RU184151U1 - Movable shear stop - Google Patents

Abstract

The utility model relates to construction, namely to bridge building, and can be used in the construction of bridges, overpasses and overpasses. The movable shear stop is designed to transmit horizontal lateral forces from the action of permanent and temporary loads of the span structure to the bridge support. The transverse horizontal force is transmitted with the possibility of longitudinal displacement of the upper plate relative to the lower one and providing the design angle of rotation in vertical planes.

The bottom plate 3 of the movable shear stop is mounted on the bridge support 1. In the center of the bottom plate 3, a rectangular core 5 is fixed. The core 5 is transversally aligned with two opposite vertical surfaces through antifriction plates 6 fixed in the recess on the core 5 or the recess on the balancer 12 installed on the core 5 by means of, for example, crackers 11, interacts with the mating polished surfaces 8 of the stops 7. The stops cover the core on both sides, are attached to the top plate 9 and have longitudinally size sufficient to transmit the horizontal transverse force N _Poper when longitudinal displacement D2 of the upper plate 9 relative to the lower plate 3. The upper plate 2 is fixed to the span. On the longitudinal axis, for example, on the core 5 or the bottom plate 3, protective elements such as a casing 10 are located, located between the stops 7 and preventing foreign objects from falling onto the polished surfaces 8.

Description

The technical field to which the utility model relates.

The utility model relates to construction, namely bridge building, and can be used in the construction of bridges, overpasses and overpasses of transport infrastructure.

The movable shear stop is designed to transmit horizontal lateral forces from the action of constant and temporary loads of the span structure to the support with the possibility of their mutual longitudinal displacement.

State of the art

Closest to the described device in technical essence is the “Shift emphasis” described in RF Patent No. 180848 (publication date 06/28/2018, IPC class E01D 19/04), which includes the upper and lower base plates mounted respectively on the span structure and support, longitudinal and transverse restrictive bars, core and plates interacting with touch and rotary mobility. In the center of the bottom plate, a rectangular core is fixed, which, along the transverse axis with two opposite vertical surfaces with recesses and with antifriction plates fixed in them, interacts with the mating polished surfaces of the longitudinal bounding plates, covering the core on both sides and attached to the upper plate. Along the longitudinal axis, the rectangular core interacts with its other two vertical polished surfaces with the corresponding flat surfaces of the antifriction plates fixed in the recess on the balancers, which are fixed with crackers on the transverse restrictive plate and contact the rectangular core with their reverse cylindrical surface. Transverse stops are also attached to the upper plate and are located on both sides along the longitudinal axis of the core.

This device allows for the transfer of horizontal forces from the span to the bridge support and free rotation of the support sections.

The disadvantage of this device is the immobility of the elements of the shear stop in the longitudinal direction, when installed on the movable axis of the support of the span structure.

Utility Model Disclosure

The inventive utility model of a movable shear stop is designed to implement a method of placing supporting parts according to the patent of the Russian Federation No. 2533513 "Method of placing supporting parts on spans".

The technical result consists in expanding the functionality of the shear stop, namely, in the possibility of moving the elements of the shear stop in the longitudinal direction.

The specified technical result is achieved by the fact that

the movable shear stop includes the upper and lower support plates mounted respectively on the span and support, stops, core and plates interacting with touch and rotary mobility, a rectangular core is fixed in the center of the lower plate, which is transversal to its two opposite vertical surfaces interacts with anti-friction plates with mating polished surfaces of the stops, covering the core on both sides, and attached to the upper plate, p and the longitudinal size of the stops provides the transmission of horizontal force and the possibility of longitudinal movement and rotations in vertical planes due to the fact that the length of the polished surfaces of the stops exceeds the displacement of the antifriction plate by at least 5 millimeters to each side from its extreme position, while protective elements of the casing type, for example, made of sheet steel in the form of a box located between waiting for the limiters.

The specified technical result is also achieved by the fact that in the vertical surfaces of the core there is a recess in which there is an antifriction plate that is attached mechanically (screws, bolts), or in any other available way, including pressing, spraying, etc., while the vertical surfaces of the core are provided, for example, with clamps, with a balancer mounted on them, the balancer itself with one convex cylindrical surface contacts the core, and on its opposite side a recess is located in which the antifriction plate is located, and the polished surfaces are made with a protective layer of chromium with a thickness of at least 100 microns or are made by fastening with a snug fit of a polished stainless sheet, while the core is attached to the bottom plate through a transition force element such as a key, and limiters can be welded directly to the top plate, or made as a unit with the top plate.

The essence of the utility model is illustrated by drawings.

1 shows a movable shear stop.

Figure 2 shows the leader B of the movable shear stop.

Figure 3 shows a movable shear stop with a balancer.

4 shows a leader B of a movable shear stop with a balancer.

Figure 5 shows an arrangement of elements of leader B.

Figure 6 shows an arrangement of elements of leader B.

Utility Model Implementation

The proposed utility model shift the movable abutment (1), which senses a horizontal transverse _Poper N load to the support 1 by means of, for example, foundation bolts, secure the bottom plate 3, which may be of any design and is made in one piece or modular, including with stiffening ribs 13. On the bottom plate 3, a recess is made, which includes the power key 4, and the core 5 is installed on the key 4 with its lower side, also with a recess.

On the vertical surfaces of the core 5, antifriction plates 6 are placed. There are 2 options for the arrangement of the plates 6. The first option is when the antifriction plate 6 is fixed in a recess made directly on the core 5 (Figure 2). The second option is the antifriction plate 6 is fixed in the recess on one of the sides of the balancer 12 (Figure 4). The opposite side of the balancer 12 has a convex cylindrical shape in contact with the vertical walls of the core 5. The balancer 12 is fixed on the core 5, for example, crackers 11 and can be rotated through an angle φ, thereby allowing the upper plate 9 to rotate relative to the lower plate 3 in the transverse plane ( Figure 3).

The upper plate 9 is fixed on one flat side using, for example, high-strength bolts, to the span 2, and on the other side, using, for example, screws, limiters 7 are attached on both sides of the core 5 along the transverse axis. The limiters 7 are made integral or welded from two or more parts and attached to the upper plate 9 or performed as a unit with it.

 To transfer the horizontal load from the span through the upper plate 9, on the counter surface of each limiter 7 there is a protrusion - a spike, and at the places of installation of the limiters 7 on the upper plate 9, grooves corresponding to these protrusions are made. The depth of the groove is usually greater than the protrusion of the tenon.

On the stops 7, a polished surface 8 is made, which is in contact with the antifriction plate 6 fixed in the recess on the core 5 or the balancer 12. An alternative arrangement of elements is the opposite arrangement of elements: the polished surface 8 is located on the core 5, and the antifriction plate 6 in the recess on each stop 7 (Figure 5), or in a recess on the balancer 12, mounted with, for example, crackers 11 on each stop 7 (Figure 6).

To protect the sliding surfaces 8 from damage and foreign objects falling on them along the longitudinal axis, a casing 10 is installed on the core 5. The casing 10 is made of sheet steel in the form of a box and is located between the stops 7. The size of the walls of the casing 10 is made so that when moving the top plate 9 on the estimated value of D2 the working area of polished surfaces 8 was closed.

The horizontal transverse load N _Poper from the span 2 by bolting is transferred to the upper plate 9. Further, through the connection of the upper plate 9 and the limiter 7, the load by firmly touch the polished surface of one of the limiters 7 antifriction plate 6 is fixed in the recess of the core 5 or on the balancer 12, through the balancer itself, it is transmitted to the core 5. Next, the load through the vertical surfaces of the core 5 and the power key 4 installed in the bottom plate 3 is transferred to the at the plate 3, and further, by, for example, fixing with foundation bolts to the support 1.

The longitudinal movement of the span displaces the upper plate 2 fixed on it relative to the lower plate 3 and the core 5, while due to the longer length of the stops 7, the horizontal lateral load is transmitted over the entire range of calculated longitudinal displacements.

The polished surfaces 8 on the stops 7 allow vertical and longitudinal movements of the span structure, as well as rotations in vertical planes due to the sliding of the antifriction plates 6. The length of the polished surfaces 8 of the stops 7 exceeds the displacement of the antifriction plate 6 by at least 5 millimeters to each side from its extreme position.

The gap B1 (figure 2) between the surfaces in the slip zone allows the span to perform the required reciprocating movement and rotation in a vertical plane along the longitudinal axis. At the same time, displacement by the value D1 and rotation occur during vertical displacement (deflection) of the span within the guaranteed clearance, which is ensured by the vertical dimensions of the comprehensively movable support parts. The movement by the value of D2 is caused mainly by the temperature effect on the span material 1 and the associated linear expansion or contraction, as well as a variable vertical load.

Claims (3)

1. A movable shear stop, which includes the upper and lower base plates fixed respectively to the span and support, stops, core and plates interacting with touch and rotary mobility, in the center of the bottom plate there is a rectangular core, which has two of its own along the transverse axis opposite vertical surfaces with antifriction plates interacts with mating polished surfaces of limiters, covering the core on both sides and attached to the upper plates e, characterized in that the longitudinal size of the limiters provides the transmission of horizontal force and the possibility of longitudinal movement and rotations in vertical planes due to the fact that the length of the polished surfaces of the limiters exceeds the displacement of the antifriction plate by at least 5 mm to each side from its extreme position , while along the longitudinal axis from opposite sides of the core are attached protective elements such as a casing, made, for example, of sheet steel in the form of a box, located between the limiters. 2. The movable shear stop according to claim 1, characterized in that a recess is made along the transverse axis on the vertical surfaces of the core in which the antifriction plate is located. 3. The movable shear stop according to claim 1, characterized in that the transverse axis of the vertical surface of the core are provided with clamps with a balancer mounted on them, in contact with the core with one convex cylindrical surface, and a recess is made on the surface opposite the convex antifriction plate.

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