RU2490468C1 - Mechanised coupling support - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: mechanised coupling support comprises inner and outer sections with longitudinal beams, front and rear hydraulic stands, a base and a shifting mechanism. On the outer section there are axles installed with rotary rollers, and under them, on the longitudinal beam of the inner section there are support ledges. The longitudinal beam of the inner section comprises three hingedly connected parts. The shifting mechanism comprises two hydraulic cylinders with installation in the upper part of the coupling support at sides of the outer and inner sections. Hydraulic stands on the outer section are fixed with cylinders upwards with rocking compensators from spring steel bars.

EFFECT: simplified mechanism and method of coupling support shifting, increased level of safety when operating with a coupling support.

3 cl, 7 dwg

Description

The invention relates to the mining industry, namely to mechanized supports installed on the interface of the working faces with adjacent workings

Known mechanized support mounts (patent of the Russian Federation No. 2141031, IPC E21D 23/00, E21D 11/36, 1996), including two paired section frames containing tops, hydraulic stands with articulated supports, bases, one of which has a table with a movement mechanism in height and with the possibility of rotation around the horizontal axis and lateral movement relative to the base of the lining of the drive of the main conveyor.

However, the specified support lining requires moving the support manually reinstalling and fastening the moving hydraulic cylinder, which requires time, and when moving the lining with a drag on weak, flooded soils, the lining with the drive of the main conveyor installed on it is drowned in the soil, making it difficult to turn the lining when moving, which leads to unproductive costs of working time and reduce the load on the face.

The closest in technical essence and the achieved result to the proposed support lining is the support lining. (RF patent No. 2061869, IPC E21D 11/36, 1996) adopted for the prototype and including interconnected internal and external sections of the moving jack, containing longitudinal beams connected to the front and rear hydraulic pillars, a platform for installing the main conveyor drive, connected with reason. The support is provided with a holding hydraulic cylinder, one end pivotally mounted on the outer section of the support, the second end pivotally mounted on the bracket of the body of the drive of the main conveyor

The disadvantages of the described design are:

a) Limited use when working in flooded drifts with weak soil, since when moving there is a drowning (“smelling”) of the base of the support lining with the lava conveyor drive installed on it, which has a large mass, into the soil of the drift, which makes it difficult to move and rotate the support when moving, increasing the time of movement of the lining with a decrease in the load on the face.

b) The large length of the longitudinal beam of the inner section, due to the dimensions of the drive of the laval conveyor and the existing design of the mate support, does not allow for a snug fit of the longitudinal beam to the roof of the drift, which often has a greater curvature, which reduces the reliability of the retention of the roof of the drift and the stability of the mate support during expansion in drift. Also, the large length of the longitudinal beam of the inner section does not allow to efficiently rotate the lining in the direction of travel, complicates its delivery to the place of installation of the lining of the interface.

c) Three hydraulic cylinders are involved in moving the support lining with adjusting the direction of movement, which complicates the management of the support, and one of the hydraulic cylinders is located near the drift soil, connecting the base and the supporting heel of the hydraulic stand, which creates a high probability of breakage (bending) of the hydraulic cylinder rod when the hydraulic struts expand.

d) The human factor in ensuring safety when working with the support lining is not excluded. it is possible to create an emergency in case of withdrawal, in the inattention of the staff, of the longitudinal beams of the side section from contact with the longitudinal beam of the inner section along the lateral bounding surfaces (with the reduction of the hydraulic struts of the outer section) due to the absence of a mechanism that excludes the creation of an emergency.

The objective of the invention is the creation of the construction of the support lining providing free movement of the drive of the main conveyor in any state of drift soil by fully or partially lifting the base of the support of the mate with the table and the drive of the main conveyor above the ground of the drift when moving the support lining, more reliable support of the roof of the drifts due to the use of longitudinal beams of the inner section consisting of three parts, interconnected by limited movable hinges, allowing more complete lay the curvilinear roof of the drifts during expansion, with the exception of the design of the lining for pairing long beams complicating their delivery to the installation site and back, simplifying the mechanism and method of moving the lining of the pair with the placement of the hydraulic cylinders of the slide in the upper part of the lining of the pair, where the likelihood of damage is minimal, combined in hydraulic cylinders the functions of moving and changing the direction of movement of the support lining; increasing the level of security when working with the support lining by eliminating the possibility of withdrawal from the mutual contact of the inner section and the outer section due to the carelessness of the staff.

The problem is solved in that in the device of a mechanized lining for conjugation containing movable jacks interconnected by an inner and outer section, containing longitudinal beams connected with front and rear hydro pillars, a base connected by hydro pillars to the outer section, a mechanism for moving the clamp lining, according to the proposed solution axles with rotating rollers are mounted to the longitudinal beams of the outer section, and on the longitudinal beam of the inner section, on the travel sections of the rollers of the outer section, The supporting protrusions on which the rollers rest are supported during the cycle of moving the outer section with the base raised above the drift soil and the lava conveyor drive mounted on it, while the longitudinal beam of the inner section is made up of three parts with hinges that are limitedly movable in the vertical and horizontal planes.

Also, the mechanism for moving the support lining consists of two separately controlled hydraulic cylinders pivotally mounted in the upper part of the support lining on the brackets mounted on the sides of the longitudinal beams of the outer and inner sections.

Also, hydraulic struts connecting the outer section and the base are installed on the outer section with cylinders upward limited movably with swing stabilizers in the form of rods made of spring steel, fixed at one end in clamps mounted on the cylinders of the hydraulic struts, and the other end mounted in the jacks of the outer section with axial movement.

The causal relationship between the set of essential features of the claimed invention and the achieved technical result is as follows:

Installation of axles with rotating rollers on the outer section and execution of longitudinal protrusions on the longitudinal beam of the inner section of the longitudinal projection length of the hydraulic cylinders of the sliding support lugs makes it possible to lift and move the base of the supporting lug with the lava conveyor drive mounted on it when moving the supporting lug with full or partial separation of the base from the drift soil. Also, the presence of rollers and protrusions eliminates the accidental withdrawal of sections from mutual contact, which increases the level of safety when working with a support bracket.

Performing a longitudinal beam of the inner section of three, approximately equal in length, parts interconnected by hinges that are limitedly movable in the vertical and horizontal planes, provides a more snug fit of the beam to the roof of the drift with increased stability of the lining, reduces the radius of rotation of the lining when moving, simplifies the delivery of lining to the place of installation.

The installation of two separately controlled hydraulic cylinders with their hinged fastening on the brackets of the outer and inner sections mounted on the sides of the longitudinal beams provides the possibility of combining the operations of moving and controlling the support of the lining, simplifies the design and control of the lining with the placement of the hydraulic cylinders in the upper part of the lining, where the possibility of damage is minimal.

The installation of hydraulic struts connecting the side section and the base with the cylinders upward, with their elastic fixation in a position perpendicular to the lower plane of the beams of the outer section, provides a smooth, visually controlled movement of the support base with movements of the base conveyor mounted on it, when moving the support lugs, ensures the distribution of the horizontal movement of the base support on two hydroracks for ensuring a necessary margin of their durability.

The invention is illustrated by drawings.

Figure 1 shows a General view of the mechanized lining pair, (view from the side of the lava); figure 2 is a view of the lining of the pair from above; figure 3 is a view And on the lining of the pair on the side of figure 1; figure 4 - beam - spacer of the longitudinal beam of the inner section; figure 5 - end beam of the longitudinal beam of the inner section; figure 6 is a cross-section BB on the articulation of the beams of the inner section of figure 1; in Fig.7 - a clamp for attaching rods of spring steel, mounted on a hydraulic pillar connecting the outer section and the base of the lining interface.

The mechanized support lining consists of two alternately movable blocks: the inner section 1 and the outer section 2, connected through a hydraulic stand 3 to the base 4 with the drive of the main conveyor 5 mounted on it.

The longitudinal beam of the inner section 1 consists of three parts: end beams 6 and 7, having support ledges from the bottom on the sides, and beams - spacers 8, interconnected by joints hinged with limited mobility in the vertical and horizontal planes using axes 9 (Fig. 6) . On the end beams 6 and 7, the hydraulic struts 10 are movably fixed with the supporting heels 11. On the end beam 7 of the inner section 1, brackets 12 are installed for connecting the hydraulic cylinders of the movable support 13. The installation is controlled when the strut 10 is located in the most dangerous rear, obstructed zone of the support lining is carried out by a hydraulic cylinder 14, mounted on a hydraulic stand with a clamp 15.

The outer section 2 consists of two longitudinal beams 18, interconnected by a sheet 16 and fastening elements 17 of the hydraulic struts. On the sides of the outer section 2, brackets 19 are mounted for attaching the hydraulic cylinders of the sliding 13 of the support lining. On the longitudinal beams 18 there are four sockets 20, for mounting the axles 21 with the rollers 22 mounted on them. Also around the hydraulic posts 3 at the places of their installation with the cylinders upward on the outer section 2 there are sockets 23 for fixing the ends of the spring rods 24, with the possibility of their axial movement, and fixed through the clamps 25 (Fig. 7) on the water stands 3 and elastically holding the water columns 3 in a vertical position relative to the lower plane of the outer section 2. In addition, brackets 26 with swivels for cr captivity cylinders 27, intended to be connected to the drive housing face conveyor 5 also swivels and through the brackets, with the hydraulic cylinders 27 provide installation support frame in a vertical position, as well as insurance against inadvertent tilting laterally.

On the base 4, a table 28 is installed with the drive of the lava conveyor 5.

The outer 2 and the inner sections 1 are interconnected by the hydraulic cylinders of the slide 13 through the swivels using the brackets 12 on the front of the inner section 1 and the brackets 19 on the sides of the outer section 2. The hydraulic cylinders of the slide 13 have separate hydraulic control to ensure the rotation of the lining using the gaps between the outer 2 and the inner 1 sections and backlash in the hinge joints of the parts of the inner section 1 during the cycles of moving the lining in the drift.

Mechanized support supports works as follows:

- to move the mechanized lining of the pair, first remove the spacer on the hydraulic pillars 3 of the inner section 1, which, dropping down, lies with the lower planes of the end beams 6, 7 and the spacer beam 8 on the sheet 16 connecting the longitudinal beams 18 of the outer section 2. Supports 11 of the hydraulic struts 10 at this rise above the drift soil. By applying pressure to the hydraulic cylinders of the slide 13, the inner section 1 moves forward by the stroke length of the hydraulic cylinders of the slide 13, while it is possible to change the direction of movement due to the separate supply of pressure to both hydraulic cylinders of the slide 13, when the longitudinal beam of the inner section 1, bending due to gaps in its articulated joints parts 6, 7 and 8, rotates in one direction or another in the direction of travel changing the direction of movement of the lining. At the end of the stroke of the inner section 1, it is spreaded in the drift using the hydraulic struts 10. At the same time, due to the limited movable connection of parts 6, 7 and 8 of the longitudinal beam of the inner section 1, it, bending bent in hinges in a vertical plane, is tightly pressed to the roof of the drift, monitors its irregularities, thereby achieving reliable roof fastening and the stability of the support lining. The end beams 6, 7 of the longitudinal beam of the inner section 1 have an increased width of the upper sheets to provide the necessary support area when the end beams 6, 7 are bent downward relative to the spacer beam 8 in the places of drifts with a domed roof shape.

- then the strut is removed from the hydraulic struts 3 of the outer section 2. Lowering, it with its rollers 22 rests on the lateral protrusions of the end beams 6 and 7 of the longitudinal beam of the inner section 1, expanded by the drift, by further reducing the hydraulic struts 3 of the outer section 2, the base 4 with the main drive installed on it conveyor 5 rises above the soil level and applying pressure to the hydraulic cylinders of the shift 13 moves along the course of the treatment plant. In this case, the outer section 2 is rolled by rollers 22 along the lateral protrusions of the end beams 6 and 7 of the extended longitudinal beam of the inner section 1. After the end of the movement, the outer section 2 is stretched to the roof of the drift. The sweep cycle is complete.

A limited bend along the hinge joints of the longitudinal beam of the inner section 1 in a vertical plane provides a ledge 29 offset from the axis of the hinge 9 and a protrusion 30 (FIG. 4) on the spacer beam 8, which, when bent along the hinge joints of the longitudinal beam of the inner section 1 in a vertical plane in one side or another, in contact with the corresponding planes on the end beams 6 and 7 of the longitudinal beam, limiting the bending of the longitudinal beam of the inner section 1 and perceiving the rock pressure on the support lining.

The smooth movement of the base 4 with the lava conveyor drive 5 mounted on it is ensured by rods 24 fixed to the clamps 25 using studs or other elements. The spring rods 24 are attached at one end in the holes of the clamp 25 (Fig. 7), with the other end freely mounted in the corresponding sockets 23 of the outer section 2 with the possibility of axial movement of the end of the spring rod during bending. In this case, the spring rods 24 elastically hold the hydraulic columns 3 in a vertical position, distributing between them the horizontal movement force of the base 4 with the drive of the main conveyor 5. To ensure safety, the support lining has a hydraulic lock from the simultaneous reduction of all four hydraulic columns 3 and 10 and, as a result, losses contact lining mates with the roof of the drift with the loss of stability lining mates. In this case, it is possible to work only in pairs of hydroracks 3 of the inner section 1, or hydroracks 10 of the outer section 2.

Claims (3)

1. Mechanized support brackets, including interconnected jacks for moving the inner and outer sections, containing longitudinal beams associated with front and rear hydraulic pillars, a base connected by hydro pillars to the outer section, a mechanism for moving the roof braces for coupling, characterized in that on the longitudinal beams of the outer section axles with rotating rollers are installed, and on the longitudinal beam of the inner section, on the travel sections of the rollers of the outer section, support projections are made on which the rollers are supported during the cycle eredvizhki outer section with a raised above ground drift base and mounted thereon a drive face conveyor, wherein the longitudinal beam section is formed inside of the three component parts with a compound of pieces limitedly movable in the vertical and horizontal joints. 2. The support according to claim 1, characterized in that the mechanism for moving the support supports consists of two separately controlled hydraulic cylinders pivotally mounted in the upper part of the support support on brackets mounted on the sides of the longitudinal beams of the outer and inner sections. 3. The support according to claim 1, characterized in that the hydraulic struts connecting the outer section and the base are mounted on the outer section with cylinders upwardly movably with swing stabilizers in the form of spring steel rods fixed at one end in clamps mounted on the hydraulic strut cylinders, and the second end mounted in the nests of the outer section with the possibility of axial movement.

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