RU2093677C1 - Operating member of tunneling machine - Google Patents

Abstract

FIELD: mining machinery. SUBSTANCE: each arm of tunneling machine operating member is made up of two pivotally interconnected moving and stationary parts. Stationary parts are secured on housing of transfer reduction unit. Movable parts are connected with housing of transfer reduction unit by means of pivotally mounted hydraulic jacks and are located in parallel to axis of rotation of transfer reduction unit. Axes of hinges which connect parts of arm are located in parallel to axes of rotation of shafts of cutting disks. EFFECT: high efficiency. 3 dwg

Description

 The invention relates to mining equipment, in particular, to the mechanization of sinking and treatment.

 Known executive bodies of combines of the type "Karaganda-7/15" and "Ural-20KSA" [1, p. 58-68] containing the main rotation shaft, portable rotation carrier (transfer gear), handles, cutting discs and bumps. The disadvantage of these bodies is the impossibility of processing the entire cross-sectional area of the production of cutting discs. For this, the combine must have not only a borehole, but also an upper fender device and berm organs.

 Known executive body of the combine "Ural-10KSA" [[1, p. 59-77, which by technical solution is close to the proposal and is taken as a prototype. This planetary-disk organ includes a transfer gear, which is a carrier with two handles fixed to it on the sides, containing sequentially connected cylindrical gears and cutting discs mounted on the output shafts of the handles in one vertical plane perpendicular to the face plane and performing planetary motion relative to the axis rotation of the transfer gear. The disadvantage of the prototype is the inability to process the entire cross-sectional area of the output only by the cutting discs.

 The aim of the invention is to expand the operational capabilities of the executive body.

 This goal is achieved by the fact that in the executive body of a roadheader, including a transfer gear with a housing and a drive and two handles fixed to it on the sides, located symmetrically with respect to the rotation axis of the transfer gear and containing serially connected cylindrical gears and cutting discs mounted on the output shafts handles in one vertical plane perpendicular to the face plane, each handle is made of two articulated joints hydrochloric and stationary parts, wherein the fixed portions fixed to the housing of the dispensing gear, the movable portion connected to the body of the dispenser through the gearbox hydraulic jacks hinged and arranged parallel to the rotation axis of the dispensing gear and hinge axis of the handle parts of the compound are arranged parallel to the axes of rotation of the cutting disk shaft.

 The implementation of the handles are composite, with the possibility of turning the movable parts relatively motionless with the help of hydraulic jacks, significantly distinguishes the proposed design of the executive body from the known ones, which provides processing of the entire cross-sectional area of the mine without additional fenders.

 In FIG. 1 shows the location of the executive body of the combine in the transverse plane of the mine (view from the side of the combine for the face), FIG. 2 - the same, in the longitudinal plane of the working (side view of the organ), in FIG. 3 - the location of the dual Executive bodies of the combine in the passable development of a larger cross section (view from the side of the combine for the face), indicating the sections of the cross section of the working processed by the cutting discs of the executive bodies. The executive body of the tunneling machine includes a transfer gear 1 with a housing and a drive. On the case of the transfer gearbox 1, which is made to rotate at a portable speed relative to axis 2, the fixed parts 3 and 4 of the handles symmetrically located relative to axis 2 are rigidly fixed to the sides and contain cylindrical gears connected in series (not shown). The movable parts 5 and 6 of the handles are connected to the fixed parts 3 and 4 of the handles, with the possibility of turning them relative to the stationary parts 3 and 4 in hinges 7 and 8, the axes of which are parallel to the axis of rotation of the shafts of the cutting discs. The movable parts 5 and 6 of the handles are parallel to the axis 2 of the portable rotation of the transfer gear 1 and also contain serially connected spur gears, which are not shown in the drawings. The movable parts 5 and 6 of the handles are connected to the housing of the transfer gearbox 1 and, therefore, to the stationary parts 3 and 4 of the handles by means of articulated hydraulic jacks 9 and 10. On the output shafts 11 and 12 of the moving parts 5 and 6 of the handles, cutting disks 13 and 14 are installed, located in one vertical plane perpendicular to the face plane 15. The cutting discs 13 and 14 are made with the possibility of their rotation with the output shafts 11 and 12 with relative speed in opposite directions (see arrows in the drawings). The cutting tools of the disks 13 and 14 can be located both on their periphery (see Fig. 1 and 2), and from their end surfaces (not shown in the drawings). The circular cross-section of the excavation is limited by line 16. The areas (sections) of the cross-section of the excavation processed by the executive body near the soil in the drawings are indicated by 17 and 18. The vertical and horizontal axis of symmetry of the circular excavation are indicated by 19 and 20. The rock core formed in the central part of the development. The areas (sections) of the cross-section of the excavation processed by the executive body at the roof are indicated by 22. The reference numeral 23 indicates the possible oblique position of the processing lines of the production profile at its roof.

 The proposed planetary-disk executive body of a roadheader works as follows.

The cutting disks 13 and 14 with the tools, leaving their initial position, perform three types of movement: relative around the axes of their shafts 11 and 12, portable around the axis 2 of the transfer gearbox 1 and feeding to the face 15 along axis 2 (see arrows in Fig. 2 ) With such a movement of the tools of the cutting discs 13 and 14, the executive body cleaves the rock from the open face of the face in successive sections, and from the formed ledge (in the case of installing tools from the ends of the disks). As a result, with the initial location of the movable parts 5 and 6 of the handles parallel to the axis 2 of the transfer gear 2 and the inoperative hydraulic jacks 9 and 10, a round section of the working is formed, limited by line 16 (Fig. 1). If it is necessary to obtain a cross section in the form of an arched shape, the executive body additionally processes the areas (sections) 17 and 18 of the cross section located at the soil on each side of the vertical axis of symmetry 19 of the excavation. In this case, the cutting disk 14 with the movable part 6 of the handle and the hydraulic jack 10 remains in the initial position and processes the vaulted part of the cross-section of the development at its roof, and the cutting disk 13 with the movable part 5 of the handle, when the rod of the hydraulic jack 9 is extended, during the rotation of the transfer gear 1 around the axis 2 by 45 ^o , processes the right horizontal rectilinear part 17 of the face near the excavation soil (see the dotted image of the actuator when it is rotated 45 ^o from the vertical axis 19 of the excavation). In this case, in the case of a continuous supply of the actuator to the face 15 in the direction of the axis 2, another three rotary movements relative to the hinge 7 are added to the three noted movements of the cutting disc 13, due to the rotation of the movable part 5 of the handle relative to the stationary 3, and the stem extension speed hydraulic jack 9 and therefore the movable part of the rotation arm 5 with the cutting blade 13 is compatible with the speed of motion of the portable dispensing gear 1. At further rotation of the gear unit of the dispenser 1 from 45 ^o to 90 ^o from the axis 19, the rod r drodomkrata 9 extends in the cylinder, and the cutting blade 13 to the movable arm 5, returning to its original position, processes right vertical rectilinear part 17 at the bottom footwall. After the Executive body is rotated 90 ^{°, the} cutting disc 13 will take its initial position and in this position it further processes the vaulted part of the working section. The cutting disk 14 at this time, when the body rotates from the horizontal axis 20 of the excavation by 90 ^o towards the soil, it works in the control mode of its hydraulic jack 10 and, therefore, processes the left side 18 of the face near the soil of the excavation, and then processes its circular part sections. In this case, as well as for the cutting disk 13, during the rotation of the body by 45 ^{o the} hydraulic jack 10 is extended and the disk 14 processes the left vertical rectilinear part of the face 18 near the excavation soil, and then, during the further rotation of the organ from 45 ^o to 90 ^o from the axis 20, the rod of the hydraulic jack is inserted into the hydraulic cylinder and the left horizontal rectilinear part 18 of the face near the working soil is processed.

Therefore, each cutting disk with its hydraulic jack at an angle of rotation of the organ at 90 ^o processes its own Berm section of development near the soil, and at the rest of the angle of rotation of the organ at 270 ^o processes the round (cylindrical) part of the face. In principle, other cyclograms of the operation of the cutting disks 13 and 14 with hydraulic jacks 9 and 10 for processing the working bottom are possible. The initial arrangement of the moving parts 5 and 6 of the handles parallel to the axis 2 of rotation of the transfer gearbox 1 is the most rational, since it provides not only the complete processing of the Berm sections of the production cross section, but also the destruction of the core core 21 formed in the central part of the development.

 In the case of the formation of core 21, its destruction is carried out by periodically sliding the hydraulic jacks 9 and 10 by the full amount of their stroke so that the moving parts 5 and 6 of the handles deviate from the initial position, parallel to axis 2, in the direction to the production center only by a well-defined angle, and then return to their original position. However, the tools of the cutting discs 13 and 14 do not intersect with each other. With dual executive bodies on the combine, it is possible to obtain workings of a large cross section (see Fig. 3). But at the same time, it is necessary to process not only the Berm plots of sections 17 and 18 of the working section near its soil, but also the plots 22 at the roof. The processing of sections 22 of the working section at its roof (see also the dotted image of lines 23 in Fig. 3) is carried out by the cutting discs of the executive bodies according to the principle described above and to specific cyclograms of the operation of each disc with its own hydraulic jack. For example, in particular, one of the discs of each organ can operate in an unregulated mode of a closed hydraulic jack and process only the round (central) profile of the cross section of the mine, and the other disk in the mode of controlled hydraulic jack and the processing of Berm sections of the mine near its soil and roof.

 Thus, the proposed design extends the operational capabilities of the executive body of a roadheader, without requiring additional special cutting devices in the form of berm cutters, upper breaker drums, boreholes for face processing. The proposed solution also provides for the unification of the executive bodies of combines with handles, spacers and swept type.

Claims (1)

 An executive body of a roadheader, including a transfer gear with a housing and a drive and two handles fixed to it on the sides, located symmetrically with respect to the axis of rotation of the transfer gear and containing serially connected cylindrical gears and cutting discs mounted on the output shafts of the handles in one vertical plane perpendicular face planes, characterized in that, in order to expand operational capabilities, each handle is made of two hinges interconnected movable and fixed parts, while the fixed parts are fixed to the case of the transfer gear, the moving parts are connected to the case of the transfer gear by pivotally mounted hydraulic jacks and are parallel to the axis of rotation of the transfer gear, and the axis of the hinges of the parts of the handle are parallel to the axis of rotation of the shafts of the cutting discs .

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