DE2246125A1 - FORMWORK DEVICE FOR PACKING PIT DRAINING MATERIAL - Google Patents

Description

Patent attorneys Dipl.-Ing. F. Weickmänn,

Dipl.-Ing. H. Weickmänn, Dipl.-Phys. Dr. K. Fincke D1PL.-ING. F. A-Weickmann, Dipl.-Chem. B. Huber

8 MUNICH 86, DEN 2 2 A 6 1 2 5

PO Box 860 820

MÖHLSTRASSE 22, CALL NUMBER 48 3921/22

<983921/22>

THYSSEN (GREAT BRITAIN)

LIMITED, Bynea Industrial Estate,

Llanelly, Carmarthenshire, Wales

Formwork device for packing mine excavation material

The invention relates to a formwork device for packing of excavation material. Such packs are used in mining used to support hanging rock, to fill in stretches and seams.

In mining, in particular in coal mining, large amounts of waste material are produced underground, which in the decommissioned Parts of the pit can be accommodated by, for example packed along the tunnels or stretches or used to seal exploited parts of the mine. The excavation material can be mixed with a setting agent, "for example with cement, so that it turns out to be very concrete sets poor quality. The excavation material can, for example mixed with bentonite and water to form a pourable sludge that can be pumped to the point of use before being mixed with the setting agent is mixed. When the waste material is treated in this way, it is necessary to maintain it during to use formwork for setting. The task of

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finding is to create a formwork device, which is suitable for packing mine excavation material in a wide variety of arrangements.

A formwork device is used to solve this problem according to the invention characterized by an end wall, the height of which corresponds to the height of the pack to be formed, through side walls arranged on a bearing device near the side edges of the end wall and through at least one relative movement between the end wall and arranged between the end wall and the bearing device and hydraulic device generating storage device perpendicular to the bulkhead.

In such a formwork device, the side walls and the end wall form a formwork which is open on its rear side and into which the excavated material and a binding agent can be introduced. When the material has set sufficiently, the storage device can be moved in the forward direction away from the end wall by actuating the hydraulic device, whereby the side walls are likewise moved in the forward direction along the side surfaces of the packed material. During this process, the end wall rests on the front of the pack that has already been produced, the side walls protrude backwards beyond the already filled area and can still support the side surfaces of the pack even when moving forward. By mounting the bearing device at its now reached point, the hydraulic device may then be utilized for movement of the front wall in the forward direction between the side walls through, whereby a further region is formed, can be entered into which waste material together with a setting agent * With such

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Formwork device is the front of the formed Pack supports while the side walls are moved in the forward direction while providing similar support through the side walls, -when the end wall is in the forward direction is moved. When using a fast setting agent, this method enables the fast one Formation of cleat packs and cleat closures with very little manual activity.

An injection device is preferably located on at least one side wall arranged. When the sidewalls are moved in the forward direction, the injectors can be moved past the front wall, whereby the respective injection device is accessible and can be cleaned or serviced, the area of the debris itself not having to be accessible.

The side walls are preferably designed to be adjustable in height so that they can be adapted to the height of an IPloaes is possible into which the excavated material is to be poured. For this purpose, the side walls can also be operated hydraulically liftable extension plates' be fastened.

When the formwork device is gradually advanced, slab props arranged in front of it can be removed, which can then result in material subsidence. For this Basically, the height of the side walls is beveled downward in the direction of their side edge facing away from the end wall. In this way, the packing can and will take up the load of the ceiling of the seam arranged above it nevertheless still supported on their side surfaces. The end wall can, however, have the full height of the seam. To allow height changes, at least one hydraulically liftable extension plate can be attached to the front wall.

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be good. The length of the side walls can be divided into individual panels so that they can be easily assembled and can be taken apart and thus different lengths of the Seitenwänd.e are available. if the side walls consist of individual panels, these can be removed individually when a pack has been formed is, the end wall with its holding frame is still close to the pack. The front wall can do this ge ^ en the pack be moved to the side walls forward to move, then the front parts of the side walls can be removed by using the hydraulic device with the Storage device is actuated accordingly, then the side walls are reattached to it and this process repeated. Here, too, it is not necessary to get into the area of the packed waste material.

In a further development of the inventive concept, a method for packing mine excavation material is used a formwork device of the type described is provided, which is designed such that the excavated material mixed with a binding agent entered into the cavity formed by the end wall and the side walls that the side walls with a fixed end wall from the front of the packed waste material be moved approximately horizontally and that then the end wall with fixed side walls from the front of the packed waste material is moved approximately horizontally, so that a further cavity for the input of waste material mixed with setting agent is formed.

The invention is described below with reference to one of the figures illustrated embodiment described. Show it:

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Fig. 1 is a perspective view of a formwork device partly broken representation,

Figures 2 and 3 are front and side views of one in the assembly according to Fig * 1 provided front wall,

Fig. 4- a front view of the storage device,

Fig. 5 ″ to 10 are schematic representations of six consecutive Operating stages of the arrangement shown in FIG. 1 and

11 to 16 are schematic side views of the representations according to FIGS. 5 to 10.

In Figs. 1 to 4, the construction of a formwork device is shown, with the packs for accommodation can be formed from excavation material. This formwork device is used, for example, for education of packings that extend to the top surface of a seam of a pit and after settling and Remove the formwork to form permanent support for the ceiling.

The formwork device contains a storage device with three horizontal beams 10, 11, 12, one above the other are arranged and extend over the front of the formwork device. Behind the two ends of the top one Supports 10 are arranged on each side of the formwork device side supports 13. Every side carrier 13 is attached to two upright guide parts 14 and 15, which are each fastened to a side wall 16. A short element 17 is also fastened to each side wall and is fastened to one end of the carrier 11 in each case is. A lower bracket 18 is also attached to each end of the lowermost bracket 12. The lower girders 18 are arranged on the side walls and guided on runners 19, which are arranged on the bottom of the seam of the pit are.

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Each side wall 16 contains a vertical plate which stands on the runner 19 and the height of which is less than the minimum Ceiling height of the area in which the formwork device is used. On each side wall 16 is an extension plate 20 vertically movable in guides 14 and 15 arranged, including a hydraulic ram 21 is provided between the extension plate 20 and the runner 19 is attached. It enables an upward movement of the extension plate 20 towards the ceiling of the seam, so that the wall parts 16 and 20 form a side cladding for the area into which the excavated material is to be introduced is.

The front of the formwork device is formed by a vertical end wall 25, which has a horizontal Has main carrier 26 behind and about under the Carrier 11 is arranged · In Fig. 1 the carrier 11 is partial Shown broken in order to show the door 26, which is always located behind the carrier 11. The bearer 26 contributes at both ends, as shown in FIGS. 2 and 3 can be seen, horizontal rails 27, which are guided through horizontal slots 28 (FIG. 1) in the side winds 16 are. These rails 27 are each attached to the movable element 29 of a hydraulic ram 30, which is close to a side wall 16 on the outside. On each side wall is the cylinder of the respective one Press ram 30 · on the underside of a profile beam 31 attached, which is attached to the side wall 16. Furthermore, an upright frame member 32 is provided which carries the profile support 31 and is on the runner 19.

The front wall 25 has guide elements 33 on its front side, on which vertical extension plates 3 ¹ * are guided, each of which is actuated by a hydraulic ram 35. The main face plate 25 has a height

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which is less than the minimum height at which the formwork device is to be operated, the extension plates 34- allow an extension of the front wall up to the ceiling of the seam.

It can be seen that the formwork device described so far has a bearing frame with the front girders 10, 11, 12 has, which with the Seitenitfände 16 and their Extension plates 20 forms a common part. This shows the front wall arrangement as shown in FIGS. 2 and 3 is shown, movable by means of the ram 30.

The injection of material into the area within the formwork device takes place through an inlet opening 36 (Fig. 1).

The mode of operation of the shuttering device is as follows: When the end wall and the storage device are in the position shown in FIGS. 5 and 11, the excavated material is pumped through the inlet opening 36 into the area between the previously produced pack and the end wall. The waste material is preferably crushed or granular and mixed with sodium bentonite and water. A setting agent in the form of a cement or other setable material, along with water, is injected in a slurry-like form into the pipe leading to the inlet port 36. In a typical example, the setting agent consists of 30 % plaster of paris and 70% portland cement. Preferably a cement with a water-polyethylene oxide gel is used as the setting agent. This forms a low-quality cement in the area within the formwork device. When this material has set or partially set, the extension plates 34 and 20 of the face

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wall and the side walls by means of the devices 21 and 25 lowered, as shown in FIGS. 6 and 12 iet. the lateral pressing devices 30 are then actuated and move the storage device with the side walls 16 in the forward direction, the end wall 25 in the position shown in FIG. 7 and 13 is left in the position shown. During this Time, the end wall 25 carries the front of the pack, while the side walls 16 are moved. It should be noted that the sidewalls only move a short amount in the forward direction are moved and that while the side surfaces of the pack formed still through the side walls over the Remain supports beyond the area where the debris was last injected. This process can also then carried out when the material has only partially settled. The side extension plates 20 are then raised as shown in Figs. As soon as the last injected material is sufficient is set, the end wall 25 can then be moved in the forward direction, as shown in FIGS. The front extension plates 24 can thereby be raised as shown in Figs. 10 and 16, so that a new. Void results, entered in the excavation material can be.

The method and the device according to the invention can be used for the removal of spoil material in pits are formed, in which packings are formed, for example in depleted seams along the sides of a route be filled. It is also possible to build a support for ceilings that are the length of a wide one Route runs.

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Claims (8)

Patent claims e 1. Formwork device for packing mine waste material, characterized by an end wall (25) whose Height coincides with the height of the pack to be formed by being close to a storage device (10, 11, 17, 13, 19) the side edges of the end wall (25) arranged side walls (16) and by at least one between the end wall (25) and the bearing device (10, 11, 12, 13, 19) arranged, a relative movement between the end wall (25) and the bearing device (10, 11, 12, 13, 19) perpendicular to the Front wall (25) generating hydraulic device (30). 2. Formwork device according to claim 1, characterized in that that an injection device (36) is arranged on at least one side wall (16). 3. Formwork device according to claim 1 or 2, characterized characterized in that the side walls (16) are adjustable in height are. 4-. Formwork device according to one of the preceding Claims, characterized in that the sidewall β (16) are beveled downwards in their height in the direction of their side edge facing away from the end wall (25). 5. Formwork device according to one of the preceding claims, characterized in that on the side walls (16) hydraulically liftable extension plates (20) are attached. 6. Formwork device according to one of the preceding claims, characterized _t - that on the front 309813/0338 wall (25) at least one hydraulically liftable demand support plate (3 * 0 is attached. 7. Formwork device according to one of the preceding claims, characterized in that the cross winds (16) are divided into individual plates with regard to their lungs. 8. A method for packing mine excavation material using a formwork device constructed according to one of claims Λ to 7, characterized in that the excavation material mixed with a binding agent is entered into the cavity formed by the end wall and the side walls, that the side walls with a fixed end wall of the front of the packed waste material are moved approximately horizontally and that afterwards the front wall with steady cross winds is moved approximately horizontally away from the front of the packed waste material, so that a further cavity for the input of waste material mixed with binding agent is formed 309813/0338