RU75693U1 - SECTION OF MECHANIZED FASTENERS FOR UNDERGROUND MINING - Google Patents

Abstract

ESSAY

A section of mechanized roof support for underground mining is proposed, comprising a roof overlap, height-adjustable by means of a hinged-lever mechanism and hydraulic struts and resting on the base of the section, and a moving device located between the base of the section, connected to the production unit, which has a moving cylinder that moves lever mechanism with two guide rods and made in the form of a pusher-walker and having slots for guide rods of the cross member, and the guides tangi adapted to secure with at least one locking element which is intended for insertion into slots extending transversely to the locking hole. According to a utility model, a nozzle element for a cross member and / or pusher-walker with a protected passage for hydraulic wiring is detachably fixed or fixed on a moving device. According to a utility model, a nozzle element for a moving device of the claimed section of powered roof support is also proposed. The claimed devices provide reliable protection for hydraulic routing when moving the section of the shield mechanized lining, during maintenance work or from damage by broken rock, etc.

Description

2420-150368RU / 22

SECTION OF MECHANIZED FASTENERS FOR UNDERGROUND MINING

Description

The utility model relates to a section of powered roof support for underground mining, comprising a roof overlap, height-adjustable by means of a hinged-lever mechanism and hydraulic struts and resting on the base of the section, as well as a moving device located between the base of the section and attached to the production unit, which has a moving cylinder, a moving lever mechanism with two guide rods and made in the form of a pusher-walker and having slots for the guide rods across Inu, wherein the guide rods are preferably arranged to fix their front ends on the cross member or pusher-salable with at least one locking element which is intended for insertion into the sockets extending transversely to the locking hole.

A powered support section of the type in question with a pusher-walker fixedly positioned between the cross member and the transport stop is known from DE 42 07 471 C1. The applicant currently offers powered support sections, which provide the possibility of rearrangement for mounting the guide rods on the cross member, respectively, of the pusher-walker. In such sections of the shield mechanized lining in the cross-section, respectively, of the pusher-walker, several, in particular, three locking holes for each guide rod are provided to allow a certain variability when mounting the guide rods in the pusher-walker. The sections of the shield mechanized support of the applicant can be used with various mining installations. Other known pusher walkers have only one locking hole for the central locking segment for both guide rods.

The control of the movement of the shield panel support structure, such as the extension of the roof covering, the extension or retraction of the sliding cylinder or the raising of the section base while the section of the shield mechanical roof support is walking, is carried out by supplying hydraulic fluid to the racks or hydraulic cylinders. For supplying and discharging hydraulic fluid, high pressure supply pipelines and return pipelines were laid on the conveyor of the production unit, from which every tenth to fifteenth section of the shield mechanical support supports branching to the branching pipelines between the groups of sections of the shield mechanical support. This hydraulic wiring crosses the road in the pusher-walker area of the moving devices, and there is a potential risk of damage to the hydraulic wiring when moving the panel shield support, during maintenance work or broken rock, etc.

The objective of the utility model is to create a section of the shield mechanized roof support, in which this drawback is eliminated or reduced.

To solve this problem, a nozzle element for a cross member or pusher-walker with a protected passage for hydraulic wiring between the production unit and the corresponding section of the mechanized roof support is proposed to be fixed or fixed detachably on a moving device. Using a detachably connected nozzle according to a utility model, it is possible not only to provide a relatively easy way to protect the hydraulic route, but also to simultaneously maintain the availability of the hydraulic route without worthy mention of the reduction in free space in the driveway.

The nozzle element provided in accordance with the invention can be particularly preferably also mounted additionally on sections of power support, in which the cross member or pusher walker is provided with slats with several locking holes for different mounting positions of the guide rods. The sections of the mechanized roof support, respectively, of the section of the shield mechanized roof support as a protective device for hydraulic wiring, without the need to perform work to change the section of the shield mechanical support, can be easily equipped with a nozzle element. It is particularly preferable if the nozzle element is made with the possibility of fixing or fixed in the locking holes, which are already provided in such sections of the shield mechanized lining for variable fixing guide rods. However, detachable fastening having passages for hydraulic wiring of the nozzle elements can also be carried out in other places.

In a preferred embodiment, the nozzle element is made in the form of a U-shaped bathtub with a cover plate and two longitudinal side bridges extending at an angle to the cover plate, which limit at least partially open passage at the end faces of the bath. partially, preferably completely open end faces, the cover plate forms the upper side of the bath, and the width of the longitudinal side jumpers determines essentially the height of the protected passage and, therefore, max the smallest diameter of the hose for hydraulic wiring. It is understood that for various purposes of application, it is possible to change the width of the longitudinal side jumpers depending on the diameter of the hose used, and you can choose it larger or smaller.

For reliable locking, in particular of the tub-shaped nozzle element on the moving device, it is particularly preferred if the nozzle element is provided with pairs of locking trunnions. If the slide device has slats with several locking holes, the attachment element may also have several pairs of locking pins, even if under specific circumstances it may be sufficient to secure only one pair of locking pins in the corresponding locking holes in the moving device. The locking trunnions can be fixed, in particular, on the underside of the cover plate, the length of the locking trunnions being preferably chosen such that they extend beyond the edge edges of the longitudinal side jumpers of the bath. A corresponding embodiment ensures that the locking trunnions are fixed in the locking holes using additional locking elements, such as, for example, brackets, while the brackets can be pushed to the side under the longitudinal side jumpers of the nozzle element and across the locking holes in the cross or push rod. For this, the locking pins can be provided with a groove for the mounting bracket. With locking trunnions that are shorter than the longitudinal side jumpers, the locking brackets must pass through the longitudinal side jumpers.

In one preferred embodiment, the locking pins on the nozzle element can be made at the same time as the locking elements for the guide rods. For this, if necessary, it is sufficient to use relatively long locking trunnions, which can not only be inserted into the upper zone of the locking holes, but which, when inserted, also completely intersect the slots for the guide rods to secure the guide rods in the nests. It is understood that in this case as well, the locking trunnions can then be fixed in their locking position using a preferably U-shaped fixing bracket.

The aforementioned problem is also solved with the help of a nozzle for a movable device of a mechanized roof section, which according to a utility model has a cover plate and locking trunnions, is designed for detachable fastening on a movable device and, when mounted, forms a protected passage for hydraulic wiring between the production unit and the corresponding mechanized section hold on.

Other advantages and embodiments of the section of powered roof supports, respectively, of the nozzle element according to the utility model for such a section of powered roof supports follow from the following description of exemplary embodiments with reference to the accompanying drawings, which show:

FIG. 1 - section mechanized lining according to a utility model with a pusher-walker, nozzle and hydraulic wiring, side view;

FIG. 2 - vertical section of the pusher-walker with mounted nozzle element;

FIG. 3 is a first example of a nozzle with one pair of locking pins, in isometric view;

FIG. 4 is a vertical section of the pusher-walker sockets to illustrate the locking of the nozzle element with two pairs of locking pins; and

FIG. 5 - locking the nozzle element according to another exemplary embodiment, with two pairs of locking pins spaced apart from each other, in the view in accordance with FIG. four.

In FIG. 1, position 10 denotes the whole section of the shield mechanized lining for underground mining. Section 10 of the shield mechanized lining consists, as you know, essentially of the overlapping 1 of the roof pivotally connected to the overlapping of the roof of the block fence 2, two bases 3 of the section adjacent to each other, of which in FIG. 1 shows only the front base of the articulated link mechanism 4 with two pairs of levers 5, 6, which articulate the fence 2 with the base 3 of the section, as well as two hydraulic struts 7, which are pivotally connected at one end to one of the bases of the 3 sections, and at their other end with a roof overlap 1, they can be advanced and retracted by supplying hydraulic fluid to press the roof 1 to the roof or to release the walking mechanized roof support section 10 for the walking process. In addition, the mechanized roof support section 10 is provided with a generally designated moving device 8, which has a hydraulic cylinder not shown as a moving cylinder, which at its one end pivotally supports a clamp 9, which pivotally connects both the bases of the 3 sections and the rod the piston of which is connected to a relatively long crosspiece 11, the moving device 8 at its front end being connected to the transport stop 12 and has between the transport with the emphasis 12 and the cross member 11, a relatively flat pusher-walker 13. The cross-member 11 and the pusher-walker 13 can be made in one piece or consist of several elements, while the pusher-walker 13 can also extend beyond the area of the cross-member 11 to the stop for the rod moving cylinder.

In FIG. 2 shows a vertical section of the cross member 11, the pusher-walker 13 adjoins the rear end of the cross member. The cross member 11 is provided with two cylindrical sockets 14 extending along the length of the cross member 11 into which both guide rods 19 are pushed in (Figs. 4 and 5) depicted in detail moving lever mechanism. In the illustrated exemplary embodiment, the cross member 11 is provided with a latch 15 with locking holes 16 on top of each socket 14, while several pairs of locking holes 16 transverse to the sockets 14 extend across both the locking strips 15 and the sockets 14. Since there are several locking bars in the longitudinal direction of the cross member 11 holes 16, it is possible to set the distance between the abutment device 12 resting against the stop, respectively, the mining unit and the base 3 sections, respectively, of the clamp 9 due to ary locking position for the guide rails. In this case, the locking of the guide rods occurs in most cases with the help of powerful locking fingers that slide into the locking holes 16 from above and in the mounted state, i.e. when the guide rods 19 (Fig. 4) are pushed into the slots 14, pass through the transverse holes in the guide rods.

Hydraulic fluid is supplied to several sections of the shield mechanized lining in underground mining through hydraulic wiring 30 (Fig. 1), which connects the high pressure supply pipelines not shown, as well as return pipelines that are laid in the conveyor of the mining installation, to approximately every fifteen section of the shield mechanized lining to ensure the supply of hydraulic fluid from neighboring sections. In section 10 of the shield mechanized lining according to a utility model, a nozzle 20 is fixed on the upper side of the cross member 11, which in this case only in the partial area of the cross member 11, respectively, of the pusher-walker, provides the possibility of a secure routing 30.

The packing member 20 is in this case, as shown in particular in FIG. 3, from a thick, several times flanged steel sheet with a cover plate 21, as well as two longitudinal side bridges 22 bent at a right angle to it, while a pair of locking trunnions 24 are welded to the bottom side of the cover plate 21, the length of which is selected so that the free ends 26 of the locking pins 24 protrude beyond the edge edges 25 of the longitudinal side jumpers 22. The packing member 20 can, as shown in FIG. 2, push onto the upper side of the cross member 11 so that both locking trunnions 24 fit into two locking holes 16 of the locking strips 15, respectively, of the cross member 11. In this case, in the mounted state, the edge edges 25 of the longitudinal side jumpers 22 are adjacent to the upper sides of the locking strips 15 and the ends 26 of the locking pins 24 enter the locking holes 16 inside the locking strips 15 so deep that it is possible to push the U-shaped mounting brackets 37 into the corresponding transverse holes in the locking x slats and pass through the grooves 28 at the ends 26 of the locking pins to fix the nozzle 20 against separation from the cross member 11. With the mounted nozzle 20 between the upper side of the cross member 11, the lower side 23 of the cover plate 21, and also both longitudinal side jumpers 22 a space that can be used as a protected passage 29 for hydraulic wiring 30 (see FIG. 1), for a reliable and protected installation of hydraulic wiring between the production unit and sections of the powered roof support. At the same time, the nozzle element 20, by selecting suitable locking pins 24, can be mounted on almost all the movable devices of the shield mechanized roof support sections available in underground mining without additional measures being taken on the movable devices, in particular, on the cross members or passage bathtubs of the movable devices. The end faces of the bath-shaped nozzle 20 are open between the longitudinal side jumpers 22, so that several lines can also be laid in the hydraulic wiring passage 29. At the end ends of the cover plate 21 of the bath of the nozzle element 20, round rods 27 or the like are welded on both sides to provide a favorable radius of curvature for the mechanized roof support coming out of the passage side from the passage 29 with the wiring deviating upwards and eliminating damage to the hose shell due to edges, etc.

In FIG. 4 schematically shows an alternative embodiment of a bath-shaped nozzle 120, in which two pairs of locking trunnions 124 and 124 'are fixed on the underside of the cover plate 121. As shown schematically in FIG. 4, the front ends of the guide rods 19 are secured with locking fingers 18 to the rear locking holes 16 of the cross member 11, respectively of the pusher-walker, relative to the production unit, while both locking trunnions 124, 124 'enter both front locking holes of the cross member 11. The length of the locking pins 124 is selected so that the ends 126, respectively, 126 'of the locking pins 124, 124' although they enter the locking holes 16 inside the locking strips 15, but do not enter the slots 14 for the guide rods 19 in the cross member 11. Passage 129, also to As in the first exemplary embodiment, it is bounded laterally by longitudinal side jumpers 122, and on the open end sides of the cover plate 121, again, transverse round rods 127 are welded.

As shown in FIG. 5 of the third embodiment of the bath-shaped nozzle element 220 with a cover plate 221 and longitudinal side jumpers 222, the guide rods 19 are fixed in the rear locking holes 16 of the cross member 11. The nozzle element 220 also has a front pair of locking trunnions 224 on the lower side of the cover plate 221, which using fastening brackets are fixed in the locking strips of the cross member 11, and, in addition, the rear pair of locking trunnions 234, which in this case form simultaneously locking elements for securing the guide rails the tang 19 in the rear locking holes 16. For this, the locking pins 234 are much longer, in particular more than twice as long as the front locking pins 224, so that they not only pass through the locking bars 15, but also reach the bottom of the cross member 11 for entry into the transverse hole 19A near the front ends of the guide rods 19, whereby the guide rods 19 are fixed in the sockets 14.

For specialists in this field of technology from the above description, numerous modifications follow, which should all be included in the scope of protection of the attached formula of the utility model. It is clear that the width of the longitudinal side jumpers, the position and location of the locking pins may be different depending on the execution of the locking holes on the cross member or pusher-walker. If it is necessary to lay a hydraulic wiring with a large diameter of the hose, then nozzle elements can be used in which the width of the longitudinal side jumpers and the length of the trunnions are selected accordingly larger. The guide rods can be fixed in any way on the cross member or push rod, for example, also using a locking rod that passes through the slots and guide rods horizontally and in the transverse direction, or using a locking segment that sits in the central locking hole and fixes both guide rods in the locked position. If the crosspiece does not have locking holes for a variable installation of the guide rods, then the attachment of the nozzle element can be carried out using other locking means other than locking trunnions.

Claims (10)

1. Mechanized roof support section for underground mining, comprising a height-adjustable by means of a linkage mechanism (4) and hydraulic struts (7) and a roof overlap (1) resting on the base of the section and located between the bases (3) of the section, connected to mining device moving device (8), which has a moving cylinder, moving the lever mechanism with two guide rods (19) and made in the form of a pusher-walker (13) and having slots (14) for the guide rods cross, the connecting rods (19) are adapted to be fixed with at least one locking element, which is designed to be inserted into the locking hole (16) extending across the sockets (14), characterized in that it is detachably fixed or fixed on the moving device ( 8) a nozzle element (20; 120; 220) for the cross member (11) and / or pusher-walker (13) with a protected passage (29; 129; 229) for hydraulic wiring. 2. Mechanized roof support section according to claim 1, characterized in that the cross member (11) and / or pusher-walker are equipped with locking strips (15) with several locking holes (16) for various positions of fastening of the guide rods (19). 3. Section mechanized lining according to claim 1 or 2, characterized in that the nozzle element (20; 120; 220) is made with the possibility of fixing or fixed in a locking hole or locking holes (16). 4. The section of powered roof support according to claim 1, characterized in that the nozzle element (20; 120; 220) is made in the form of a U-shaped bath with a cover plate (21; 121; 221) and two longitudinal lateral ones passing at an angle to the cover plate jumpers (22; 122; 222), which limit the passage at least partially open on the ends of the bath (29; 129; 229). 5. The section of mechanized roof support according to claim 1, characterized in that the nozzle element is provided in pairs with locking pins (24; 124; 224). 6. The section of powered roof supports according to claim 5, characterized in that the nozzle element (120; 220) has several pairs of locking trunnions (124, 124 '; 224, 234). 7. The mechanized roof support section according to claim 5 or 6, characterized in that the locking pins are fixed on the lower side of the cover plate (21; 121; 221) and preferably protrude beyond the edge edges of the longitudinal side jumpers (22; 122; 222) of the bathtub. 8. Mechanized lining section according to any one of claims 5 or 6, characterized in that the locking pins (24) are provided with a groove (28) for geometrical closure of the mounting brackets (37). 9. Section mechanized lining according to claim 5, characterized in that the locking pins (234) on the nozzle element is made in the form of locking elements for guide rods (19). 10. The nozzle element for the movable device of the mechanized roof support section, in particular, according to any one of claims 1 to 9, characterized in that the nozzle element (20; 120; 220) has a cover plate (21; 121; 221) and locking pins ( 24; 124; 224) for detachable fastening on a moving device and forms in a mounted state a protected passage (29; 129; 229) for hydraulic wiring.