RU2171378C1 - Method of construction of mine shaft from monolithic pressed concrete - Google Patents

Abstract

FIELD: underground construction; applicable in construction of mine shafts with embedded members and various types of equipment located in them. SUBSTANCE: method includes excavation of ground in face zone, installation of sliding forms with conical bell, supply of concrete mix to space beyond the forms; concreting of section of mine shaft with formation of steps on internal walls of shaft and subsequent advance of forms. After each cycle of concreting, forms members with shaping cylindrical shell and conical bell are installed. Length of bell conical part is larger than length of conical part of bell of previous member of forms. EFFECT: simplified technology of construction of mine shafts with internal cylindrical step-shaped walls. 5 dwg

Description

 The invention relates to the field of underground construction, namely, to methods for constructing mine shafts and can be used in the construction of mine shafts with embedded elements and various types of equipment inside them.

 A known method of erecting lining during the sinking of trunks, including the formation of the bottomhole space, the installation of formwork and concreting lining (AS USSR N 1271973, class E 21 D 1/08, 11/23/86).

 The disadvantage of this technical solution is that it does not allow the construction of a shaft shaft with internal stepped cylindrical walls, necessary for installation of equipment and placement of embedded metal elements.

 The closest technical solution for the totality of essential features in relation to the proposed method is a method of constructing vertical shaft shafts, including sampling soil in the near-well zone, installing movable formwork, supplying concrete to the formwork space, followed by moving the formwork and concreting the shaft section of the shaft (RF patent RF N 2055207, class E 21 D 5/04, 02.27.1996).

 The method described in this patent allows, by concreting a certain part of the barrel with overlapping concrete of adjacent approaches, to obtain internal ledges along the entire perimeter of the cross section of the barrel. The disadvantage of this method is the complex technology of creating stepped walls, due to the need to obtain certain aspect ratios of the formwork and its specific placement relative to previous casts.

 The problem to which the claimed invention is directed, is to simplify the technology of construction of a shaft shaft with internal cylindrical stepped walls.

 The problem is solved due to the fact that in the method of erecting a mine shaft from monolithic-pressed concrete, including sampling soil in the bottomhole zone, installing movable formwork, supplying concrete to the formwork space, followed by moving the formwork and concreting the shaft section after each concreting cycle formwork elements with a forming cylindrical shell and a conical bell are installed, while the length of the conical part of the bell is greater than the length of the conical part of the bell before duschih formwork elements.

 In FIG. 1 shows a General view of the device for implementing the proposed method for the construction of a shaft shaft from cast-pressed concrete.

 In FIG. 2-5 shows a node A illustrating a method of erecting a shaft shaft.

 The method is carried out using a device that contains a tunneling shield 1 with a rotary mechanism 2 for soil sampling, hydraulic jacks 3 are placed inside the shield body for moving the tunneling shield and pressing the concrete mixture with a press ring 4, hydraulic jacks 5 for moving the formwork elements 6 and 7. Element 7 consists of a forming shell 8 and a conical socket 9 or a cylindrical shell 10.

 The method of construction of a shaft shaft is as follows.

In the initial period of erection after soil sampling by the rotary mechanism 2 and installation of the formwork element in the form of a cylindrical shell 10 (Fig. 2), the tunneling shield 1 is moved while pressing the concrete mixture previously fed into the formwork space and the formwork element 6 is moved using jacks 5. After the first concreting cycle, instead of the formwork element 10, the formwork element is installed in the form of a forming cylindrical shell and a conical socket 9, while the length of the conical part minute longer than the length of the socket conical portion flared previous formwork elements, i.e. L ₁ <L ₂ <L ₃ , etc., and the angle of inclination of the conical section of all formwork elements is the same.

The inner diameter of the shaft when performing these operations, respectively, is D ₁ , D ₂ and D ₃ .

 The number of formwork elements 7 with different lengths of the conical part of the socket is determined by the required number of stepped cylindrical walls.

 Using this method allows to simplify the process of erection of a shaft shaft with cylindrical steps on the inner walls of the barrel.

Claims (1)

 A method of erecting a mine shaft from cast-pressed concrete, including soil sampling in the near-wellbore zone, installing a movable formwork with a conical socket, supplying concrete mixture to the formwork space, concreting a shaft section with the formation of steps on the inner walls of the shaft and subsequent movement of the formwork, characterized in that after each concreting cycle, formwork elements with a forming cylindrical shell and a conical bell are installed, while the length of the conical part of the bell and more than the length of the conical part of the socket of the previous element of the formwork.

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