CS254893B1 - Method of casing demolition with reinforced concrete towers of rotary hyperboloid form - Google Patents

Abstract

The present invention relates to a method of demolishing a jacket reinforced concrete towers of a rotating hyperboloid shape blasting technique. The essence of the solution is the division of the bottom of the tower, into 45 to 50% of the ground height, separated on the ring apart by horizontal annular destructive multiline cuts The height is chosen so that the upper inner diameter the lower ring was larger than the bottom the outer diameter of the higher ring. Destructive a cut between the top ring and the top The tower is formed beforehand by attenuating the shell towers o 50 í. The blast timing sequence is executed from the bottom of the structure upwards. When blasting, a telescoping dream occurs the annular parts of the tower and the upper part into yourself, taking the kinetic energy of falling causes the tower to disengage towards the vertical axis of the tower sheaths for parts suitable for loading and unloading by conventional means of mechanization a these remnants are concentrated on the floor plan towers.

Description

The invention solves a method of demolition of a shell of reinforced concrete towers in the form of rotary hyperboloid by blasting.

The prior art methods of blasting reinforced concrete towers in the form of rotary hyperboloids consist in overturning the structure, which is achieved by firing a sufficiently large wedge in the lower part of the tower shell, or by firing a wedge in the middle of the tower. In both cases, after blasting, a large unattached residue remains, which must be additionally detached by further blasting or mechanically. In addition, there is a risk that the unlinked part of the tower structure will receive a bias, which cannot be specified in more detail and which can make further disassembly very complicated.

These disadvantages of the prior art methods of blasting towers are solved by the method of blasting according to the invention. It consists in dividing the lower part of the tower (up to 45 to 50% of the height from the ground) evenly into yodorous rings, which are separated from each other by horizontal annular destructive multi-row cuts, the height of which is chosen so that was larger than the lower outer φ of the higher ring. The destructive cut between the uppermost ring and the top of the tower is made by pre-weakening the tower shell by 50% of the openings, with the blast timing sequence being carried out from the bottom of the tower structure (supporting columns) upwards.

An advantage of the blasting method of the towers according to the invention is that the annular parts and the upper part of the tower dd are telescopically retracted, the kinetic energy of the structure falling down in the direction of the vertical axis of the tower disconnecting the shell of the structure on its plan. After blasting, the bottom ring remains on the ground in its entirety and inside it the entire remaining part of the tower disconnected into small parts. This allows the use of this method of blasting in a place where there is not enough space around the tower. (The lower ring can be detached if necessary as part of the blast of the tower, but there will be some scattering of the parts of the reinforced concrete structure.) The main advantage of the invention is that after blasting the structure is detached so that it can be loaded and unloaded by conventional machinery.

In a particular apparatus of the demolition method according to the invention, a reinforced concrete tower of the shape of a rotating hyperboloid 60.5 m high, a base height of 40.6 m and a top base 25.0 m with a wall thickness varying from 33 cm at the bottom of the tower to 10 om at mid height. The tower was based on 64 pieces of reinforced concrete octagonal oblique columns. The height of the mantle above the terrain was 3.5 m and the tower was previously removed cooling system.

Procedure: 1. destructive cuts - a / in load-bearing columns, as vertical single-row) b / in the tower shell at a height of + 5.0 m to + 6.5 m, as a horizontal multi-row;

c / in the mantle of the tower at + 12,5 m to + 14,5 m, as a horizontal multi-row d / attenuation of the tower mantle by 50% on the + 25,0 m to 27,0 m dimension, created by 2,0 m relief holes times 2.0 m and leaving a 2.0 m wide pillar between the individual openings that were created by side charges.

2. drilling and preparatory work - were performed using hand drill hammers, 36 mm drill holes, from assembly platforms with a range of 20 m from the inside of the shell construction. The relief holes on the + 25.0 m to + 27.0 m dimension were created from the outside of the tower shell from an assembly platform within a range of 27 m. 5 m created symmetrically 4 rectangular holes with a width of 8 m. In the destructive cut on the dimension + 12.5 m to 14.5 m then symmetrically 2 rectangular holes with a width of 16 m. The holes were created to allow checking the steel reinforcement of the shell structure, its geometric shape. But they are not a precondition for a successful demolition according to the invention.

3. Blasting work - plastic blasting was used to charge individual boreholes, initiated by millisecond igniters with a delay of 23 ms. The timing was carried out as follows: Support columns - 1. °, destruction cut + 5.0 to 6.5 m - 2nd and 3rd °, destruction cut + 12.5 to 14.5 m - 4th to 6. °. / Timing sequence must always be maintained in the direction from the supporting columns upwards./

After the blast, the mantle of the tower was completely destroyed, only the lowest ring remained integral and formed a protective barrier against the debris rolling away from the tower. It was subsequently detached using explosives and mechanisms.

The invention can be used for destruction of reinforced concrete towers in the form of a rotary hyperboloid by blasting, especially if their demolition on the tower's own ground plan is desirable. The advantage is the complete destruction of the tower shell without major prestressed parts.

Claims (1)

A method of demolishing a rotary hyperboloid-shaped casing of reinforced concrete towers by means of blasting operations, characterized in that the lower part of the tower casing, up to 45 to 50% of the ground, is divided into horizontal rings which are separated from each other by annular horizontal distortions wherein the height of the destructive cut ring is selected such that the upper inner diameter of the lower ring is greater than the lower outer diameter of the higher ring and the destructive cut between the uppermost ring and the upper part of the tower is preformed by weakening the tower shell by 50%; from the bottom of the structure upwards.