RU2014381C1 - Groin block - Google Patents

Abstract

FIELD: water engineering. SUBSTANCE: rock mass 1 of T-shaped cross section has groin wall 3 and shelf 2 while projections of rock mass 1 have the form of flexible cylinders 5. End surfaces of side walls of rock masses 11 have holes 7, projection 9 and slot. Base of rock masses 1 is of a toothed shape while groin wall is offset downstream from shelf 2. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to hydraulic engineering, in particular to the elements of beach-forming and wave-extinguishing sea and river structures, and in particular to the bunny block.

 A known construction of buns of marine coastal protection structures with beach-holding blocks of a full profile, which has the following disadvantages: blocks of buns require consumption for sling loops; blocks of buns have smooth, evenly sloping side faces that do not vary along the length of the block, which affects the inefficient operation of the structure due to the low resistance to the incident wave and insufficient retention, for this reason, in the compartments of the buns of beach material; the construction requires an over-flowing expense of the funded material, being a concrete-intensive construction, which increases the cost of construction; the design does not provide for profiling the bottom zone of the blocks, which does not ensure their installation on a natural slope of the surface, while requiring excessive construction costs for related work.

 Another design of the shore protection buna block is known, which contains a concrete array of T-shaped cross section with a shelf in the lower part, vertical protrusions of a trapezoidal cross section from the side of the side faces of the array, and the protrusions are made with a decreasing section from the shelf in the upper face of the array. In addition, the array is made with a horizontal hole located between the vertical protrusions. At the ends of the array, a vertical protrusion and a groove for pairing adjacent blocks are made.

 The disadvantages of this technical solution: the design does not sufficiently reduce the concrete intensity; the design weakly involves streaming across the flow; protrusions (ribs) do not depreciate, experiencing hydraulic wave impacts during storm impacts, due to their rigidity, which affects the stability of arrays, their operational reliability and their service life.

 The closest in technical essence and the achieved result are the blocks of the beach-forming structure, which contains buns located at a distance from each other directed towards the coastline, and breakwaters attached to them, located parallel to the coastline, and the buns are made in the form of successively mounted blocks of trapezoidal shape in plan, tapered end faces directed towards the water area and meshed with each other by means of blocks made from the end faces ridges and grooves, while to the head block of each buna symmetrically on both sides relative to the longitudinal axis of the buna, blocks of wave breakers are connected in terms of T-shaped structures, having a structure similar to that of buns and directed by their narrowed end faces to the side of the longitudinal axis of the buna.

 The disadvantages of this design: blocks of buna concrete-intensive, which increases the cost of construction; high costs of transport costs and lifting equipment; the design does not involve streakiness of the transverse flow, which does not increase the turbulence of the latter; the sawtooth protrusions of the trapezoidal blocks do not absorb, experiencing hydraulic wave impacts, especially during storm impacts due to their rigidity, which affects the stability of the arrays, their operational reliability and their service life; the structure is subject to abrasion of the household surfaces of the buna blocks; the design does not provide for profiling the bottom zone of the blocks of buns, which does not ensure their installation on the natural slope of the bottom surface, while requiring excessive construction related costs; the design does not provide uniform damping of the wave flux during the run-up of the waves and its rollback; the design requires sling loops for mounting blocks, which increases their metal consumption.

 The purpose of the invention is to increase the efficiency of the design.

 This goal is achieved by the fact that each array of the bunny block is made with T-shaped cross-section and has a bunny wall and a shelf located in its lower part, made of monolithic or prefabricated, and its protrusions are made in the form of long flexible cylinders mounted horizontally to the side faces of the array with displacement relative to each other, while the cylinders penetrate the side faces of the arrays and are fixed in them with their middle part, and semicircular openings are made at the ends of the side walls of the arrays, making up with during the conjugation, the round arrays have round holes; in addition, on the ends of each array there is a vertical protrusion on the whole height of the array on the one hand and a groove along the length of the shelf on the other, the base of the arrays along its entire length has a toothed shape with alternating trapezoidal protrusions and depressions , the end parts of the cylinders are located in the plane of the side faces of the shelves of the arrays, and the bunny wall is shifted relative to the shelf in the direction of flow direction, in addition to the indicated flexible cylinders are made of rubber products, etc. me in the marine construction.

 A comparative analysis of this technical solution with the prototype shows that it differs from the prototype in the implementation of protrusions in the form of rubber long flexible cylinders, not only reducing the concrete intensity of the block structure, but also involving their shock-absorbing ability to relieve the hydraulic shock of a storm wave, which positively affects stability arrays and their operational reliability and extension of their service life, as well as reducing the abrasion of the side faces of the bunny walls.

 The implementation of the protrusions from the flexible cylinders with their staggered arrangement over the entire area along the lateral faces of the block walls significantly increases the transverse streaming of the water flow, which increases wave damping due to increased turbulence of the flow and the formation of beach-forming material in the sediment both during the run of the wave and its rollback.

 The implementation of blocks with semicircular holes at the ends of the bunny walls, and when pairing into the bun, the formation of round holes not only increases the streaminess of the flow, but also ensures the installation of blocks without sling loops, which leads to metal saving on their use. In turn, the walls and shelves of the blocks are made in an integral-monolithic or prefabricated version, the latter provides installation using equipment with low load capacity.

 The implementation of blocks with the eccentricity of the bunny walls and lower shelves in the direction of the main wave run-up of the wave increases their longitudinal stability by increasing the holding moment from the forces of the weight of the structure with the eccentricity arm, and, finally, the planted profiled surface increases the shear resistance of the structure both along the length and width of the blocks , which increases the operational reliability of the blocks in the buna.

 The implementation of the protrusions from the cylinders with the staggered arrangement of the lateral surfaces of the bunny walls and lower shelves in the direction of the main wave run-up increases the longitudinal stability of the blocks by increasing the holding moment from the forces of the weight of the structure with the eccentric arm, and, finally, the planted profiled surface increases structural shear resistance both along the length and width of the blocks, which increases the operational reliability of the blocks in the bun.

 The implementation of the protrusions from the cylinders with the staggered arrangement according to the area of the side surfaces of the bunny walls divides the wave stream into stream flows along the height of the block, and in general along the length of the buna, weakening the energy potential of this stream both in the direction of the main stream and with the wave kickback, which increases the reliability of wave suppression and sedimentation of beach alluvial material.

 The implementation of blocks with an eccentricity of the bunny walls and lower shelves ensures the installation of buns of these blocks on a natural bottom surface without significant underworking, which reduces the construction cost of related work. The design is also applicable for river bank protection with the arrangement of pile blocks along the length of the fixed shore.

 These differences allow us to conclude that the proposed technical solution meets the criterion of "novelty." Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field did not allow us to identify signs that distinguish the proposed solution from the prototype, which allows us to conclude that the criterion is “significant differences”.

 In FIG. 1 shows a plan of bunny blocks; in FIG. 2 - the same side view; in FIG. 3 is a section AA in FIG. 2.

 The bunny block contains an array 1 with a T-shaped cross-section with a shelf 2 in the lower part and a bunny wall 3 made in an integral monolithic version or a prefabricated version, moreover, along the side faces 4 of the walls 3 are staggered across the length of the bunny walls 3 with their penetration and jamming in them long-length flexible cylinders 5 of rubber products for marine construction, forming linear point protrusions, semicircular openings 7 are made at the ends of the bunny walls 3, constituting adjacent arrays 1 when they are paired corner holes 8, in addition, at the ends 6 of each array 1 there is a vertical protrusion 9 from the bunny wall to the full height of the array 1 and a groove 10 on the other side of the end 6 along the shelf 2 in the lower zone due to the eccentric location along the length of the shelf 2 and the block wall 3 arrays 1, with the latter shifted toward the main direction of the wave run, the sole face 11 of the arrays 1 is profiled by alternating trapezoidal ledges 12 and depressions 13 in the direction normal to the length of array 1 of the bunny block, in addition to this, the ends 14 of flexible cylinders 5 in s The intersection of array 1 are in the plane of the side faces of 15 shelves 2, forming a fictitious outline of a full-bodied type block.

 Bunny block works as follows.

 When a water stream carrying beach material is rolled onto an array of 1 block of buna from the side of its side profiled faces 4, the water stream, meeting on its way protrusions made of long flexible cylinders 5 placed in a checkerboard pattern across the length of the bunny walls 3, is divided into separate jet streams along the height of the array 1 with the flexible cylinders 5 flowing around and while extinguishing part of their kinetic kinetic energy, and part of the water flow, especially during storm impacts, upon collision with bending with these cylinders 5 bends them with its force, while also losing part of the energy potential of the flow, and a water stream with a weakened kinetic potential, deviating from cylinders 5, extinguishes its energy and due to the collision of stream flows along the height of array 1, which causes the flow to be quenched along block and removal of alluvial material in the sediment, given that this process is repeated along the length of neighboring arrays 1; the transverse streaming of the stream flowing out of the cylinders 1, which, violating the water regime, causes turbulence in the flow when the longitudinal and transverse streaming flows displaces the beach material in the sediment and damps the energy potential; in turn, the bent cylinders 5, perceiving the force effect of the flow on them, transmit forces to the bunny walls 3, which, in turn, given the stiffness of the joints of the latter with the lower shelves 2, act on them, however, the array as a whole is in a stable state, so as the indicated force influences is prevented by the profiled lower surface 11 of the array 1, made of trapezoidal depressions 13 and ledges 12, taking into account the weight of the arrays 1 themselves.

 When it rolls back, the wave meets protrusions in the form of flexible cylinders 5 for the second time, the operation of which is similar to that described above, while the wave being rolled back, colliding with the wave being rolled, not only dampens the wave being rolled, but also is completely extinguished by itself, depositing sandy beach material.

 In addition, the through holes 8, made on the bunny walls 3, create additional streakiness of the transverse flow and removal of the deposited material into the sediment due to additional turbulence of the water flows, while the presence of the lower shelf 2, loaded with an aqueous medium, ensures the stability of the blocks of buns.

 The implementation of through holes 8 not only creates additional turbulence in the water flow, but also ensures the installation of blocks without mounting loops, which leads to metal savings.

 The implementation of the bunny walls 3 and lower shelves 2 with an eccentricity in the direction of the main direction of the water flow during the wave run increases the stability of the bunny blocks along their length by compensating for the effect of these forces by the holding moment forces taking into account the weight of the arrays 1 themselves.

 In addition to the above, the shock-absorbing ability of the cylinders 5 removes the hydraulic shock of the wave and storm effects of both the rolling wave and the rolling wave, which leads to operational reliability in the operation of the blocks of buns.

 The presence of an eccentricity on the elements of the array of 1 blocks of buns ensures their installation on the natural slope of the seabed without significant underworking of the base, which reduces the construction cost by reducing the associated work.

 The implementation of the protrusions in the form of shock-absorbing flexible cylinders 5 along the bunny wall 3 reduces the concrete intensity of the structure, which leads to resource-saving of the funded materials, in addition, they (cylinders 5) reduce the abrasion of the side surfaces 4 of the array 1, which extends their service life.

 And finally, the cylinders 5, bending, create a variable trickle along the height of the array 1 due to the variable deflection along the height of the array 1 of the cylinders 5, due to the different diagram of the force effect on them.

 The implementation of the prefabricated walls 3 and shelves 2 in the prefabricated version provides for the installation of the structure using equipment with low load capacity, which reduces the mechanical structure of the object.

 Using the proposed technical solution will allow: to obtain a less capacious concrete structure; to minimize hydraulic shock of the storm effects of the aquatic environment due to linear-point protrusions (ribs) from long flexible rubber cylinders; the use of rubber cylinders with staggered placement of the latter increases the longitudinal streakiness of the streams along the length of the bunny blocks, as well as the transverse streakiness due to the openings in these cylinders, which provides significant turbulence and, consequently, significant quenching with the removal of the dance material in the sediment, as when the main flow during the roll-over of the wave, as well as its rollback; to obtain additional streaming due to through holes at the ends of the array, used for mounting these blocks without mounting loops, which reduces the need for metal; profiled plantar face of blocks of trapezoidal protrusions and depressions the stability of the blocks both longitudinal and transverse due to increased resistance with bottom soil; pairing the arrays of the bunny block in length with neighboring blocks by means of grooves and protrusions made with an eccentricity for each of them increases the holding moment along the length of the blocks, taking into account that the eccentricity is located in the direction of influence of the water main stream, which in turn allows you to mount arrays the natural slope of the bottom base without significant part-time work, while reducing the construction cost of related work; to increase the loading of the shelves in the aquatic environment, and therefore the stability of the design of the blocks; to get a design acceptable in its use and for fixing river banks; the execution of the array structure separately from plates and bunny walls provides the use of low-load equipment, which reduces the mechanical equipment of the objects; bendable cylinders also form a variable altitudinal streaking due to different deflection along the height of the cylinders themselves, due to the variable action of the wave action diagram on them; extend the life of the bun by reducing the abrasion of their side surfaces; ensure uniform damping of wave effects both during the roll-over and rollback of the wave.

Claims (2)

 1. BUNNY BLOCK, including an array with a parallel base and upper face, having protrusions on the lateral sides, characterized in that, in order to increase efficiency in operation, the array is made with T-shaped cross section and has a bunny wall and a shelf located in its lower part, made monolithic or prefabricated, and its protrusions are made in the form of long flexible cylinders mounted in horizontal rows on the side faces of the array with an offset in the rows relative to each other, while the cylinders penetrate the bunny wall the assy and fixed in it with the middle part, and in the end walls of the array there are made semi-circular grooves, which make round holes with the grooves of the neighboring arrays when they are mated, in addition, on the ends of each array a vertical protrusion is made on the one side to the entire height of the array, and on the other - the groove along the length of the shelf, the base of the array along the entire length has a toothed shape with alternating trapezoidal protrusions and depressions, the end parts of the cylinders are located in the plane of the side faces of the shelf of the array, and the bunny wall is offset from the middle olki in the direction of flow.  2. The block according to claim 1, characterized in that the flexible cylinders are made of rubber products used in marine construction.

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