SU1528326A3 - Powered hydraulic support for sets of coal-winding faces - Google Patents

Abstract

The invention relates to the mining industry and is intended to fasten lavas that are processed by a coal-front mining unit. The goal is to increase productivity and increase operational reliability due to the even supply of the mining device by hydraulic cylinders (HZ). The mechanized hydraulic support for the unit of coal-mining lavas includes a sliding hydrorail (HS) 1 with upper (B) 3, mounted on skis 2. With a cantilever end B, which is protruding backwards, 3 is a hinge connected to the crushing shield 4. The last lower end is pivotally connected from the dam side the upper end of the rocker arm 6 with the possibility of varying in height depending on the length of the HS 1. The executive body of the aggregate moves along tubular rails 7 fixed on the telescopic wall 8 fixed in front of the HS 1 on the base 9. The displacement is performed by HZ 10. On B 3, there is an additional HZ 11, one of its ends is pivotally attached to B 3, and the other to the hinge 5 connecting the shield 4 and the connecting rod 12. To transfer the opposing forces to the telescopic wall 8, the connecting rod 12 is pivotally connected to B 3 and a shield 4. By means of a double action fixed on the HS of the control HZ 13, the B 3 is stabilized. The hinge 5 of the connection B 3 with the shield 4 is installed in the groove 16 with the possibility of their mutual displacement over the step length HZ 10 and Hz 11. Before cutting the actuator, the telescopic wall 8 moves to HS 1 and HZ 10, 11 extend. When mining HZ 10, 11, all sections are drawn in. 2 hp f-ly, 3 ill.

Description

// ./4 -w fe --- - - - ---- v

/ f - rp - - T1 - TGG1-p

(L

ate yu

00

oo

about:

 cm

from the dam side with the upper end of the rocker arms 6 with the possibility of changing in height depending on the length of the HS 1. The executive body of the aggregate moves along tubular rails 7 fixed on the telescopic wall 8 fixed in front of HS 1 on the base 9. On B 3 there is an additional HZ 11, one of its ends is pivotally attached to B 3, and the other to the hinge 5 connecting the shield 4 and the connecting rod 12, Dp of transfer of opposing forces

on the telescopic wall of the 8-rod-12 is pivotally connected to the B 3 and the shield 4. By means of a double-acting control HZ 13, the double action B 3 is stabilized. The hinge 5 of the connection B 3 with the shield 4 is installed in the groove 16c with the possibility of their mutual displacement on the depth of the step G4 10 and Hz 11. Before the notch of the actuator, the telescopic wall 8 moves to the HS 1 and Hz 10, II. During the extraction of HZ 10, 11 of all sections, they are drawn in, 2 s, n, f-ly, 3 sludge.

The invention is intended for fastening lavas, which are worked by a frontal coal-mining unit.

The aim of the invention is to increase productivity and increase operational reliability due to uniform supply of the mining device by hydraulic cylinders,

Fig. 1 depicts a lining section, side view (an embodiment with a longitudinal groove in the top); Fig. 2 is the same, with the telescopic wall extended forward a step (embodiment with carrier); FIG. 3 shows a double acting control cylinder.

Mechanized hydraulic support for coal mining lavas. Contains sliding hydraulic rack 1 ,. mounted on the horizontal skis 2 shown by dashed lines, and pivotally mounted on a hydrostreet 1, top to 3. In height, the crushing curtain is sewn 4 by the upper end pivotally connected to the backward cantilevered end from the boundaries of the ragged field to the trunk by the end of the top 3, which is collapsing 4, the lower end is connected at the dam side with the upper end of the rocker arm 6 with the possibility of changing in height depending on the length of the hydrostable 1. In the lava, next to each other, lining sections are located, the number of which It depends on the length of lava,

The executive coal-mining organ of the aggregate contains, along the entire length of the lava, a cutting chain with working bodies for removing coal from the side of the bottom pile (not shown). The isle coal mining organ of the mining device (unit) is fixed and transferred

placed along tubular rails 7, which are mounted on a telescopic wall 8 located in front of the hydraulics 1, which is fixed on base 9, base 9 covers horizontal skis 2 on all sides and is displaceable relative to the soil in the direction of the notch. The yoke 6 is hingedly attached on the side of the tab to the base 9. For shifting, a downwardly mounted hydraulic cylinder 10 located between the base 9 and the horizontal, 2 to the hinge associated with their ends is used. The hydraulic cylinder 10 has the possibility of extending in both directions.

On the top 3 there is an additional hydraulic cylinder 11, one (front) end of which is pivotally attached to the top 3, and the other is pivotally attached to the hinge 5 of the shield 4 connection and the connecting rod 12, Brass 12 is hingedly connected to the top 3 and with the 4 shield for transfer opposing forces on the telescopic wall 8 by means of the connecting rod 12,

The upper to 3 is stabilized by means of a double acting control hydraulic cylinder 13 fixed on the hydraulic post 1, the pistons of which are locked in its middle position with the possibility of moving in both directions. A spacer 14 is disposed between the telescopic wall 8 and the base 9, the telescopic wall 8 is moved apart by a hydraulic cylinder 15, one end of which is connected to its lower part and the other to its upper part. The hinge 5 connecting the top 3 and the shield 4 is installed with the possibility of moving them backward nX for the length of the step of the shifting hydraulic cylinder 10 and the additional hydraulic cylinder 11, for this purpose; A longitudinal groove 16 of the guide link is made, which is made on the lower side of the charging top 3 for the step length of the hydraulic cylinders 10 and 11 (Fig. 1). The hinge 5 in this case is movably mounted in the groove 16,

According to another embodiment (FIG. 2), instead of the groove 16, a carrier 17 may be mounted, which is sarcastically connected at one end to the upper part.

ten

The telescopic wall 8, OQ, —novement 9 and shield A are located in the position shown in FIG. 2. Then, the landing of the hydraulic post 1 is carried out, and it is pulled against the telescopic wall 8. The connecting hinge 5 is moved back to its final position from the side of the bookmark.

Claims (2)

Invention Formula I, Mechanized hydraulic support for units of coal-mining lavas, including skis, mounted 3, and - with the upper end of the bottom-up: sliding hydraulic rack with a top mounted on it, pivotally connected by the upper end with the rear protruding from the shaft boundaries 20 which guides the shield when h shield 4 on the joint joint 5 peredvizhershi. The hydraulic cylinder 13 consists of a housing 18 in which the piston rod 19 is mixed with the piston and the additional piston 20 that is pulled out of it ,. The piston cavity 21 in the housing 18 and the rod cavity, 22 of the rod 20 is connected to the high-pressure pipeline P and is equipped with check valves 23 and 24, as well as safety valves 25 and 26. When applying pressure to the piston cavity 21 and the rod cavity 22, the rod 20 takes an image on in the drawing, the average position in which the rod is 19. extended, and the rod 20 is pushed into the rod 19, from the middle position the rod 20 can both be pushed in and pushed out. When it moves in, it moves together with the rod 19 into the piston cavity 21, while the working fluid flows through fuse In the process of pulling out, and the rod 20 moves into the rod cavity 22, at the same time the displaced working fluid flows out through the safety valve 26. The device works as follows. The telescopic wall 8 is moved to the hydraulic post before the notch of the operating organ, and the skis 2 are driven from the bottom side in the recess of the base 9 and are not visible. Hydrocylpidry 10 and 1 1 are in this position. In the course of operation, the hydraulic cylinders 10 and 11 of all sec- ond are driven. Then, the telescopic walls 8 are advanced by ti.P {ndry 10 and 11, simultaneously, moving forward along with the hinges 5 along the grooves 16 or by means of rudil 17, at the end of the cycle mining GI; LO: 111LINDERS 10 and 11 TRAVEL35 the floor to the trunk end of the top is an inclined-mounted height-adjusting bulk shield covering the horizontal skis and mounted with the possibility of moving relative to the soil in the direction of the excavation the base is hingedly attached to the skeleton core to the base and hingedly connected to the shield on the dam side, the rocker, which is located ahead of the hydraulics and fixed to the base, is a telescopic wall for holding and directing the mining device, located between the base and horizontal skis and pivotally connected with their own KomiaNm shifting hydraulic cylinder, telescopic wall hydraulic sliding gate, one end of which is connected with its lower dd part, and the other with an upper sliding part, characterized in that, in order to increase productivity and increase operational reliability due to an even feed of the mining device by hydraulic cylinders. The crankshaft on the roof side is connected to the upper sliding part of the telescopic wall by means of a connecting rod, and is equipped with an additional hydraulic cylinder, one end of which is pivotally attached to the top, and the other end is pivotally attached to the hinge connecting the shield and connecting rod, connecting the control link to the hydraulic cylinder and connecting the hydraulic cylinder to the hydraulic cylinder and connecting the control cylinder to the hydraulic cylinder. actions, the pistons of which are locked in its middle position, with the hinge connection of the embedding end of the upper and upper end of the charging 55 The telescopic wall 8, OQ, —novement 9 and shield A are located in the position shown in FIG. 2. Then, the landing of the hydraulic post 1 is carried out, and it is pulled against the telescopic wall 8. The connecting hinge 5 is moved back to its final position from the side of the bookmark. Invention Formula Sh1rno installed on it top kom, pivotally connected to the upper end of the console cantilevered back directed from the boundaries of the mine 0 five the floor to the trunk end of the top is an inclined-mounted height-adjusting bulk shield covering the horizontal skis and mounted with the possibility of moving relative to the soil in the direction of the excavation the base is hingedly attached to the skeleton crown to the base and hingedly connected to the shield on the dam side, the rocker, located in front of the hydraulics and fixed to the base, is a telescopic wall for holding and directing the mining device, located between the base and the horizontal skis and pivotally connected with their own KomiaNm shifting hydraulic cylinder, telescopic wall hydraulic sliding gate, one end of which is connected to its lower d part, and the other with the top sliding part, characterized in that, in order to increase productivity and increase operational reliability due to a uniform supply of the mining device with hydrocyliners ,. The crankshaft on the roof side is connected to the upper sliding part of the telescopic wall by means of a connecting rod, and is equipped with an additional hydraulic cylinder, one end of which is pivotally attached to the top, and the other end is pivotally attached to the hinge of the joint of the shield and the connecting rod and the control cylinder that controls the hydraulic cylinder. actions, the pistons of which are locked in its middle position, with the hinge connection of the embedding end of the upper and upper end of the charging five the shield is made with the possibility of their mutual longitudinal movement on the pitch of the step of the shifting hydraulic cylinder and the additional hydraulic cylinder, 2, the hydraulic support according to claim 1, i, characterized in that the top is made with a longitudinal guide groove at its zavalnye end, in which the hinge is movably mounted / Z srig.2 top connections with a downturn shield. 3, Hydraulic lining in accordance with claim 1, characterized in that the hinged connection of the top with the burial shield is made in the form of a carrier pivotally connected at one end with the top junction, and the other with the upper end of the burial shield. / 7 i &: i-i:: -f 07 ///. J