SU602686A1 - Powered advancing shield - Google Patents

Description

one

The invention relates to mining, and is intended to be integrated with the mechanization and management of horizontal or inclined mine workings of circular cross section. It can be - used in operational excavation non-profiled mines with a short service life with displaced bottom in medium and heavy orno-geological conditions; , including at great depths when the fortress of the rocks being taken out is not above the average.

A tunneling shield is known, in front of which an actuator is mounted. In elastic cylinders overlapping the rest of the bottom and side of the body ij. However, such a tunnel shield is difficult to control, which is aggravated by the inability to promptly control the direction of the ongoing development, due to the lack of a visual overview of the mining and geological situation. This disadvantage limits the field of application of the device only in terms of capital 1 -filtered production.

The driving mechanization complex is also known, including an executive body mounted on a bed supported on fixed support with thrust hydraulic jacks, retractable visor, delivery mechanisms and installation of support blocks, a material handling platform with equipment 2j.

The disadvantage of this tunnel complex is poor controllability. In order to ensure the constancy of a given direction, the shield body is made long, which leads to significant rock pressure on it and, consequently, the need to use expensive iron concrete blocks or tubings as a permanent support, since the shields are repelled from the ends of the latter. However, such lining is justified only in capital development workings and tunnels.

The purpose of the invention is to improve the management of the complexes. This is achieved by the fact that the complex is provided with a downhole ring with temporary bands installed along its contour from the side of permanent support, control jacks through which the downhole ring is connected with the bed of the executive body, and the downhole fence with mounting jacks has been made of two enclosing chains with bends that pass through holes made in the downhole ring and connected to the mounting jacks.

FIG. 1 shows the proposed complex; and FIG. 2 is a schematic diagram of a downhole enclosure (section A-A in FIG. 1.),

The driving mechanized complex contains the executive body 1, including an internal auger for the development of the mining and loading of the rock mass, gearboxes and hydraulic drives of circular, axial and radial feeds. Before the executive body, a downhole ring 2 is installed separately from it, on which a sliding visor 3 is fixed with the possibility of longitudinal movement in its guides. The strips 4 are attached to the visor 3, temporary supports that serve to temporarily overlap the tank rocks, and they are distributed over the contour of the ring 2 from the side of the permanent support in such a way that it takes gaps free from the mutual contact of the permanent support with the rock. If necessary, temporary support bands can also be installed in the lower half of the bottomhole ring. Such an arrangement of the strips 4 prevents their pinching by rock pressure and ensures the free extension of the visor.

The downhole ring 2 is pivotally connected to the bed 5 of the executive body 1 by means of the chassis of the six jacks of movement and control, located in pairs on either side of the vertical and horizontal axes of the downhole ring. The bed 5 also includes four spacer jacks 7, and the two rear ones can be rotated in a horizontal plane. The base 5 rests on the two front skis directly and one rear support through two hydraulic jacks 8. Both the front and rear supports of the bed are located on the fixed support elements. Two hydraulic drives 9 are attached to the Stalins 5, which serve to extend the visor 3,

On the technological platform 10, there are hydraulic equipment, solar equipment, drainage equipment, dust suppression, lining delivery mechanisms, as well as supports for the material handling device 11, which delivers the rock mass from the vehicle to the transport facilities. To the bottom hole ring 2, the mechanisms for laying blocks of lining are attached, hydraulic jacks unclench the permanent support rings and the embryos of the castle block.

Inside the downhole ring 2 is mounted downhole fence 12. It consists of two symmetric-komplekto.gibky t g

13 and 14. One end of the string, for example,

14, the left set is attached to the round link chain 15. Chain 15, passing through the upper and lower holes in the right side of the bottom ring and then through the hole in the middle of the right side of the ring 2, comes out of it and attaches to the right hydraulic jack shaft 16, Preliminarily, a block is fastened at the end of the bar, which is rigidly connected to the cylinder of the hydraulic cylinder 16 and rests on the bed of the bed 5.

I

The other ends of the left com tract 14 are being passed through the ring 2 through the holes 17 in the left side of the ring to the flexible rod 18 that goes through the middle hole in the left side of the bottom hole and is attached directly to the rod of the left hydraulic jack 19 The cylinders of the assembly and dismantling hydraulic jacks 16 and 19 are hinged to the bottomhole ring 2, and the rods attached to them with blocks lie freely in the tides of the bed 5. The right set of flexible tg 13 is similarly made.

The operation of the comlex is carried out as follows.

After being removed by the screw-executive body 1 of the upper part, the visor 3 is advanced with the strips 4, by which the roof overlaps and the upper part of the new side extends in a new approach. Upon completion of the development, the executive body 1 is retracted 6 to the extreme rear position, and the downhole ring 2 by hydraulic jacks 6 moves to the bottom. During the development period, the bottom and sideways of the ring of the bed 5 are disassembled by hydraulic jacks 7 into lateral rocks, which prevents the bed from turning around the longitudinal axis and shifting it back. When the ring 2 is moved, the non-loaded part of the rock mass is collected in a niche removed by the auger ahead of the top of the bottom. At the same time hydraulic jacks 16 and 19 are mounted downhole fence 12 (in Fig. 2 given the position of the blocking of the bottom).

Claims (2)

Under the protection of the fencing, permanent support is erected with block-laying mechanisms. Then the hydraulic jacks 6 are pulled to the downhole ring 2 and the extender body 1 with the loader 11 to the tenological platform 10 with the clearing out of the hydraulic jacks 7. At the same time, the ring 2 abuts against the fixed support rings 6-10 points apart. Before excavating the next akhodka, the downhole fence 12 is retracted inside the ring 2. By extending the hydraulic jacks 16 and 19. When turning the workings in the plan or profile, the next stop is pulled out of the contour of the ring 2 in the direction of rotation of 5O-100 mm. Then, the downhole ring is placed: when it is moved at an angle to the longitudinal axis of the mine, turning it in the direction of rotation with hydraulic jacks 6. With the subsequent pushing of the bed 5, it is given a position perpendicular to the flatness of the downhole ring 2, which is achieved with the help of hydraulic jacks 6 to 8, With the direct movement of the complex, the rods of all hydraulic jacks 6 are moved by the same amount. The advantages of this complex in comparison with the shield are: mobile controllability of the complex in the profile and the production plan due to the possibility of free maneuvering the position of the ring and the body of the executive body when the latter is located on fixed support elements; cheaper operation of the complex due to a decrease in its mass and an effort to move due to the use of a downhole ring instead of a relatively long shield; the wider field of application of the complex in connection with the possibility of excavation workings in difficult conditions in the world; rocks, a sharp reduction in the cost of securing mining and improving the maneuverability of the complex; safety, work during the erection of lining or repair and reliable overlap of the bottom in an emergency; the reliability of the complex due to the simplification of the hydraulic and other equipment and the absence of a special loader are more qualitative and timely preparation of the clearing in difficult conditions in connection with the use of the perfect ring support to which the complex is oriented, which gives additional technical and economic benefits in the period of operation of the clearing complexes. Claim 1. Transitional mechanized complex, including an executive body, mounted on a frame, supported by permanent support with thrust hydraulic jacks, retractable visor, delivery mechanisms and installation of support blocks, material handling equipment, a platform with equipment, different in that control of the complex, it is equipped with a downhole ring with temporary support strips installed along its contour on the permanent support side, with control jacks through which the downhole ring is connected to the mill hydrochloric actuator body, and a mud guard to mounting jacks. 2. The complex according to claim 1, characterized in that the bottomhole guard is made of two enclosing circuits with flexible tags passing through openings made in the bottomhole ring and connected to the mounting jacks. Sources of information taken into account during the examination: 1. Author's certificate M 419626 cl. E 21 D 13/02, 1974. 2. Marshak S. A. and others. Construction of underground structures with tunneling shields. M., Nedra, 1967, p. 67-69.