spacer device (10) for formwork according to claim 10, characterised in that said fastening means comprise longitudinal cuts (11) arranged laterally to said longitudinal ribs (9).

15. The spacer device (10) for formwork according to claim 10, characterised in that said longitudinal rib (9) has a height, measured in a radial direction, which is variable along its extension.

16. The spacer device (10) for formwork according to claim 1, characterised in that said side tubular portions (2a,2b) have substantially equal extension along said longitudinal axis (X-X).

17. The spacer device (10) for formwork according to claim 2, characterised in that said side tubular portions (2a,2b) have substantially equal extension along said longitudinal axis (X-X).

18. The spacer device (10) for formwork according to claim 3, characterised in that said side tubular portions (2a,2b) have substantially equal extension along said longitudinal axis (X-X).

19. The spacer device (10) for formwork according to claim 1, characterised in that each tapered portion (3a,3b) is arranged downstream of said ball joint (5a,5b) while each side tubular portion (2a,2b) is arranged upstream of said ball joint (5a,5b).

20. The spacer device (10) for formwork according to claim 2, characterised in that each tapered portion (3a,3b) is arranged downstream of said ball joint (5a,5b) while each side tubular portion (2a,2b) is arranged upstream of said ball joint (5a,5b).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] Such description will be set forth hereinafter with reference to the appended drawings, provided for indicative, and therefore non-limiting, purpose only, wherein:

[0029] FIG. 1 shows a schematic side view of a spacer device for formwork according to the present invention;

[0030] FIG. 2 shows a schematic sectional view of a side tubular portion of the spacer device for formwork of FIG. 1; and

[0031] FIG. 3 shows a schematic exploded view of the spacer device for formwork of FIG. 1.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

[0032] With reference to the figures, a spacer device for formwork according to the present invention is denoted by the reference numeral 10.

[0033] The spacer device for formwork 10 of the type comprises two formwork panels arranged so that they face each other; each panel having an inner wall and an outer wall, the inner wall being the one intended to contact the concrete. The spacer device comprises a hollow tubular body 2 extending around a longitudinal axis X-X. The hollow tubular body 2 is shaped to house a cross tie rod 7 transverse to the formwork.

[0034] The hollow tubular body 2 comprises at least two side tubular portions 2a,2b and two tapered portions 3a and 3b.

[0035] Each tapered portion 3a,3b is arranged at one end of a side tubular portion 2a,2b.

[0036] The tapered portions 3a and 3b provide a supporting surface for the formwork panel 6 so that the tie rod 7 is correctly supported inside the spacer device 10.

[0037] In greater detail, the tapered portions 3a and 3b are equipped with a supporting surface for the formwork panel 6.

[0038] In fact, a correct traction of the tie rod 7 results in a good stability during formwork assembly.

[0039] The device 10 according to the present invention is configured to rest on the inner walls 20,21 of the formwork and to distance them, while the anchoring thereof is mainly assigned to other devices known to the person skilled in the art, in particular in the specific case to the tie rods 7.

[0040] Each side tubular portion 2a,2b extends along the longitudinal extension axis X-X.

[0041] Preferably, each side tubular portion 2a,2b extends along its own extension axis coinciding with the spacer device 10 assembled with the longitudinal axis X-X, for a length greater than 7 cm, preferably for a length greater than 10 cm.

[0042] Each side tubular portion 2a,2b extends along its extension axis for a length of less than 20 cm, preferably less than 15 cm.

[0043] Preferably, each cylindrical portion 2a,2b has the same extension along the longitudinal extension axis X-X.

[0044] Preferably, each side tubular portion 2a,2b is tapered in the direction opposite its tapered portion 3a,3b.

[0045] In particular, each side tubular portion 2a,2b has a slight tapering in the direction opposite its tapered portion 3a,3b.

[0046] At its free end, each side tubular portion 2a,2b has fastening means 8 configured to couple it to a central tubular portion 4 so as to form a single tubular element 2 extending between the two conical portions 3a,3b.

[0047] The fastening means 8 enable the removable coupling of each side tubular portion 2a,2b to the central tubular portion 4 and, for this purpose, comprise a reduced section portion 17 of the end of each side tubular portion 2a,2b and of the longitudinal ribs 9.

[0048] The longitudinal ribs 9 are radially projecting and configured to engage elastically the inner surface of the central tubular portion 4.

[0049] The longitudinal ribs 9 are arranged angularly spaced along the circumference of the side tubular portion 2a,2b.

[0050] Each longitudinal rib 9 has a height measured in radial direction, which varies along its extension.

[0051] In order to provide greater elasticity, each longitudinal rib 9 has two longitudinal cuts 11 of equal extension and arranged laterally on the reduced section portion 17 of the side tubular portion 2a,2b. The longitudinal cuts 11 are circumferentially opposite with respect to the same longitudinal rib.

[0052] Each longitudinal rib 9 extends for at least 1 cm along the axis X-X. Advantageously, each longitudinal rib 9 extends for at least 2 cm along the axis X-X.

[0053] At the remaining end, each side tubular portion 2a,2b comprises a tapered portion 3a,3b configured to rest on the inner wall 20, 21 of the formwork.

[0054] Each tapered portion 3a,3b is tapered away from the wall of the formwork and comprises a support base 15 adapted to define a lying plane α.

[0055] According to a particularly advantageous aspect of the present invention, the spacer device 10 for formwork comprises two ball joints 5a,5b, each interposed between a tapered portion 3a,3b and the respective side tubular portion 2a,2b so as to couple each tapered portion 3a,3b with the respective side tubular portion 2a,2b.

[0056] Each ball joint 5a,5b is integral with a side tubular portion 2a,2b and is placed in contact with the respective tapered portion 3a,3b.

[0057] In the embodiment shown in the figures, each ball joint 5a,5b is made of a single piece with a side tubular portion 2a,2b.

[0058] Each tapered portion 3a,3b is arranged downstream of each ball joint 5a,5b while each side tubular portion 2a,2b is arranged upstream of the respective ball joint 5a,5b with respect to the longitudinal extension axis X-X.

[0059] As better shown in FIGS. 2 and 3, each ball joint 5a,5b comprises a first curvilinear surface 13 arranged at one end of the side tubular portion 2a,2b and a second curvilinear surface 14 provided on the tapered portion 3a,3b.

[0060] The first curvilinear surface 13 has a curvature substantially corresponding to that of the second curvilinear surface 14 so as to rotatably couple the tapered portion 3a,3b to the respective side tubular portion 2a,2b.

[0061] In detail, the tapered portion 3a,3b can take, with respect to the respective side tubular portion 2a,2b and thanks to the ball joint 5a,5b, a series of positions given by the combination of the rotation of the tapered portion around the axis X-X and by the inclination of the lying plane α defined by the support base 15 with respect to a vertical direction.

[0062] The support base 15 is the part of the tapered portion that is configured to rest on the inner wall 20,21 of the formwork.

[0063] In particular, the ball joint 5a,5b is configured to allow an inclination of the lying plane α of less than 45° with respect to a vertical direction.

[0064] Preferably, the ball joint 5a,5b is configured to allow an inclination of the lying plane α of less than or equal to 30° with respect to a vertical direction.

[0065] The Applicant considers that a greater inclination of the lying plane α with respect to a vertical direction would lead to problems when inserting the cross tie rod 7.

[0066] The central tubular portion 4 is hollow and its recess, with the spacer device 10 assembled, is in communication with the recesses of the side tubular portions 2a,2b to house the cross tie rod 7 therein.

[0067] The function of the spacer device 10 for formwork is, in fact, to protect the cross tie rod 7 during the setting of the concrete, thus preventing the latter from adhering to the cross tie rod 7.

[0068] Once the concrete has hardened, said cross tie rod 7 must be extracted.

[0069] The central tubular element 4 extends along its extension axis coinciding, with the spacer device 10 assembled, with the longitudinal axis X-X for a length greater than 7 cm, preferably for a length greater than 10 cm.

[0070] This spacer device 10 for formwork, as it is clear from the above description, has the following advantages: [0071] it allows its tapered portions to remain adherent to the inner walls of the formwork even in case of slight misalignments and/or mutual inclinations of the same walls; [0072] it is at least partially reusable by being able to extract the lateral tubular portions after the concrete has dried; the latter can, in fact, be reused for subsequent laying, while the central tubular portion remains drowned in the concrete; [0073] low and competitive cost; [0074] simplicity of construction combined with high reliability.

[0075] Several changes can be made to the embodiments described in detail, all anyhow remaining within the protection scope of the invention, defined by the following claims.