PL153117B1 - Lemniscate-type roof supports - Google Patents

Description

REPUBLIC POLAND PATENT DESCRIPTION 153117 Additional patent to patent no --- Int. Cl.5 _E2 1 _D 23/04 Reported: 88 07 04 (P. 273513) Priority READING ROOM OFFICE GENERAL PATENT Application announced: 89 02 20 RP Patent description published: 1991 08 30

Creators of the invention: Kazimierz Swiderski, Jerzy Kozielewicz, Stanisław Romanowiez, Jerzy Pilarski, Szczepan Korzeniowski, Marek Flak, Hubert Anczok, Kazimierz Spałek, Ryszard Bogus, Henryk Izydorczyk

The holder of the patent: KOMAG Mining Mechanization Center,

Gliwice (Poland)

MILLING HOUSING

The subject of the invention is a mining lemniscate support and shielding support, including a floor connected articulated with a caving shield, by means of a lemniscate system of connectors of unequal length located on the side of the side of the side and on the fall side of the mining excavation, having canopies articulated with the cave shield and with at least one stand support articulated to the floor runner.

Known, e.g. from the Polish patent description No. 126385, the mining single-section lemniscate casing includes floor chaps connected to the cave cover by means of two front connectors located from the side of the side wall and two rear lemniscate connectors located from the side of the fall, while the rear connectors are longer from the front links of this system. The cave cover is articulated with the canopy, which is articulated with the piston rod of the hydraulic stand, the cylinder of which is articulated to the floor of the single-section casing, and the canopy is also articulated with a hydraulic actuator articulated to the casing. Individual points of the canopy, during its vertical working movement, move along a curve that is a fragment of a Bernoulli lemniscate - that is, a curve whose beginning is at the beginning of a rectangular reference system defined by the vertical axis of ordinates Y and the axis of abscissa X situated perpendicular to it. deviates according to the positive sense of the abscissa axis X, so that in the range of the working heights of the canopy position in the mining excavation, its points deviate from the face of the side wall towards the gully, while for each point on the front edge of the canopy, the inequality Xl <X2 < ...... Xn, where XI is below

X2, etc. Moreover, in the known housing, the ratio of the length of the front linkage to the length of the rear linkage of the lemniscate system is Ι, ΟτΙ, Ι. The ratio of the distance of the articulated connections of the connectors with the cave cover to the length of the front connector is 0.35 τ 0.40. The ratio of the vertical distance of articulated joints of the links with the floor run to the horizontal distance of these joints

153 117

153 117 is 0.5550.60. The ratio of the length of the front connector to the distance between the canopy articulated connection with the cave cover and the articulated connection of the canopy with the rear connector is 0.4850.52. The ratio of the distance between the articulated connection of the canopy with the caving cover and the articulated connection of the canopy with the rear connector to the minimum working height of the canopy position is 1.5051.70.

A technical problem that requires a solution is the modification of the known casing, by changing the size of the relations between the geometrical parameters of some of its structural elements so that it is possible to obtain a greater range of working heights of the canopy position in the excavation, as well as to obtain a more favorable lemniscate curve for the link-joint system, especially in the field of average working heights of the canopy location.

The essence of the invention is that the ratio of length. the front linkage to the length of the rear link of the lemniscate system is 0.9650.99. The ratio of the distance of articulated connections of the couplings with the cave cover to the length of the front coupler is 0.2825347. The ratio of the vertical distance of articulated joints of the links with the floor runner to the horizontal distance of these joints is 0.6151.06. The ratio of the length of the front connector to the distance between the canopy articulated connection with the cave cover and the articulated connection of the canopy with the rear connector is 0.5450.58. The ratio of the distance between the articulated connection of the canopy with the caving cover and the articulated connection of the canopy with the rear connector to the minimum working height of the canopy position is 1.5651 / 65. The ratio of the distance between the articulated joint of the front link with the floor runner and the sliding surface of this floor runner to the minimum working height of the canopy is 0.5550.58, and the ratio of the distance between the articulated joint of the front link with the floor runner and the sliding surface of this floor runner to the maximum working height of the canopy location is 0.1850.21.

The casing according to the invention makes it possible to replace two known casings - with one casing, in such a way that the casing according to the invention can reach the minimum working height of the canopy position of one known casing and the maximum working height of the canopy position of the other known casing - which significantly increases the scope of unification of mining types Lemniscate casings, basically without increasing the costs of their production, and with the use of the same machines and production devices as before. The cladding has the property that in the entire range of working heights of the canopy position in the pit, the change in the vertical position of the canopy takes place along a lemniscate curve characterized by a small deviation from the vertical axis of the rectangular reference system, resulting in a small change in the horizontal distance of the canopy from the face of the excavation wall, and in the middle range working heights of the canopy location - the lemniscate curve turns into a straight line, perpendicular to the excavation ceiling - which means that the canopy does not move away from the face of the excavation side wall. In addition, the support is characterized by increased efficiency in terms of support and longitudinal stability in all phases of its operation, and thanks to the favorable distribution of static and dynamic loads of the rock mass on the roof ridge, it allows to maintain the existing geological structure of the roof rocks and also enables an even distribution of loads on the floor over the entire working height range. location of the canopy in the excavation, thanks to the almost vertical trajectory of the canopy movement.

The subject of the invention is shown in the embodiment on the drawing showing the casing situated in the excavation in a side view.

Two front connectors 3 are connected to the floor 1 of the single-section casing by means of two bolt joints 2 and two rear connectors 5 of the lemniscate system by means of two bolt joints 4. Each of the front linkages 3 is 11 and each of the rear linkages 5 is 12, the length 12 of the rear link being greater than the length 11 of the front link. Moreover, each of the front connectors 3, by means of a pin joint 6, is connected to the casing 7 of the casing, and by means of a pin joint 8 to the casing 7, a rear connector 5 is connected. The rear end of the canopy 9 is connected to the upper end of the cave cover 7, by means of a pin joint 10 a with the central part of the canopy 9

153 117 is connected - by means of a joint 11 - to a hydraulic support stand 12, the other end of which is attached by means of a joint 13 to a floor 1 having a working sliding surface P in contact with a floor 14 of mining excavation 15, the floor 1 being connected - by means of the articulation 16 - with the conveyor 17 mounted on the floor 14 of the excavation 15. Moreover, at one end of the canopy 9 there is an articulated-hydraulic corrective actuator 18, which with the other end is articulated to the caving cover 7. The roof structure 9 has a minimum working height H and the maximum working height Hl of location in the excavation 15.

The ratio of the length L1 of the forward link 3 to the length 12 of the back link 5 of the lemniscate system is most preferably 0.98. The ratio of the distance L of the articulated links 6, links 3, 5 with cuff 7 to the length 11 of the front link 3 is most preferably 0.347. The ratio of the vertical distance L1 of the articulated joints 2.4 of the connectors 3, 5 with the floor 1 to the horizontal distance L2 of these joints is most preferably 0.75. The ratio of the length 11 of the front connector 3 to the distance L3 between the canopy articulation 10 with the cowl 7 and the canopy articulation 8 with the rear connector 5 to the minimum working height H of the canopy 9 location is most preferably 1.61. The ratio of the distance L4 between the articulated connection 2 of the front fitting 3 with the floor 1 and the sliding surface P of the floor 1 to the minimum working height H of the positioning of the canopy 9 is most preferably 0.56. The ratio of the distance L4 between the articulated connection 2 of the front link 3 with the floor runner and the sliding surface P of this floor runner to the maximum working height H1 of the canopy positioning 9 most preferably is 0.19. The roof board 9 in its minimum working position, defined by the height H from the floor 14 of the excavation 15, is at a distance Xl from the face of the wall 19, and in its maximum working position defined by the height Hl - is at a distance -Xn from the wall. Each of the points on the front edge 20 of the canopy 9, when changing its vertical position from the minimum to the maximum position, moves along the curve 21, which is a fragment of the Bernoulli lemniscate - while the curve 21 for the average heights of the canopy 9 turns into a straight line 22, parallel to the forehead wall 19 of the excavation 15, then the front edge 20 of the canopy 9 is practically at a constant distance X2 from the face of the wall 19 despite the change in the height of the canopy position in the excavation.

Claims (1)

Patent claim Mining lemniscate support including a floor connected articulated with the caving cover, by means of front and rear fasteners in the lemniscate system, in which the rear fasteners are longer than the front ones, having a canopy connected articulated with the caving cover and with at least one support stand articulated to the bottom ridge, characterized by in that the ratio of the length (11) of the front link (3) to the length (12) of the rear link (5) of the lemniscate system is 0.96 ^ 0.99, most preferably 0.98, the ratio of the distance (L) of the articulated joints (6.7 ) of the couplings (3.5) with cuff (7) to the length (11) of the front link (3) is 0.282-50.347, most preferably 0.343, the ratio of the vertical distance (Ll) of articulated joints (2.4) of the couplings (3.5) with floorstand (1) to a horizontal distance L2) of these joints is 0.615-1.06, most preferably 0.75, the ratio of the length (11) of the front link (3) to the distance (L3) between the articulated connection (10) of the canopy (9) with the cuff (7) and the articulated connection (8) of this cover with rear linkage (5) is 0.5450.58, most preferably 0.55, the ratio of the distance (L3) between the articulated connection (10) of the canopy (9) with the cuff (7) and the articulated connection (8). ) of this cover with the rear link (5) to the minimum working height (H) of the position of the canopy (9) is 1.56ll, most preferably 1.61, the ratio of the distance (L4) between the articulated connection (2) of the front link (3) with the floor runner (1) and the sliding surface (P) of this floor runner to the minimum working height (H) of the location of the canopy (9) is 0.55 ^ 0.58, most preferably 0.56, and the distance ratio (L4) between the articulated connection (2 ) of the front link (3) with the floor runner (1) and the sliding surface (P) of this floor runner up to the maximum working height ( Hl) of the location of the canopy (9) is 0.185-0.21, most preferably 0.19. 153 117 Department of Publishing of the UP RP. Circulation 100 copies Price: PLN 3,000