DE3039577A1 - PIT SHIELD REMOVAL - Google Patents

Description

HOFFMANN EITIJE & PARTNER _: -

PATENT LAWYERS P U O J ü /

DR. ING. E. HOFFMANN (1930-1976) D I PL.-I N G. W. E ITLE D R. RE R. NAT. K. H OFFMAN N · D I PL.-1 NG. W. LEH N

Dl PL.-I N G. K. FDCHSLE - D R. RE R. N AT. B. H AN S E N ARABELLASTRASSE 4 (STERNHAUS) D-8000 MDNCHEN 81 TELEPHONE (089) 911087 TE LEX 05-29619 (PATH E)

3 4 111/2 y / hk - 3 -

Centrum Konstrukcyjno-Technologiczne Maszyn Gorniczych KOMAG, Gliwice / Poland

Mine sign support

The invention relates to a pit shield support, in which the support shield is supported on two stamps which are arranged symmetrically on two longer sides of the base plate and the hydraulic, in principle arranged parallel to the sole plate foot Has mechanism for moving the expansion, and in which the expansion shield with the base plate by means of connectors that form the lemniskoid guidance system. The expansion is for seams large but highly variable height determined. In addition, it is the seams with moderate bearing capacity the sole, as well as the great pressure of the ridge and the broken stones, which in the high seam the expansion

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significantly burden.

The pit lining known from the USA patent No. 4,126,002 has a hinge-like attached to the expansion shield cap, wherein the connecting hinge in one Midpoint between the canopy edges, one in the direction of the face and the other in the direction of the Bruches shows, i.e. the cap forms a two-armed bilateral lever. The expansion sign is with the sole plate connected by means of connectors, which are arranged side by side and articulated with one end the extension shield and the other end to the base plate. Such a connection becomes a lemniskoid guidance system called because during the movements of the soleplate in the vertical plane and thus also the movements of the expansion shield as a result of the and pushing apart the punches the points of the soleplate on a vertical portion of the curve that called Bernoull's lemniscate. The base plate is made up of two beams that are parallel to each other and are arranged in principle perpendicular to the face front. The slab beams are apart removed, creating a space between the beams in which the sole is not covered with the sole plate. The sole plate beams are connected to one another by means of bridges over the clearance of the non-concealed sole. Between the base plate beams and under the above-mentioned bridges, one is created that is concealed from both sides Scope in which the hydraulic mechanism of the propulsion of the expansion after the advancement of the face front and the main element of this mechanism is the hydraulic servomotor. Between the The base plate and the expansion sign indicate the expansion of the Stamp in the form of hydraulic servo motors. the

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The stamps are supported directly on the base plate of the base plate beams so that the support point of each individual punch is in the area of the plane of action of the expansion slide mechanism is located.

The disadvantage of this solution is the disproportion between the sum of the cap and extension shield surface, which takes on the ridge pressure and the pressure of the broken ridge rock and the much smaller base plate surface, which transfers these forces to the sole. This difference results from being pushed apart at a certain distance from the beams forming the base plate, creating a large, uncovered base surface between them arises. In addition, the base plate is weak in the vertical plane, which incidentally results from its structure. For this reason, this expansion is suitable for high seams, where there are great forces exerted by the base plate are distributed over a small area, are heavily used, are not suitable. It causes the Weakness of the soleplate, so that local overpressure is created on the soleplate as a result of its deformations, which causes the Situation in the case of weak soles or soles with medium load-bearing capacity is worsened. The usefulness this expansion in high seams is reduced by the fact that its stamp, which is on the base plate of the Support the base plate, long and therefore slim, i.e. against the buckling caused by the action of the ridge pressure forces and the weight of the stones broken off from the ridge and lying on the expansion shield, are very sensitive. The above-mentioned expansion also has the disadvantage that the area is the lowest and the highest position due to unfavorably distributed attachment points of the connectors of the lemniskoid guiding mechanism is limited to the base plate.

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The invention is based on the object of developing such a pit lining which is suitable for operation in high seams is suitable in a large range of changes in height, the base plate area being the sum of the cap area and approaches the surface of the development sign projection onto the sole and the sole plate is rigid to the Creation of large unitary compressive forces on the sole, especially from their local concentrations. In addition, the task is to remove it the danger of buckling of the stamps, which have to transmit significant forces in the high seam.

According to the invention, the object was achieved by a corresponding Design of the soleplate solved, the soleplate having a uniform base plate, the two has beams in the form of a trough turned upside down along its long sides. The bars are higher on the side of the expansion shield and higher on the side the face lower. In the area of the longwall face, the beams are supported by a platform that lower than the height of the beam. In the area of the extension sign, the bars are in the upper part by means of Holding arm connected, on which the holder for fastening the hydraulic expansion slide mechanism is arranged is. The holder is located below the seats that the punches come into, which opens the slide-out mechanism is close to the sole and is in principle arranged parallel to the sole. Own the slab beams the support arms, which are placed on the inverted bottom of the trough beams and protrude over the beams. In the holding arms are the seats on which the stamps rest. In addition, the holding arms have holes, indene the front connectors of the cap lemniscoid guide mechanism are articulated by means of pins. ,

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Due to the massive and rigid base plate, it is able to transfer significant loads and it on the sole with massive unit compressive forces without them Distribute local concentrations as shown below.

The punches are not susceptible to kinking because they are relative are short compared to the extension height; they are supported on the seats raised high above the soleplate by the holding arms, which are reinforced with the bridges. Despite the compactness and relatively great strength The hydraulic slide-out mechanism is located on the base plate near the sole, because it is housed under the bridge connecting the holding arms of the stamps is.

The subject matter of the invention is based on an exemplary embodiment shown in the drawing, Fig. 1 shows the expansion side view, Fig. 2 shows the expansion view of of the longwall face seen in the direction of the demolition space, Fig. 3 longitudinal section of the base plate in the in Fig. 4 as A-A designated plane of symmetry and Fig. 4 sole plate view from above, with the stamps, the expansion shield, the connector cap and the hydraulic expansion slide mechanism have been removed and FIG. 5 is a longitudinal section of the Base plate in the plane designated as B-B in FIG. 4. Front and rear connectors are attached to the base plate (1) (14) and (16) of the lemniskoid guide mechanism attached to the extension shield (4). The connectors (14) and (16) are located by means of holes (13) and (17) Bolts with the base plate and by means of bolts in the holes (18) and (19) with the extension plate (4) connected. At the end of the extension plate (4) is located by means of bolts in the holes (21) Cap (20) attached. The cap (20) has the holes (21) in the middle of its length, which makes it

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train on the holes (21) forms a two-sided and two-armed lever. To prevent the steeply inclined or vertical position of the cap (20) is it with a cooperating with the end piece of the expansion shield (4) Stop (22) equipped. The extension plate (4) and the cap (20) are supported with the punches (8). The stamp (8) are supported at their lower ends on the seats (7), which are arranged in the holding arms (6) of the base plate (1) are, and the upper end piece of the punch (8) is attached to the extension plate (4) with the pin (23). At the Extension shield (4) is the side protection (24), which is used to separate adjacent extension sections that are attached to the face front are arranged, is determined, attached. In practice, the individual expansion sections are in one set up a certain distance from one another in order to allow the individual sections to be pushed in as the progression progressed to enable the working face. Between the caps (20) and the AusausehiIderη (4) of the adjacent Extension sections remain uncovered fragments of the ridge and rock breaking. So that no rock fragments get under the expansion through these slots, they are equipped with side protection shields (24) covered. If the expansion works in a crooked pit, it shows the tendency to Slipping off or to tilt up. In this case, the side shields have a device for Pushing away the slipped extension section from the adjacent, sprued-on section, and thereby becomes the repositioning or the adjustment to the parallel position opposite the other sections achieved. In addition the side protection (24) is attached to the extension shield (4) by means of guide pieces (25) attached to the side protection (24), which are slidably attached to the holders (28) attached to the expansion plate (4). The shift of the Side protection (24) with respect to the expansion shield (4) for the purpose of covering the slot between the individual

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Expansion sections or removal from the adjacent section is done by means of springs inside the guide pieces (25) are housed and are not indicated in the drawing. The hydraulic mechanism (10) that is used to push the expansion is provided after the progress of the face is with one of its ends with the Holder (12) and with the other end to the transmission device, which is not indicated in the drawing, connected in an articulated manner. The sole plate (1) consists from a single base plate (15) with two parallel to the longer side of the plate (15) at their edges arranged bar (2) is provided. The bars (2) have a trough-shaped cross section and are with the floors (3) directed upwards, with the bars (2) on the part of the AusausehiIdes (4) higher than on the part of the Face are, whereby the soils (3) in relation to the Base plate (15) are inclined in the direction of the face front. On the side of the longwall face, the beams (2) are supported by a pedestal (5) connected, which is lower than the height of the beam (2) and with the base plate (15) a box-shaped Cross-section forms. On the side of the extension plate (4), the bars (2) are by means of a horizontal platform (11) at the level of the floor (3) of the beams (2) connected. The horizontal platform (11) is with the holder (12) for attaching the hydraulic mechanism (10). The holder (12) is below the seats (7) arranged on the holding arms (6). In the area of the horizontal platform (11), the base plate (15) has the Hole (29), which has a rectangular outline and on the shorter edge of the base plate (15) on the side of the holes (17) is enough. The base plate (1) ends with the plate (26) which connects the beams (2). On the plate (26) the handles (27) are attached to the holes (17). On the bars (2) are the holding arms (6), which in their upper

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Ren parts have the seats (7) for attaching stamps (8) attached. Have below the seats (7) the holding arms (6) the holes (13) for fastening the front connector (14) of the lemniskoid guide mechanism. The holding arms (6) have an arched bridge (9) connected to one another in the area of the seats (7). Because the holding arms (6) protrude over the bars (2), arises under the seats (7) and the bridge

(9) a margin in which the hydraulic mechanism

(10) can be accommodated. At the same time thanks to the holding arms (6) the length of the punch (8) is less than the distance between the pin (23) and the base plate

(15) of the base plate (1), which makes the stamp (8) less sensitive to the buckling forces. Even the smallest expansion height after pushing off the stamp (8) is low compared to its maximum height. The hole (13) is mounted in the holding arm (6) at a certain height above the base plate (15). This can reduce the length of the Front connector (14) must be shorter, and this causes the circular arc going through the hole (19) over the Hole (17) does not run out. The arrangement of the holes (13, 17) and (19) is designed so that the hole (13) high above the sole and therefore close to the hole

(19) is arranged. This causes the expansion to be at a minimal height after the punch (8) has been pushed off assumes, which is several times less than its maximum height, what the area of application of the expansion on the seams very variable thickness.

The description shows that the sole plate (1) has a large surface that rests against the sole and their structure is rigid, so that the unit pressure on the sole is relatively low and no local concentration the stresses that result from the resilience of the base plate in the vertical plane,

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step. This makes it possible to use the expansion in high seams with a moderate load-bearing capacity of the bottom. Simultaneously allows the relatively short length of the punch (8) to transfer through the expansion of large loads that act from the ridge and the broken rocks on the extension shield (4) without buckling the stamp to risk. The arrangement of the hole (13) at a certain height above the sole makes it suitable for expansion for different seams in terms of their height, as well as for seams with variable heights in a large area.

In summary, the pit shield support is a die Caps according to a lemniscate guiding mechanism intended for thick seams with a variable height in a large area. The stamp (8) of the expansion is supported by the support arm (6), which is arranged high on the base plate. Also the hole (13) that is used for fastening of the connector is provided, is arranged in the holding arm (6) and is located high above the base plate (1) . This has the effect that the expansion can transmit large forces without the risk of buckling the stamp (8). At the same time, the expansion has a low minimum height in comparison with its maximum height, what by a special position of the hole (13), which is high above the base plate is reached. The base plate, which consists of the plate (15) and the beam (2), is rigid and lies against the sole with a large area, which causes a massive, uniform pressure on the sole and local concentrations of compressive forces on the sole resulting from the deformation of the sole plate prevented.

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Claims (1)

HOFFMANN · EITLE <k PARTNER ^ q 3 qu, 7 PATENT LAWYERS DR. ING. E. HOFFMANN (1930-1976) D I PL.-I N G. W. E ITLE D R. RER. NAT. K. HO FFMAN N · Dl PL.-I N G. W. LEH N DIPL.-ING. K.FDCHSLE DR. RER. NAT. B. HANSEN ARABELLASTRASSE A {STERNHAUS) · D-8000 MD NCHEN 81 · TELEPHONE (089) 911087 - TELEX 05-29619 (PATH E) 3 4 111/2 y / hk Centrum Konstrukcyjno-Technologiczne Maszyn Gorniczych KOMAG, Gliwice / Poland Mine sign support PATENT CLAIM Pit shield support, the support shield of which is arranged on two symmetrically on the longer base plate sides Stamping is supported, between the stamps has the hydraulic expansion slide mechanism, which is essentially is arranged parallel to the soleplate base, and with the soleplate by means of the lemniskoid guide system forming connectors is connected, with the expansion shield a two-armed two-sided lever forming cap is connected, thereby g e k e η η - 130019/0757 shows that the expansion has a base plate (1), which is followed by two one with its bottom (3) upwardly directed trough-shaped cross-section possessing parallel beams (2), which are attached to the unitary Base plate (15) are attached, with the bars (2) having a greater height on the part of the expansion shield (4) have and on the part of the face by means of a pedestal (5) which has a smaller height than the height of the beams (2) connected that the expansion on the upper surface of the floors (3) of the beams (2) retaining arms (6) which protrude over the bars (2) that on the holding arms (6) seats (7) in which the stamps (8) plug in, are arranged and the holding arms (6) at the height of the seats (7) by means of an arched bridge (9), under which the hydraulic expansion slide mechanism (10) is housed, are connected to one another that the Beam (2) on the part of the expansion shield (4) in the upper part by means of a platform (11), which is used for fastening the hydraulic expansion slide mechanism (10) serving holder (12), are connected to each other, wherein the holder (12) is arranged under the seats (7), and that the holding arms (6) have a hole (13) for fastening the Front connector (14) of the lemniskoid guide system exhibit. 130019/0757