RU2018121097A

RU2018121097A - BEARING FRAME

Info

Publication number: RU2018121097A
Application number: RU2018121097A
Authority: RU
Inventors: Маркус РУПП
Original assignee: Пери Гмбх
Priority date: 2016-01-22
Filing date: 2016-12-22
Publication date: 2020-02-25
Also published as: US20190040638A1; WO2017125238A1; EP3405627A1; AR107380A1; PE20181483A1; CL2018001655A1; PH12018501358A1; BR112018012896A2; CA3014798A1; RU2018121097A3; ZA201803761B; EP3405627B1; CO2018006449A2; DE102016200868A1

Claims

1. The supporting frame (18) to withstand the allowable compressive load from 100 kN to 1000 kN on each installed on the ground rack (16a-d) of the supporting frame (18), and the supporting frame (18) contains a connector (22), at least two bolts (24a-d) and at least two bolts (26a-h), each of at least two bolts (24a-d) mounted on the connector (22) with the possibility of reversible disconnection using at least one bolt ( 26a-h),

characterized in that

a) said at least two crossbars (24a-d) are made of steel having an upper yield strength of more than 490 MPa, and

b) the height (Rh) of the crossbar, measured perpendicular to the longitudinal axis (42) of the at least two bolts (26a-h) and perpendicular to the longitudinal axis (35) of the at least two crossbars (24a-d), is less than 200 mm.

2. The supporting frame according to claim 1, in which the supporting frame (18) is configured to withstand an allowable compressive load of 200 kN to 600 kN for each support frame (16a-d) mounted on the ground (18).

3. The supporting frame according to claim 1 or 2, wherein said at least two crossbars (24a-d) are made of steel having an upper yield strength of more than 540 MPa and having a cross-section height (Rh) of less than 120 mm.

4. The supporting frame according to one of the preceding paragraphs, in which each of said at least two crossbars (24a-d) has two channel profiles (36a-b), indirectly connected to each other in the central areas of the channel walls (40a-b) profiles (36a-b), and the connector (22) is made in the form of a plate and placed in the areas between the channel profiles (36a-b).

5. The supporting frame according to one of the preceding claims, wherein the connector (22) has a semicircular shape and at least seven connection points (28a-g) for connecting the crossbars (24a-d) to the connector (22), each of which ( 28a-g) of the joint is offset by 30 ° relative to the adjacent place (28a-g) of the joint.

6. The supporting frame according to one of the preceding paragraphs, in which at least part of the crossbars (24a-d) are rolled.

7. The supporting frame according to one of the preceding paragraphs, in which each of at least two bolts (26a-h) has a bolt diameter of more than 20 mm, and each of at least two bolts (24a-d) is mounted on the connector (22) with less than five bolts (26a-h).

8. The supporting frame according to claim 7, in which each of at least two bolts (26a-h) has a bolt diameter of at least 30 mm.

9. The supporting frame according to one of the preceding paragraphs, in which each of at least two bolts (26a-h) is made in the form of a locking bolt.

10. The supporting frame according to claim 9, in which each of at least two bolts (26a-h) is made in the form of a tightening bolt.

11. The supporting frame according to one of paragraphs. 7-10, in which each of at least two crossbars (26a-h) is mounted on the connector (22) with two bolts (26a-h).

12. The supporting frame according to one of the preceding paragraphs, in which the supporting frame (18) has a trellised truss (14) with a plurality of crossbars (24a-d) and a plurality of connectors (22), wherein the height (Fn) of the trellised truss is measured perpendicularly the longitudinal axis (15) of the trellised truss (14) is more than 2200 mm.

13. The supporting frame according to one of the preceding paragraphs, in which the supporting frame (18) is made in the form of a bridge (10).