RU42831U1 - BRIDGE SUPPORT - Google Patents

Abstract

The utility model relates to bridge construction and can be used to equip the supporting parts of bridge spans. The supporting part of the bridge includes a lower supporting plate with a sliding element fixed in its upper part, lower and upper balancers with counter spherical sliding surfaces, a central axis rigidly fixed in the lower supporting plate and placed in a glass made in the lower part of the lower balancer, and the upper supporting stove. The glass embraces the central axis with a minimum clearance providing only the rotational movement of the lower balancer relative to the lower base plate, the upper base plate is provided with a sliding sheet at the point of abutment against the upper balancer and has longitudinal stop beams in its lower part, on the inner side surface of which there are stainless sheets, at the same time, lateral stops having a spherical surface at the points of contact with the lower balancer and a fluoroplastic sheet per month are pivotally attached to the upper part of the lower balancer s interaction with the stainless steel sheet of support plate, wherein a spherical surface of the lower balancer and the upper horizontal surface of the upper balancer formed recess in which the wheels are arranged fluoroplastic. The sliding element can be made in the form of a fluoroplastic sheet fixed in a recess formed on the upper surface of the lower base plate and interacting with a stainless metal sheet attached to the lower surface of the lower balancer. On the outside of one of the longitudinal thrust beams of the upper base plate, an apron with a measuring ruler is attached, and on

Description

The utility model relates to bridge building and, in particular, to the supporting parts of bridges.

Known is the supporting part of the bridge, including the lower base plate with a sliding element fixed in its upper part, the lower and upper balancers with mating spherical sliding surfaces, a central axis rigidly fixed in the lower base plate and placed in a glass made in the lower part of the lower balancer, and upper base plate / 1 /.

The disadvantages of this supporting part of the bridge include the fact that it is not linearly movable due to the inability to ensure even limited movement of the span along the axis of the bridge.

The utility model is aimed at providing free movement of the span along the bridge and turning its ends in plan to any angle.

To do this, in the proposed supporting part of the bridge, including the lower base plate with a sliding element fixed in its upper part, the lower and upper balancers with counter spherical sliding surfaces, the central axis, rigidly fixed in the lower base plate and placed in a glass made in the lower part of the lower the balancer, and the upper base plate, the cup embraces the central axis with a minimum clearance providing only the rotational movement of the lower balancer relative to the lower base plate, the upper base plate This one is provided with a slip sheet in place

resting on the upper balancer and has in its lower part longitudinal stop beams equipped with stainless steel sheets in the lower part, while lateral stops having a spherical surface at the points of contact with the lower balancer and a fluoroplastic sheet at the points of interaction with the stainless steel are pivotally attached to the upper part of the lower balancer a sheet of the upper base plate, and on the spherical surface of the lower balancer and the upper horizontal surface of the upper balancer, recesses are made in which the fluoroplastic discs are placed .

The sliding element is made in the form of a fluoroplastic sheet fixed in a recess formed on the upper surface of the lower base plate and interacting with a stainless metal sheet attached to the lower surface of the lower balancer.

From the outer part of the longitudinal thrust beams of the upper base plate, aprons with a measuring ruler are attached, and sights are installed in the lower balancer symmetrically to the measuring rulers.

The essence of the utility model is illustrated by drawings.

Figure 1 shows the supporting part, side view (cross section along aa).

Figure 2 shows the supporting part in plan, cross-section along BB and BB.

Figure 3 shows the supporting part, node I.

Figure 4 shows the supporting part, node II.

Figure 5 shows the supporting part, node III.

In Fig.6 shows the supporting part, view G.

The supporting part includes a lower base plate 1, lower 2 and upper 3 balancers with counter spherical sliding surfaces 4 and the upper base plate 5. The central axis b is rigidly fixed in the lower base plate 1 and its upper end is placed in the glass 7, made in the lower part of the lower balancer 2. The glass 7 embraces the central axis 6 with a minimum clearance, providing only

rotational movement of the lower balancer 2 relative to the lower base plate 1. Between the lower base plate 1 and the lower balancer 2 is a sliding element 8 made in the form of fluoroplastic and stainless sheets fixed respectively in the undercut of the lower base plate 1 and on the lower surface of the lower balancer 2. Upper the base plate 5 is provided with a stainless steel slip sheet 9 at the point of abutment on the upper balancer 3 and has in its lower part longitudinal stop beams 10 provided on the inner side surface of the foxes s slip 11 of stainless steel. Side stops 12 are pivotally attached to the upper part of the lower balancer 2, having a spherical surface 13 at the points of contact with the lower balancer 2 and the fluoroplastic sheet 14 at the points of interaction with the stainless steel slip sheet 11.

On the spherical surface of the lower balancer 2 and the upper horizontal surface of the upper balancer 3, recesses are made in which the fluoroplastic disks 15, 16 are placed.

On the outside of one of the longitudinal thrust beams 10, an apron 17 with a measuring ruler 18 is attached. A sighting device 19 is installed on the lower balance beam symmetrically to the measuring ruler 18.

The supporting part operates as follows. The vertical pressing support reaction from the span is transmitted through the upper base plate 5, the sliding sheet 9 and the fluoroplastic disk 16 to the upper balancer 3, which in turn transmits the reaction to the lower balancer 2 through the spherical sliding surfaces 4 and the fluoroplastic disk 15. Rotation in the vertical plane the support node of the superstructure occurs due to the sliding of the upper balancer 3 relative to the lower balancer 2. Horizontal movements of the superstructure are carried out by sliding the upper the base plate 5 on the fluoroplastic disk 16, and the magnitude of the horizontal displacement is controlled using the sight 19 and the measuring line 18. This

the design of the supporting part also allows you to perceive the rotation of the span in plan to any angle due to the free rotation of the lower balancer 2 around the central axis 6.

Source of information taken into account:

1. French patent N2614329, IPC E 01 D 19/04, decl. 04/23/1987, publ. 10/28/1988.

Claims (3)

1. The supporting part of the bridge, including the lower base plate with a sliding element fixed in its upper part, the lower and upper balancers with counter spherical sliding surfaces, the central axis, rigidly fixed in the lower base plate and placed in a glass made in the lower part of the lower balancer, and the upper base plate, characterized in that the glass embraces the central axis with a minimum clearance providing only the rotational movement of the lower balancer relative to the lower base plate, the upper base plate and is provided with a slip sheet at the point of abutment on the upper balancer and has longitudinal stop beams in its lower part, on which there are stainless sheets on the inner side surface, while lateral stops having a spherical surface at the points of contact with the lower balancer are pivotally attached to the upper part of the lower balancer and a fluoroplastic sheet at the points of interaction with the stainless sheet of the upper base plate, moreover, on the spherical surface of the lower balancer and the upper horizontal surface of the upper balancer in Grooves are made in which the fluoroplastic discs are placed. 2. The supporting part of the bridge according to claim 1, characterized in that the sliding element is made in the form of a fluoroplastic sheet fixed in a recess formed on the upper surface of the lower base plate and interacting with a stainless metal sheet attached to the lower surface of the lower balancer. 3. The supporting part according to claim 1, characterized in that from the outer part of one of the longitudinal thrust beams of the upper base plate, an apron with a measuring ruler is attached, and a sight is installed on the lower balancer of a symmetrical measuring ruler.