DE3710302C1 - Cooling-tower structure, in particular for steam power stations - Google Patents

Abstract

Cooling-tower structure, in particular for steam power stations with cooling-water reservoir, trickling grid and trickling-grid supports. The cooling-water reservoir has a surrounding reservoir wall and a reservoir floor connected thereto. The trickling-grid supports penetrate the reservoir floor. The trickling-grid supports as well as the surrounding reservoir wall are connected in a settlement-free manner to load-carrying ground layers with the aid of deep foundation elements. The subsoil is anyway, however, in danger of settlement. The reservoir floor is mounted directly on the settlement-sensitive subsoil as well as connected with sealing means to the structural parts erected in a settlement-free manner. The reservoir floor is made of three layers of asphalt and consists of a lower bituminous support layer, an intermediate layer in the form of an asphalt mastic layer and a surface layer made of asphalt concrete. The structural parts erected in a settlement-free manner have, in the connection region of the reservoir floor as well as over a height which is greater by the settlement differences than the thickness of the reservoir floor, bevelled connecting concrete surfaces with an angle of bevel of 60 to 80@. The connecting concrete surfaces have in their lower region at least one longitudinally running positive shaping in the form of a recess which is a number of centimetres deep. <IMAGE>

Description

The invention relates generically to a cooling tower structure, in particular for steam power plants, with cooling water pools, trickle grate and trickle grate supports, wherein the cooling water pool has a comprehensive pool wall and a pool bottom connected to it, and the trickle grate supports penetrate the pool bottom, furthermore the trickle grate supports and the comprehensive pool wall using Deep foundation bodies are settled on load-bearing soil layers without settling, but the subsoil is otherwise at risk of settling and the bottom of the basin is placed directly on the subsidence-sensitive subsoil and connected with sealing agents to the settlement-free parts of the building. - The trickle pipe supports are spaced a few meters apart, e.g. B. on the one hand 5 and on the other hand 7 m, which leads to a large number of trickle grate supports in cooling water pools with a size of the pool bottom of, for example, 4000 m ² to 13 000 m ² , the arrangement of which in the edge region of the cooling water pool often becomes narrower.

In the generic cooling tower structure known from practice the pelvic sole is made of one layer as a reinforced concrete slab. they is concreted flat on the soil at risk of settlement and with watertight joint constructions on the settlement-free components closed. The reinforced concrete slab transfers the water load directly on the subsoil at risk of settlement, with the result that Diffe limits between the bottom of the pelvis and the deeper  Set settlement-free components. With extensive pool areas Depending on the nature of the soil, these ground deformations do not occur evenly. Trough-shaped depressions are often observed from Z. B. 10 cm depth with a diameter of up to 10 m. This one A reinforced concrete slab can only deal with irregular deformations Adjust crack formation. The formation of cracks bothers and can cause leaks trigger. Because of these shortcomings and difficulties, the Practice a different design, in which the pelvic sole is also is designed as a reinforced concrete slab, but in turn with deep green foundations without settling and monolithic with the angren components that are erected without settling, which is expensive is.

Works in road construction, sewer construction and similar construction tasks one with bituminous base layers and sealing layers of As phaltmastix. Measures known in this connection have to Eliminate the difficulties and shortcomings described at the beginning generic cooling towers contributed nothing and can do it without also not because the large number of trickle grate supports known measures are not transferable to cooling tower structures.

The invention has for its object in a generic Cooling tower structure to simplify the cooling water basin structurally and to be trained so that cracks and sealing problems no longer exist occur.

To achieve this object, the invention teaches that the pelvic floor from a un  tere bituminous base layer, an intermediate layer in the form of an As phaltmastix layer and a surface layer made of asphalt concrete stands that the settlement-free construction parts in the Anschlussbe range of the pelvic floor as well as a height that is expected around the the settlement differences is greater than the thickness of the pelvic floor corresponds to beveled connecting concrete surfaces with a bevel have angles of 60 to 80 ° to the horizontal, and that the An final concrete surfaces in their lower area at least one longitudinal blue Form-fitting training in the form of a depth of several centimeters Have deepening.

It is recommended to place one under the sole of the pelvis frost-proof sub-layer in the form of a gravel / grit / sand mixture to arrange. According to a preferred embodiment of the invention are between the three-layer pelvic floor and the connecting concrete Flat joint spaces arranged and this with a connecting asphalt shed mastic. According to a preferred embodiment of the invention are also the layers of the pelvic floor towards the joint spaces stepped and is the base layer to the pads thickened in cross-section, for example up to about twice the thickness. It is understood that the connecting concrete surfaces with usual, the connection improving roughening can.

There are several options within the scope of the invention further training and design. For cooling tower structures übli cher size has proven an embodiment, the ge indicates that the base layer has a thickness of at least 8 cm, the intermediate layer has a thickness of about 1 cm and the surfaces layer has a thickness that is equal to or less than the thickness  the base course. The intermediate layer is for the purpose of the invention moderately from a special asphalt mastic with 50 to 70% by weight stone powder, 15 to 18% by weight bitumen penetration 80 to 200, rest natural sand with a grain size greater than 0 to 2 mm. Even the An final asphalt mastic is according to the preferred embodiment of the inven Formation specially adjusted and from 22 to 28 wt .-% bitumen of Pe netration 200 to 300, 72 to 78 wt .-% fillers, for. B. in the form of Stone flour, built up.

The base course can easily be used like a road construction e.g. B. standardized bituminous base layer. The surface chenschicht is a common, e.g. B. also standardized, asphalt concrete layer, but preferably with additives, the grain size of Max. 11 mm is set.

The advantages achieved can be seen in the fact that a erfindungsge moderate cooling tower structure with a, compared to the known version tion form very simple cooling water basin is equipped, whereby in addition, the pelvic floor through cracking or sealing problems are no longer at risk.

In the following, the invention is based on only one embodiment Example illustrating the drawing explained in more detail. It shows in a schematic representation

Fig. 1 is a vertical section through a building according to the invention the cooling tower, fragmentary,

Fig. 2 is a plan view of the cooling water pool of the subject of Fig. 1,

Fig. 3 shows the enlarged section A from the object of Fig. 1,

Fig. 4 shows the further enlarged detail B from the object of Fig. 3,

Fig. 5 on the scale of Fig. 4 of the detail C from the object of FIG. 3.

The cooling tower structure shown in the figures is intended in particular for steam power plants. In addition to the cooling tower jacket 1 , the basic structure includes the components essential to the invention

• Cooling water basin 2 ,
• Trickle rust 3 and
• Trickle grate supports 4 .

The cooling water basin 2 has a comprehensive basin wall 5 and a pelvic floor 6 connected to it . The trickle grid supports 4 penetrate the pelvic floor 6 . The trickle grate supports 4 as well as the extensive pool wall 5 are founded with the help of deep foundation bodies 7 without settling on stable soil layers. In FIG. 3, such a deep foundation body 7 can be seen in the form of piles. The subsoil is otherwise at risk of settlement. The pelvic base 6 is set up directly on the subsidence 8 at risk of subsidence, and connected with sealing means 9 to the settlement-free construction parts 4, 5 .

In particular from FIGS. 4 and 5, it removes that the Beckensoh le 6 is made of three layers in asphalt construction. It consists of a lower bituminous sub-base 6 a, an intermediate layer 6b in the form of a bituminous layer and a surface layer 6 c of asphalt concrete. The settlement-free construction parts 4, 5 are provided in the connection area of the pelvic floor 6 and over a height that is greater by the settlement differences than the thickness of the pelvic floor 6 , with beveled connecting concrete surfaces 10 , the bevel angle between 60 and 80 ° to the horizontal can lie. At the final concrete surfaces 10 have in their lower area at least one longitudinal form-fitting formation in the form of a groove-shaped recess 11 which is a few centimeters deep. Under the pelvic floor 6 is in the embodiment and according to the preferred embodiment of the invention, a frost-proof sub-layer 12 in the form of a ballast / grit / sand mixture. Between the three-layer basin 6 and the connecting concrete surfaces 10 joint spaces are arranged. These are potted with the sealant, namely with connection asphaltmastix 9 . The layers 6 a , 6 b , 6 c of the pelvic floor 6 are stepped towards the joint space. It is not shown that the connecting concrete surfaces 10 can be roughened. The base layer 6 a thickens towards the connection concrete surfaces 10 by approximately a factor of 2.

In the embodiment and according to a preferred embodiment of he invention like the backing layer 6 a thickness of at least 8 cm, the intermediate layer 6b has a thickness of about 1 cm and the surface layer 6c has a thickness equal to or smaller than that of the base layer 6 a . - As already mentioned, the asphalt mastic is specially set for the intermediate layer 6 b and for filling the joint spaces. The base layer 6 a is built as usual in road construction. This also applies to the surface layer 6 c , the aggregates of which have a grain size of max. 11 mm.

In the cooling tower structure according to the invention, a combination of the measures described achieves that the pelvic base 6 bridges the stresses and deformations that occur without damage. The deformations can consist of subsidence differences of up to 10 cm between the deeper and therefore subsidence-free building parts 4, 5 and the sealing basin 6 , which, as mentioned, rests on the subsidence-prone subsoil 8 directly, although preferably with the interposition of a substructure 12 . Since the pelvic sole 6 is designed in three layers in asphalt construction, it reacts to pressure and bending stresses elastically, plastically or viscously, depending on the temperature, and with a self-healing effect in the event of cracks, should these occur in the event of sudden deformations. In tensile loads, the plastic component of the pelvic floor 6 can be neglected who because practically no frictional forces are activated in the mineral aggregate. In these cases there is an elastically viscous behavior in the pelvic floor 6 . It follows from the elastically viscous behavior that the pelvic floor 6 responds to tensile stress with relaxation - a time-dependent drop in tension with constant expansions. Otherwise, the settlement phenomena because of the described beveling of the connecting concrete surfaces 10 to volume reductions and thus in the connection area to stresses that increase the sealing pressure. The fact that the base layer 6 a is thickened towards the foot spaces increases the sealing security.

Claims (14)

1. cooling tower structure, especially for steam power plants, - with

• Cooling water basin,
• Trickle and
• Trickle grate supports,

the cooling water basin has a comprehensive basin wall and a pelvic floor connected to it and the trickle grate supports penetrate the pelvic floor; furthermore, the trickle pipe supports, like the comprehensive basin wall, are founded with the help of deep foundation bodies on load-bearing soil layers, but the subsoil is otherwise prone to settlement and the pelvic floor immediately is placed on the subsidence-sensitive subsoil and is connected with sealing means to the settlement-free parts of the building, characterized in that the pelvic floor ( 6 )

• from a lower bituminous base layer ( 6 a) ,
• an intermediate layer ( 6 b) in the form of an asphalt mastic layer
• and a surface layer ( 6 c) consists of asphalt soil,

that the settlement-free construction parts ( 4, 5 ) in the connecting area of the pelvic floor ( 6 ) and over a height that is greater by the settlement differences than it speaks the thickness of the pelvic floor ( 6 ) ent, beveled connecting concrete surfaces ( 10 ) with a Bevel angle of 60 to 80 ° to the horizontal and that the Anschlussbetonflä Chen ( 10 ) in its lower region at least one longitudinal shape final formation in the form of a several centimeters deep recess ( 11 ). 2. Cooling tower structure according to claim 1, characterized in that a frost-proof sub-layer ( 12 ) in the form of a ballast / grit / sand mixture is arranged under the bottom of the basin. 3. Cooling tower structure according to one of claims 1 or 2, characterized in that between the three-layer pelvic floor ( 6 ) and the connecting concrete surfaces ( 10 ) joint spaces are arranged and these are cast with a connecting asphalt mastic ( 9 ). 4. Cooling tower structure according to one of claims 1 to 3, characterized in that the layers ( 6 a , 6 b , 6 c) of the pelvic floor ( 6 ) are stepped towards the joint space. 5. Cooling tower structure according to one of claims 1 to 4, characterized in that the base layer ( 6 a) to the connecting concrete surfaces ( 10 ) is thickened in cross-section. 6. Cooling tower structure according to one of claims 1 to 5, characterized in that the support layer ( 6 a) a thickness of at least 8 cm, the intermediate layer ( 6 b) a thickness of about 1 cm and the surface layer ( 6 c) a thickness has the same or less than that of the base layer. 7. cooling tower structure according to one of claims 1 to 6, characterized in that the intermediate layer ( 6 b) from an asphalt mastic with

• 50 to 70% by weight stone powder,
• 15 to 18% by weight of bitumen of penetration 80 to 200,
• Rest natural sand with a grain size greater than 0 to 2 mm,

consists. 8. cooling tower structure according to one of claims 1 to 7, characterized in that the connection asphalt mastic ( 9 )

• 22 to 28% by weight of bitumen of penetration 200 to 300,
• 72 to 78 wt .-% fillers, e.g. B. stone flour,

consists. 9. cooling tower structure according to one of claims 1 to 8, characterized in that the base layer ( 6 a) is constructed like a bituminous base layer usual in road construction. 10. Cooling tower structure according to one of claims 1 to 9, characterized in that the surface layer ( 6 c) made of asphaltic concrete to a grain size of max. 11 mm.