RU2027012C1 - Section of timbering the cleansing powered mining complex - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: section of timbering the cleansing powered mining complex has a roof and a pedestal made with dowels and hinged between themselves with stands and with a hydraulic jack of progression. One of the jack ends is hinged on one of the supporting members, another end is hinged with another supporting member through an extensible fencing hinged with the roof and the pedestal. Still another end of the hydraulic jack of progression is attached to the extreme link of the fencing removed from another supporting member at a certain distance from the hinge connecting the stated extreme link with the supporting member. EFFECT: improved powered timberwork of the breakage stope. 7 dwg

Description

 The invention relates to mining, and in particular to means of mechanized fastening of mine workings.

 Known treatment mechanized complex, including a mining combine, mechanized lining with redundant movement of hydraulic jacks and downhole scraper conveyor, moved frontally.

 The disadvantages of this complex are the increased distance from the bottom to the front row of racks and the increased length of the front floor cantilever, due to the need to ensure reserve reservation to ensure minimum exposure of the roof over the combine. In addition, when moving a section with residual backwater due to friction of the moving section over two surfaces - along the soil and the roof - there are increased resistance to movement, eliminating the possibility of increasing the back pressure. The disadvantage of the complex is the deterioration of the passage for people and the impossibility of using it for very thin formations due to the location of the hydraulic jack in the passage zone, as well as the complexity of the design and the decrease in reliability in operation due to the need to use neighboring sections as supports.

 Closest to the proposed invention in technical essence and the achieved result is a lining section of the treatment mechanized complex, including a ceiling provided with spring spikes on the side of the supporting surface against backward movement in the form of longitudinal bent strips, and a base articulated between each other by hydraulic struts, consisting of blocking parts the enclosing mechanism with one degree of freedom, and also a hydraulic jack of movement. The section is equipped with a movable visor and two retractable longitudinal beams connected with the overlap and intended for fastening the exposed roof after the passage of the combine.

The disadvantages of this section are as follows:
increased distance from the bottom to the front row of racks after the visor is pulled out and poor maintenance of the bottom-hole roof strip;
the inability to extend the visor with a large residual back-up of the section due to the fact that the visor is sandwiched between the roof and the ceiling;
the impossibility of movement of the actual section with increased residual support due to increased resistance to movement due to friction of the section on two surfaces at the same time - on the soil and the visor that was previously extended;
deterioration of the passage for people and the inability to use with very thin formations due to the location of the hydraulic jack of movement in the passage zone;
the complexity of the design and lower reliability in operation due to the need to use as supports when moving adjacent sections.

 The aim of the invention is to ensure minimal exposure of the roof over the combine without reserving the travel of the hydraulic jack of movement, as well as improving the maintenance of the roof over the movable section by alternately moving the overlap and the base of the section with increased residual support.

 This goal is achieved by the fact that in the section of the lining of the cleaning mechanized complex, including a ceiling equipped with spring spikes from the side of the supporting surface against backward retreat in the form of longitudinal bent strips, and a base articulated between each other by hydraulic struts, consisting of a blocking blocking mechanism with one degree freedom, as well as a hydraulic jack of movement, the base is equipped with spring spikes, made similar to spikes of overlap, a hydraulic jack of movement connects the base or a cover with a link of a blocking enclosing mechanism attached to it, wherein the axis of the hydraulic jack of movement is located on the geometric shoulder relative to the hinge connecting the elements of the section to which the hydraulic jack of movement is attached.

 When using the proposed lining section, the fastening of the exposed roof immediately after the executive body of the mining combine is achieved without reserving the travel of the hydraulic jack of the section movement, which reduces the distance from the bottom to the front row of racks. In addition, it is possible to move the section with a large residual support.

 In FIG. 1 shows in the initial position the proposed lining section, side view, when performing a blocking enclosing mechanism in the form of a telescopic shield and attaching a hydraulic jack of movement to the base and bracket of the blocking enclosing mechanism; figure 2 and 3 - the same, with other options for mounting the hydraulic jack of movement to the enclosing mechanism; in FIG. 4 - the same, when performing the enclosing mechanism in the form of shields connected by a hinged rhombic multi-linker; figure 5 is the same, when performing the enclosing mechanism in the form of an articulated four-link and fastening the hydraulic jack of movement to the overlap; figure 6 - the proposed section of the lining, side view, after moving the floor; Fig.7 is a section aa in Fig.2.

 The lining section of the mechanized sewage treatment plant consists of a base 1 and a ceiling 2, connected by a hinged hydraulic struts 3, a block fence made of links and kinematically representing a mechanism 4 with one degree of freedom, and a hydraulic jack 5 of movement.

 Zavalny enclosing mechanism 4 links 6 and 7 by means of hinges 8 and 9 are connected respectively to the base 1 and the overlap 2.

 The movement jack 5 is attached to the base 1 and link 6 (Fig. 1-4,6) or to the overlap 2 and link 7 (Fig. 5), and the axis of the movement jack is located on the geometric arm L relative to the hinge 8 or 9 connecting the elements, to which it is attached. The distance L is selected from the condition of providing the force necessary to move the base and overlap in the presence of backwater in the hydraulic pillars.

 The base 1 and the overlap 2 are equipped with spring spikes 10 and 11, respectively, made in the form of longitudinal bent strips on their supporting surfaces and designed to prevent the overlap and base from moving backward when moving.

 In the initial position of the section in the lava, the base 1 and the conveyor are moved towards the bottom, the hydraulic stands 3 are tilted back, the front console of the ceiling 2 supporting the roof is at the bottom.

 Lava work is performed in the following sequence.

 The harvester (shown in dotted lines in Fig. 1), moving along the conveyor 12 along the lava, excavates the formation, breaking it off the roof by the front executive body.

 Fastening of the supplied roof is done by overlapping 2, which is relocated relative to the fixed base 1 in the presence of backwater in the hydraulic pillars 3 immediately after the outcrop formation. The movement is carried out by a hydraulic jack 5, turning the blocking enclosing mechanism 4 and the hydraulic stand 3 relative to the base 1 forward to the bottom in the position shown by the dotted line (Fig. 1-5). The step of moving a floor is equal to the capture value of the combine. The departure of the base 1 back is prevented by spring spikes 10 interacting with the soil.

 Moving to the bottom of the base 1 is made after moving away from the combine section. The base moves relative to the fixed floor 2 together with the conveyor 12 in the presence of backwater in the hydraulic pillars 3 (Fig.6). The movement is carried out by a hydraulic jack 5, turning the blocking enclosing mechanism 4 and the hydraulic stand 3 in the initial position (Fig.1-5). The departure of the overlap 2 from the bottom is prevented by spring spikes 11 interacting with the rocks of the roof.

 The proposed design, providing separate alternate movement of the overlap and the base, is more preferable than the known ones when creating roof supports moved with support, since the number of friction surfaces decreases when moving from two to one, and, therefore, overcome resistance is also reduced.

 The advantage of the proposed section is also the absence of the need for basing it when moving to neighboring sections, i.e. the release of the latter from the need to perceive force from the side of the movable section, which simplifies the construction of the lining and increases the reliability of its movement. In addition, the possibility of direct fastening of the roof immediately after the executive body of the combine allows you to expand the scope of the proposed lining on the layers with very unstable roofs. A serious advantage of the proposed section is also the improvement of the passage for people in connection with the removal of the hydraulic jack of movement from the passage zone and the possibility of creating supports for very thin layers.

Claims (1)

 FASTENING SECTION OF A CLEANING MECHANIZED COMPLEX, including a ceiling and base made with spikes and pivotally interconnected by struts and a hydraulic jack, one end of which is pivotally mounted on one of the supporting elements, and the other is pivotally connected to the other supporting element, characterized in that the other end a sliding jack is connected to another supporting element by means of a pivotally connected to the overlap and the base of the sliding guard, to the extreme link of which is remote from another supporting element, the other end is attached advancing hydraulic jack at a distance from the hinge joining said end member to the support member.

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