CZ31932U1 - A permanent prefabricated bracing wall - Google Patents

Description

Technical field

The technical solution relates to the field of construction, namely the permanent prefabricated negative wall.

BACKGROUND OF THE INVENTION

Negative walls are used primarily as replacements of existing retaining and doorframe walls, as a supporting structure of roads, as support for bridge wings, as portals of tunnels, and also as a permanent securing of a foundation pit, which is also used for building construction of underground building or water management buildings.

Negative sheeting is very frequent for simplicity and speed of execution and low cost. The bogs are mostly wooden, the cons are made of steel profiles. Cons are vertically engaged or embedded in boreholes where they are fixed with thin concrete. In order to stabilize the excavation walls, the wooden paws are activated by tightening with wooden flat wedges, or the space between the back of the paws and the excavation wall is filled with an activation backfill. In some cases, the trench wall is stabilized by a layer of sprayed concrete between the back of the negative wall and the trench wall. Also known are prefabricated underground walls for higher heights, where the deep grooves are fitted with prefabricated panels of the height of the future negative wall, which then side by side form the negative wall. The vertical joints between the individual prefabricated elements are sealed against water. The disadvantages of conventional negative walls are that they do not have a waterproofing function, have a low lifetime due to the corrosion of negatives and wood decay and are not suitable for forming at the same time the supporting and visible part of the connected underground structure. The prefabricated wall panels have the necessary service life and waterproofing function, but they need heavy equipment and a large handling space to complete them.

The task of the technical solution is to eliminate the shortcomings of the known negative walls.

The essence of the technical solution

The permanent wall according to the invention comprises a series of vertical consoles which, in some applications, are anchored to the ground on the back of the wall, in other applications they can only be driven into the ground or embedded in the ground. Between the consoles, vertical arrays of marsh plates are placed, which fit into recesses formed in the consoles.

The essence of the technical solution consists in that the consoles and shoring panels are prefabricated parts made of cast concrete, the sheating panels have the shape of a rectangle whose height is greater than 1/5 of its width, and are located in the recesses of the consoles with lateral clearance and vertical direction. The vertical joints of the negatives and the bladder panels are provided with a vertical waterproofing gasket and the horizontal joints of the bladder panels are provided with a horizontal waterproofing gasket, the gaskets contacting each other at the corners of the bladder panels. The web panels can be pushed into the recesses from above, whereby a waterproofing seal, which can be part of individual parts or can be applied during construction, completely seals the negative wall against water leakage.

In a preferred embodiment, a vertical cavity of the vertical joint for the vertical waterproofing seal is formed in the vertical joint of the web and the sash panel, which is bounded by at least two contact surfaces of the vertical seam with which the sag and the sash panel abut. up to 45 °, and at least two defining surfaces of the vertical joint which:

The end surfaces of the pawl and the bladder panel form an angle greater than 45 ° to the wall plane, the lateral clearance in the region of the sealing cavity of the vertical joint being greater than the lateral clearance in the other portions of the bladder panel seating in the recess.

The sealing cavity allows the application of a vertical waterproofing seal from above after installing all of the stock panels. Greater lateral clearance in the area of the sealing cavity ensures that a vertical cavity sealing cavity automatically arises between the negative and the bladder panel when the panel is slid into the recess in the negative, regardless of whether or not the bladder panel is sealed against the negative.

In a further preferred embodiment, a horizontal joint of the horizontal joint for the horizontal waterproofing seal is formed in the horizontal joint of the bladder panels, which is bounded by at least two bearing joints of the horizontal joint with the bladder panels abutting and forming an angle between 0 ° and 45 °, and at least two horizontal joint defining faces that form the end faces of the bladder panels and make an angle greater than 45 ° with the bladder plane, the vertical clearance in the region of the horizontal joint sealing cavity being greater than the vertical clearance in the other parts of the horizontal bladder joint panels.

The abutment surfaces between the negative and the bladder panel are oriented in one direction, which runs either in the plane of the wall or at an angle less than 45 ° to the wall, and thus do not increase the friction when the bladder panels are inserted. The bearing surfaces are pressed together by the pressure of the activation backfill, so that the sealing cavity is always closed.

In a further preferred embodiment, the vertical connection between the negative and the stock panel is formed such that each recess in the stock is formed by a vertical groove and a consecutive vertical rebate of the negative, and each stock panel is provided with a vertical tongue fitting into the vertical groove. cons and a vertical rebate of the bog panel, which fits into the vertical rebate of the neg. The contact surfaces of the vertical joint extend parallel to the plane of the wall and are formed by the side surfaces of the vertical groove, the vertical tongue and the vertical rebates. The boundary surfaces of the vertical joint form the front surfaces of the vertical rebates extending perpendicular to the plane of the wall.

In another preferred embodiment, the horizontal joint of the stock panels is formed by the horizontal groove and the horizontal tongue, the horizontal joint abutment surfaces are formed by the lateral surfaces of the horizontal groove and the horizontal tongue, and the delimiting surfaces of the horizontal joint are the front surfaces of the horizontal groove and the horizontal tongue.

The horizontal groove and the horizontal tongue preferably have a trapezoidal cross-section and the height of the horizontal tongue is smaller than the depth of the horizontal groove, so that the horizontal joint of the bogie panels is self-locking.

Advantages of the solution according to the technical solution consist mainly in the fact that concrete cons and lining panels have many times longer lifetime compared to steel cons and wooden lining elements, they can be finished gradually during excavation of the excavation pit without high demands on working space and heavy equipment and concrete structures and surface waterproofing are also suitable as a face side of an underground building.

In a preferred embodiment, the negative in cross section has a substantially quadrangular profile, and the recesses are formed in the negative on each of their vertical sides opposite each other, with the vertical half-grooves of the negative extending on the face of the negative. The advantage of this arrangement is that the face side of the permanent prefabricated negative wall is substantially visible without the need for further modifications.

In another preferred embodiment, the vertical waterproofing seal is disposed between the vertical rebate of the negative and the vertical rebate of the stock panel in the central region of the stock and the stock panel,

The face sides of the consoles and the bog panels are flush with each other and are provided with chamfers forming a vertical face groove in the peripheral portions of the vertical rebates. This solution further improves the visual quality of the face side of the wall, since the vertical face grooves may be filled with a sealant, which together with the face surfaces of the punch panels and the minuses form a uniform face surface of the wall.

It is also advantageous if the horizontal contact edges of abutting bog panels in one wall field are provided with chamfers forming a horizontal face groove which can also be filled with a sealing compound and form a uniform face surface of the wall.

In another preferred embodiment of the invention, the lower punch panel is formed into a cutting edge along its entire width. If the negatives are installed in the boreholes in the field before the excavation of the excavation pit, the excavation of the excavation pit can be progressively excavated under the lower bog panel, allowing the excavator bucket to engage the excavator bucket under the bog and cut into debris and lower , under the load of the upper bog panels. The same function has a cutting edge when replacing existing retaining walls.

In another preferred embodiment, the lower shoring panel is provided with a tooth formed on the reverse side of the cutting edge along its entire width. The tooth will create a space on the reverse side of the wall for storing the activation backfill.

Since it is important for the correct functioning of the wall, especially during the continuous securing of the working pit, that it is important to position the negatives precisely, to maintain their parallelism and the exact distance therebetween, it is advantageous that the recesses in at least one support do not extend to its base. is provided with an axial mounting cavity from the bottom of the base. Advantageously, the tip of the settling pin fits into the axial settling cavity, which is mounted in the concrete foot under the heel foot. A settling pin is deposited in the concrete of the bead bottom before inserting the negatives into the boreholes, locating the locating pins precisely and then placing the negatives on these precisely positioned locating pins.

The main advantages of the permanent prefabricated wall according to the technical solution include the possibility of capturing any elevation of terrain, the possibility of implementation in a very limited working space, minimizing earthwork, high speed of construction, cost savings, waterproof design, minimum durability 100 years, long and high aesthetic and utility value and the possibility of design according to the client or professional graphic designer.

Replacement of existing retaining and doorframe walls using a wall according to the technical solution is solved without the need for earthwork behind the back of the wall, with the possibility of installing a new wall on the floor plan or even behind the floor plan of the existing retaining structure. , with minimum requirements for access roads to the construction site, where a passage width of 2 m is sufficient.

The supporting structures of roads, vertical or inclined, bridge wing supports and tunnel portals are carried out under any weather conditions, with the possibility of waterproof design, and with high environmental quality.

If the foundation pit is permanently secured, the wall is finished as a recognized construction of the future underground in watertight design without the need for additional structural layers, in visual design, with the possibility of carrying out peripheral parts of underground ceilings and / or % compared to compositions with common negative walls.

Another advantage lies in the fact that the permanent prefabricated wall according to the technical solution can be mounted even under the surface of ground or surface water and thus eliminates the need to keep the construction site area dry. The permanent prefabricated wall can therefore advantageously be used as

-3 CZ 31932 U1 final construction of water management structures, watercourse channels and artificial canals, dams, flood protection structures, etc., without the need to build a temporary watertight sheet wall around the construction site and drain water from it, which significantly reduces construction costs and at the same time construction will significantly speed up.

Clarification of drawings

The technical solution will be explained in more detail by means of drawings showing:

Giant. 1 is a perspective view of a portion of a prefabricated permanent ridge wall consisting of three rungs with anchors and three span panels;

Giant. 2 vertical section through two superimposed bog panels,

Giant. 3 is a horizontal cross-sectional view of the shoring panel support in the recess in the recess,

Giant. 4 a view of the mounting pin,

Giant. 5 view of the concrete foot,

Giant. 6 is a view of the set pin and concrete foot,

Giant. 7 a perspective view of a negative,

Giant. 8 is a perspective view of a portion of a prefabricated permanent negative wall consisting of two consoles and one swath panel field, with a partial cross-sectional view illustrating the deployment of the heel to the locating pin;

Giant. 9 is a cross-sectional view of an example of a vertical joint formed by two rebates, with the face side facing,

Giant. 10 is a cross-sectional view of an example of a vertical joint formed by a tongue and groove, with the face side facing,

Giant. 11 is a cross-sectional view of an example of a vertical joint where the face of the negative protrudes from the face of the wall.

Examples of technical solutions

The permanent prefabricated ridge wall 1 according to the attached drawings consists of prefabricated concrete struts 2 and prefabricated concrete sheath panels 3, 3 '. The struts 2 and the sheath panels 3, 3 'are precision cast concrete precasts. The consoles 2 have pre-formed holes 25 for anchors 4, the ends of which are secured in the holes 25 by washers 26 and nuts 27. In other embodiments, the anchors 4 need not be used at all and the consoles 2 can only be driven or concreted into the ground. The struts 2 are essentially concrete prisms, in whose vertical opposing walls recesses are formed in which the stack panels 3, 3 'are arranged one above the other in vertical fields. These are rectangular in shape, with a height h> 1/5 of 1 for their height h and width 1. In one embodiment of the wall shown in Figures 1 to 8, the vertical lateral sides of the stock panels 3, 3 'are provided with a vertical tongue. 7 and the adjoining vertical rebate 8 of the stock panel 3, 3 '. The recesses in the consoles 2 are shaped so that they have a vertical groove 5 and the adjoining vertical rebate 8 of the cons. 2. When sliding the stock panel 3, 3 'from above into the recesses between two consoles 2, the vertical tongue 7 of the stock panel 3, 3' the vertical grooves 5 of the negative 2 and the vertical rebates 6, 8 also fit together. The vertical groove 5 has a leading side 13 and the vertical tongue 7 has a chamfer 14 for better insertion. Between negative 2

31932 U1 and the bladder panel 3, 3 'is a lateral play t allowing the bladder panels 3, 3' to slide in the negatives 2. A vertical cavity sealing cavity 30 is formed between the vertical rebates 6, 8 and is delimited laterally by the abutment surfaces. 28, 29. These are formed by the side surfaces of the vertical groove 5, the vertical tongue 7 and the vertical rebates 6, 8 running parallel to the plane of the wall 1. The sealing cavity 30 of the vertical joint is further delimited by two vertical joint defining surfaces 34, 35 the surfaces of the slide 2 and the bladder panel 3, 3 '. The limiting surfaces 34, 35 form an angle of 90 ° with the plane of the wall 1. In the sealing cavity 30 the lateral play t is greater than the lateral play s in the other parts of the vertical joint, and in the sealing cavity 30 a vertical waterproofing gasket 9 is formed which is formed eg of liquid rubber and fills into all the sealing cavities 30 at once. horizontal joints between the laminated panels 3, 3 'in one field are sealed so that the underside of one laminated panel 3 is provided with a deeper horizontal trapezoidal groove 10, which fits a shallower horizontal trapezoidal tongue 11 of the other Thus, between the tongue 11 and the groove 10, a sealing cavity 33 of a horizontal joint is formed, in which a horizontal waterproofing seal 12 is formed, consisting of a permanently resilient sealing sealant. The horizontal joint sealing cavity 33 is bounded by two horizontal joint contact surfaces 31, 32, which are formed by the side surfaces of the horizontal groove 10 and the horizontal tongue 11. It is further delimited by two horizontal joint defining surfaces 36, 37, which are formed in the corners of the bladder panels 3. 3 ', where the sealing cavities 30, 33 and the waterproofing seals 9, 12 housed therein meet, so that with the exception of the lower edge of the bladder panel 3', all the bladder panels 3 are perfectly sealed around their entire circumference, including contact with cons. the guides of the tab panels 3, 3 'in the consoles 2 are selected such that the edges of the vertical rebates 6, 8 adjoin the face side of the consoles 2 and the tab panels 3, 3', and the faces of the consoles 2 and the tab panels 3, 3 ' . This creates a visible face side of the wall 1, which can serve as an interior finish of a future underground building, for example a garage, without further modifications. In order to improve the appearance of the face side, the vertical edges of the struts 2 and the bladder panels 3, 3 'are provided with chamfers 16, which form a vertical face groove 15. Also the horizontal contact edges of the abutting bladder panels 3, 3' The vertical face groove 15 and the horizontal face groove 17 may be filled with a sealant so that the visible side of the wall 7 is perfectly straight and can be painted or otherwise coated. Referring to FIG. 11, another embodiment of the wall 1 is shown in which the struts 2 are admitted and do not align with the front side of the bladder panels 3, 3 '. FIGS. 9 and 10 show further possible embodiments of shaping the recess and the vertical joint between the slide 2 and the bladder panel 3, 3 '.

The lower shoring panel 3 'is shaped differently from the other shoring panels 3. Its bottom edge is formed by the embossing, retaining and sealing lip 19. The brit 19 helps to progressively excavate the soil, where the excavator bucket reaches the rear position between two drawbars 2 and the lower shoring panel. 3 'pushed from above by the weight of the other successively retracted bladder panels 3 are gravitationally pushed further down. This allows for gradual reinforcement of the excavation walls during excavation, where the consoles 2 are pre-mounted in boreholes (not shown) and the bladder panels 3, 3 'are gradually fitted between the consoles 2 from above and shifted gravitationally by excavating the soil or demolishing existing structures below the bar panels 3. , 3 '. As can be seen from FIG. 1, a tooth 20 is formed on the reverse side of the cutting edge 19, which makes it possible to create a distance behind the back of the wall 1 for receiving an activation backfill, e.g. sand or bentonite.

When permanently securing the foundation pit, first, not shown boreholes are formed, onto the bottom of which the concrete forming the concrete foot 24 is poured. The settling pin 23 is then immediately mounted by means of a not shown setting rope so that its tip 22 protrudes vertically upwards. The relative positions of the spikes 22 of the seated pins 23 in the adjacent boreholes are precisely measured to have the same pitch. After hardening, the holes 2 are lowered into the boreholes and centered on the tips 22 of the locating pins

23. For this purpose, axial mounting cavities 21 are formed at the full heels of the consoles 21. Subsequently, the first row of anchors 4 are mounted and fixed in the upper pre-drilled holes 25 and soil is started to be excavated or the existing structures break down between consoles 2. the lower bumper panels 3 'and then the other bumper panels 3. Gradually, further anchors 4 are installed

-5 CZ 31932 U1 3 'resp. beneath their blades 19 the soil is still mined or the original structure is being demolished. During the insertion of the panels 3, 3 'or after the wall 1 has been completed, the reverse side is activated by backfill. When finished, the front side can be visually adjusted.

To replace the existing retaining walls in the not shown example, the openings for the negatives 2 are first removed and the negatives 2 are fitted. Since the heel of the negatives 2 is accessible, no drill holes or locating pins 23 are required. and the negatives 2 are thus fixed to the ground. The original retaining wall in the fields between the consoles 2 gradually breaks down from top to bottom, and between the consoles 2, the step panels 3, 3 'are gradually slid from above. During the insertion of the panels or after completion of wall 1, the reverse side is activated by backfill. When finished, the front side can be visually adjusted.

Since the permanent prefabricated negative wall 2 according to the invention can be mounted below the surface of the ground water in the illustrated embodiment, there is no need to keep the construction site dry. Therefore, the permanent prefabricated negative wall 2 can advantageously be used as a final construction of water management structures, watercourses and artificial channels, dams, flood structures, etc., without the need to build a temporary watertight sheet wall around the construction site and drain water therefrom. it will make construction costs cheaper while significantly speeding up construction. In these cases, anchors 4 are generally not used.

Industrial applicability

Permanent prefabricated negative wall according to the technical solution can be used as a substitute for existing retaining and doorframe walls, as a supporting structure of roads, as a support of bridge wings, as a tunnel portal and also as a permanent securing of a foundation pit. mantles of the future aboveground building, eventually also the installation of horizontal structures of the underground building. Permanent prefabricated wall can also be used as a final construction of water management structures, troughs of watercourses and artificial channels, dams, flood structures etc.

PROTECTION REQUIREMENTS

Claims (14)

Permanent prefabricated negative wall (1), comprising vertically arranged consoles (2) and punch panels (3, 3 ') positioned between the consoles (2) in recesses in the consoles (2), characterized in that the consoles (2) and punch panels (3, 3 ') are prefabricated cast concrete, punch panels (3, 3') have the shape of a rectangle whose height (h) is greater than 1/5 of its width (1); mounted with lateral clearance (s, t) and with the possibility of their sliding in the vertical direction, vertical joints of the negatives (2) and the sheath panels (3,3 ') are provided with a vertical waterproofing gasket (9) and horizontal joints of the sheath panels (3, 3) 1 ') are provided with a horizontal waterproofing gasket (12), the gaskets (9, 12) in contact with each other at the corners of the bladder panels (3, 3'). Permanent prefabricated negative wall according to claim 1, characterized in that a vertical joint sealing cavity (30) for a vertical waterproofing seal (9) is formed in the vertical joint of the negative (2) and the bladder panel (3, 3 '). delimited by at least two vertical joint abutment surfaces (28, 29), which are in abutment with the negative (2) and the bog panel (3, 3 ') and which form an angle between 0 ° and 45 ° with the plane of the wall (1); at least two vertical joint defining surfaces (34, 35) which form the end surfaces of the negative (2) and the bog panel (3, 3 ') and make an angle greater than 45 ° with the plane of the wall (1); in the region of the sealing cavity (30) of the vertical joint is greater than the lateral play (s) in the other parts of the seating of the bladder panel (3, 3 ') in the recess in the recess (2). -6GB 31932 U1 Permanent prefabricated negative wall according to Claim 1 or 2, characterized in that a horizontal joint sealing cavity (33) for a horizontal waterproofing seal (12) is provided in the horizontal joint of the bladder panels (3, 3 '), which is bounded by at least two the horizontal joint abutment surfaces (31, 32), which abut the sheath panels (3, 3 ') and form an angle in the range of 0 ° to 45 ° with the plane of the sheath panel (3, 3'), and at least two boundary surfaces A horizontal joint (36, 37) forming the end surfaces of the bladder panels (3, 3 ') and forming an angle greater than 45 ° with the plane of the bladder panels, wherein the vertical clearance (x) in the region of the horizontal cavity sealing cavity (33) is greater than the vertical clearance (s) in the other parts of the horizontal joint of the bladder panels (3, 3 '). Permanent prefabricated negative wall according to claim 2, characterized in that the vertical joint between the negative (2) and the punch panel (3, 3 ') is formed such that each recess in the negative (2) is formed by a vertical groove (5) and a consecutive vertical rebate (6) of the negative (2), and each bog panel (3,3 ') is provided on each vertical side with a vertical tongue (7) which fits into the vertical groove (5) of the negative (2) and thereon adjoining a vertical rebate (8) of the paw panel (3, 3 '), fitting into the vertical rebate (6) of the drawbar (2), wherein the abutment surfaces (28, 29) of the vertical joint extend parallel to the plane of the wall (1) and the vertical grooves (5), the vertical tongue (7) and the vertical rebates (6, 8), and the defining surfaces (34, 35) of the vertical joint form the faces of the vertical rebates (6, 8) extending perpendicular to the plane of the wall (1). Permanent prefabricated negative wall according to claim 3, characterized in that the horizontal joint of the bogie panels (3, 3 ') is formed by a horizontal groove (10) and a horizontal tongue (11), the contact surfaces (31, 32) of the horizontal joint are formed by the side surfaces of the horizontal groove (10) and the horizontal tongue (11), and the delimiting surfaces (36, 37) of the horizontal joint are formed by the faces of the horizontal groove (10) and the horizontal tongue (11). Permanent prefabricated negative wall according to claim 5, characterized in that the horizontal groove (10) and the horizontal tongue have a trapezoidal cross-section, the height of the horizontal tongue (11) being smaller than the depth of the horizontal groove (10). Permanent prefabricated negative wall according to one of Claims 1 to 6, characterized in that the negative (2) has a rectangular profile in horizontal section, and the recesses are formed opposite each other in the negative (2), with vertical rebates ( 6) the negatives (2) extend to the face of the negatives (2). Permanent prefabricated negative wall according to one of Claims 2 to 7, characterized in that the vertical waterproofing seal (9) is arranged in a sealing cavity (30) of the vertical joint formed between the vertical rebate (6) of the negative (2) and the vertical rebate (9). 8) a stock panel (3, 3 ') in the central region of the web (2) and the stock panel (3, 3'), the faces of the webs (2) and the stock panels (3, 3 ') aligned and in the peripheral portions of the vertical the rebates (6, 8) are provided with chamfers (16) forming a vertical face groove (15). Permanent prefabricated negative wall according to one of Claims 1 to 8, characterized in that the horizontal contact edges of abutting bog panels (3, 3 ') in one field of the wall (1) are provided with chamfers (18) forming a horizontal face groove. (17). Permanent prefabricated negative wall according to claims 8 and 9, characterized in that the vertical face groove (15) and the horizontal face groove (17) are filled with a sealing compound. Permanent prefabricated negative wall according to one of Claims 1 to 10, characterized in that the lower shoring panel (3 ') is formed into a cutting edge (19) over its entire width (1). Permanent prefabricated negative wall according to claim 11, characterized in that the lower bog panel (3 ') is provided with a tooth (20) formed on the reverse side of the cutting edge (19) over its entire width (1). -7 GB 31932 U1 Permanent prefabricated negative wall according to one of Claims 1 to 11, characterized in that the recesses in the at least one negative end (2) terminate in front of the negative foot (2), the negative foot (2) having a full profile and bottom side the base is provided with an axial mounting cavity (21). Permanent prefabricated negative wall according to claim 13, characterized in that the tip (22) of the settling pin (23), which is mounted in the concrete foot (24) below the foot of the negative (2), fits into the axial settling cavity (21).