DD211139A1 - CORE ROEHRENSCHACHT - Google Patents

Abstract

The invention relates to a shaft in drainage systems, which is suitable for incorporating supply lines, preferably larger nominal widths, with different inlet directions. The aim is to have a minimized structure, to determine the conditions of pegs in the shaft, to make the pipe connections to the shaft flexible, even with large nominal diameters, and to replace the hydraulically unfavorable quarter-circular arcs of the transitional channels with more favorable devices. The essence consists, according to the invention, of having a minimized, variable shaft core, at the tube feeds of all directions, on one side and on both sides and simultaneously. The Einleitungsuebergaenge are according to the invention replaced by Klotoidenfoermige channel shells, which are housed in the upstream BGM pipes, NW 1200mm. Gutter-slope heights are designed by means of Exzenterpassstuecke, which are located as a closure and connection device in the upstream BGM pipes by turning around the base circle constructive and have, depending on the connection pipe nominal width, connecting flanges and flow openings. Areas of application are: Gravity lines preferably of industry, agriculture, traffic, water management, construction, mining and national defense.

Description

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A description of the invention

Title of the Invention: Core Tubular Shaft

Field of application: The field of application of the core-tube shaft is the field of construction, civil engineering, city-technical development, especially the pipeline construction and concerns such places of the pipeline network, where preferably larger drainage lines are brought together ·

The core tube shaft is useful in municipal civil engineering, both in new buildings, as in reconstruction tasks apply. The use as a device in drainage systems of industry, mining, water supply, agriculture, traffic and in complexes of national defense is possible. ,

Characteristic of the known LösungemDie characteristic of the known technical solutions in shaft constructions is the time that these in large pipe sizes, both in the main drainage direction, as the supply of secondary lines large, this merges enclosing structures erforderndes is because _s that the tubes of the secondary lines with a Connection radius of R = 1.5 «D (D = pipe diameter of the connecting pipe) are to be integrated with the main drainage pipe. These are now in the overall envelope construction and lead because of the large building to a considerable construction cost _} excessive costs and an unacceptable material and Energieeinsatsu The Civil Engineering Combinations have developed individual solutions for this, which do not differ in the design principle (inclusion of the curves in the enclosing building envelope), but only by the construction method (for example, Monolithic construction, panel or floor mounting) he frame construction, etc.).

It should also be regarded as a defect that the large pipe diameters of the lines are firmly embedded in the Schachungswandeh and it comes in building subsidence pipe breaks · Another shortcoming in this context is that at nominal size increases or replacements of the pipes the shaft walls must be broken (example : Pipe break, ZV-PaIl and others).

Another shortcoming is that the connection heights of the pipes to the shaft and the channel heights must be made by tedious manual measurements · Poor is the structural transition for the medium to be discharged from the axial direction of the secondary line in the direction of flow of the main line at an angle of 9o ° .This is now made by means of a quarter circle-shaped trough. This transition from Ri = 1 in too R2 = 1.5 x D shows the case of large pipe diameters and vollaufenden pipes in hydraulic flow behavior of the medium significant shortcomings.

OBJECT OF THE INVENTION The object of the invention is to design a device which, while maintaining the required network function of a shaft (revision, cleaning, venting, etc.), requires a minimum of constructive effort and represents a fundamentally new device.

The essence of the invention The technical problem solved by the invention is that a core structure is developed as a minimized structure, which fulfills the functional requirements and does not include the listed defects. The technical problem, which is also solved by the invention is to cause the directional transitions hydraulically cheaper by trough-shaped, clotoid-shaped clot shells.

Further features which are achieved according to the invention consist in the fact that the pipe connections of all nominal width ranges to the core tube shaft are possible flexibly and under different connection angles, the tubes to be connected being brought into the desired position by eccentrics on the upstream tubes by turning for the channels at the same time the heights are given, without having to additional measuring effort.

According to the invention, the transitions for the direction changes are in the outwardly projecting tubes, nominal nominal width NW 12oo mrn and have a Muldenf.orm, which consists of composite individual cross-sections and runs klotoidenförmig «

Features of the Invention The features of the invention of the core duct as apparatus of Figures 1 and 3 are in accordance with the invention, a variable and minimized shaft core suitable for multiple pipe connections, preferably made in monolithic cement concrete construction which allows pipe connections at any angle, which has a uniform construction height and has the same quality characteristics. concreting the founding floor, the shaft core of Figure 1 was first made, with the upstream concrete pipes, WW 12oo mm were simultaneously concreted in _{o in} this core tube shaft thus produced, are in the außeniiii sockets of the tubes the eccentric fittings of Figure 2 and 4 Hereinafter, the channel shapes of Figure 5 of the transitions are inserted from the inside into the upstream tube of Figure 2 and according to Figure 6 supported by concrete mounting fittings, connected and the Intermediate spaces next to

The clotoid troughs according to FIG. 5 are produced according to the invention from sheet steel (form which is removed again) or as precast concrete part (form which remains in the building).

The dome core has an entry, the shaft dome, which consists of commercial concrete rings, NW 1ooo mm. The dome is bounded with a commercial cast-iron cover plate up. The function of the device is determined by the medium to be discharged, through the drainage pipes, through the passport piece The medium, which is deflected in the main axis direction 1-1 and flows through the shaft "is composed by a composite, the circular profile equivalent cross-section of semicircle and rectangular surface" as shown in FIG 5 shown, discharged.

· .. -., '. 4 '... -> - -:::: "slope changes are brought about in the shaft by concave, convex or oblique lines of the sole by the Exzenterpaßstücke The Exzenterpaßstücke are suitable, various Henn wide transitions auszuführen.Die transition points of the gap formation in the shaft, are according to the invention By turning the Exzenterpaßstücke to the base circle center, all tethering points are specified in terms of height. All Exzenterpaßstücke have the same basic and Einsatzkreis, preferably MW 12oo mm, with inwardly lying Splash, for use in the pipe sleeves and to the outside with splashes for different nominal pipe diameters In functional insight, the core duct is also variable as a system shaft.

Exemplary core tube shaft: The main drawing, FIG. 1 shows the core tube shaft in perspective overall penetration and shows the constructive and functional structure of the invention as a whole and with reference to FIGS. 2 to 8. The minimized shaft core has the smallest possible inner puncture space, for comparison of the usual shaft constructions (dashed boundary line). Sr is of a basic cubic shape, with the same shaft core height. The tube feeds are here at 9o ° to the main flow direction.Road lines of the connection lines are also at a preferred angle of 9o °, 6o ^Q , 45 ° _s 3o ^o ua fed at right angles to the shaft outer walls. The shaft core is preferably monolithic cement concrete poured between formwork structures on site. The shaft is supported on a concrete base, which in turn rests on the foundation base. The cover of the shaft core, is preferably of two Reinforced concrete cover plates, whereby this one round opening, Wr! The shaft dome also has a clear opening width of 1, oöo mm for entry and is made of cement concrete rings, a concrete cone and a cast iron cover plate manufactured. Each shaft core has according to Figure 1i, a main axis 1-t, which also the main drainage axis The main chute according to FIG. 2 lies in the main drainage axis 1-1 and is delimited by the eccentric adapters. The gradient crossings in the main channel, (main thing 1i »1i)

^; ,. 5 ·. ...; - _: ..: y. \.

(concave, convex, oblique) start and end respectively on the inside of the eccentric adapters, which are used as a shaft boundary in the sleeves of the upstream pipes by means of commercial RoIlgumbefan rings ·

The Exzenterpaßstücke allow the form forth, all arrive «the pipes of different nominal diameters, preferably Betonglockenmuff enrohre, MW 15o to MW 1ooo mm to connect by means of rolling rubber sealing ring.

Exzenterpaßstücke: The Exzenterpaßstück of Figure 4, is used to connect the incoming secondary lines to the shaft, The Exzenterpaßstück has a constant base circle of 12oo mm, serves the watertight seal of the core tube shaft and has in and out planter different size, for recording and the connection of the pipes of different nominal widths. The inner chute allows the fitting of the eccentric fitting in the socket of the eccentric fitting with BGM pipe upstream of the core. The eccentric fitting has an opening for the flow of the medium. The opening width corresponds to the width of the connected pipe Centers of the Exzenterpaßstückes and the flow opening are staggered, so that when turning the eccentric a height change of the connecting pipes is made possible »As a result, the gradient ratios are regulated at the core tube shaft,

Exemplary prefabricated channel shell: The prefabricated. Curling after Pigur 3 »is introduced by Pigur 2 from the inside through the shaft core, that this rests inside on the bearing ring of Exzenterstückes.Zur storage support, the channel shell is repeatedly held by concrete mounting fittings in two different forms 1 and 2, according to Pigur 6. The interstices between shell and concrete pipe, IiW 1200 mm, are filled with gravel and concrete and balanced.

The formation of the integration of the channel shell in the main channel 1-1 is done manually.

Example of Concrete - Fittings: The concrete fittings according to Pigur 6, have two different forms of construction 1 and 2. They differ in height h and hg and the center distances a ^ and a ^. They are strong in the outer contact surface

roughened so as not to slip off and thus serve to stabilize the slope of the clot shell during assembly in various support arrangements. They are rotated within the outer base circle, NW 12oo ram »around the central axis for the said purpose and so adapted to the Exzentereingangshöhe. The support circle for the shells is flattened for this purpose, the slope adjustment in the upper area, "The puncture arrangement of the concrete mounting fittings is apparent from Figure 2

Claims (4)

B claim of invention _t -.Kern tube shaft, characterized in that a shaft body as a core with minimized contours ₈ constant height, variable planform, with firmly concreted ₉ the shaft upstream pipes, preferred nominal width NW ΐ2οο mm ₉ Betonglockenmuff enrohre or concrete pipes with preferred lengths of 1iooo mm, the total rests with the upstream pipes on an adapted concrete slab and as a completion and limiting construction in the tubes used Exzenterpaßstücke that allows a slope adjustment of the Sohlgefälles in Schacht.Die upstream of the shaft core, but firmly embedded in this concrete pipes are part of the overall shaft and serve as Building envelope for the accommodation of the clotid-shaped clot shells for the trough transitions « 2.Kern tube shaft according to item 1, characterized in that it is preferably provided with geometrically shaped concrete Exzenterpaßstücken of Figure 4, which have outwardly and inwardly Splash for attachment and inside a support ring for the storage of Gerinneschalen possesses.Die Exzenterpaßstücke have openings different Nominal diameters corresponding to the nominal pipe sizes of the pipes to be connected. The center points of the base circle of the eccentric fitting and the pipe connection flange have offset center points _s so that a height adjustment of the pipes takes place by rotation of the eccentric fitting. The planers are shaped in such a way that, using rolling-rubber sealing. and tapered rings of Figure 6, there is a flexible connection and a watertight connection. " 3.Kern tube shaft according to item 1, characterized in that in the upstream pipe, preferred nominal width MW 1i2oo mm, each of the channel shell of Figure 5 »having a clotoid-shaped mold, a composite cross section, preferably semi-circle and rectangle has housed and on the concrete bearing ring of the eccentric fitting of Figure 4 rests and concrete mounting Zwischenauflagerstücke has * 4.Kern tube shaft according to item 1, characterized in that the channel shells on specially shaped concrete mounting fittings of Figure 6 in two embodiments, form 1 and. 2 with different heights h and hp with staggered channel storage , , '' 8th ' . '''^; Axis a * urid a ", as mounting elements with an outer, constant base circle and depending on the nominal diameter, differently shaped bearing circle with upper flattening, are made. In addition 8 sheets drawings