RU235467U1 - HYDRAULIC LANDING SUPPORT SECTION - Google Patents

Abstract

The utility model relates to mining, namely to means of mechanization of cleaning operations in longwall faces with individual fastening. The section of the landing hydraulic support consists of a base with a hydraulic stand installed in it with a retractable plunger and a rod, on which a support nozzle is pivotally fixed, as well as a hydraulic jack of movement with a control unit. The rod part of the hydraulic jack is pivotally connected to the base of the section, and the cylinder part is made with the possibility of a pivotal connection with the conveyor beam through the control unit housing. The control unit housing is made with an eye located on its face side, for a pivotal connection of the section of the landing support with the conveyor beam, and on the dump side it is rigidly attached to the piston part of the cylinder of the hydraulic jack of movement. The control unit housing is equipped with two pushers equidistant from the axis of the hinge joint of the hydraulic jack of the travel with the conveyor beam and parallel to the axis of the hydraulic jack of the travel, each installed with one side with the possibility of contact with the conveyor beam, and with the other side - in contact with the inclined surface of the plunger, located with the possibility of reciprocating movement in the channel of the control unit housing connected to the hydraulic distributors. The other side of the pushers is made with a bevel on the plunger side, wherein the bevel angle of the pusher is equal to the angle of inclination of the plunger surface mated with it. The channel outlets on both sides of the control unit housing are hermetically sealed with cap covers, inside which springs are installed, and the plungers on both sides along their length have central and peripheral lip seals. The technical result is the elimination of displacement along the dip of the foundation formation with the hydraulic support during reinstallation of the section of the landing hydraulic support. 5 fig.

Description

The utility model relates to mining, namely to means of mechanization of cleaning operations in longwall faces with individual fastening.

A section of the hydraulic landing support is known, which is the closest in technical essence and is accepted as a prototype (Ukrainian patent for utility model UA 121814 U, 11.12.2017, Bulletin No. 13).

The section contains a base with a hydraulic landing stand placed in it, a hydraulic jack for moving, pivotally connected with the rod part to the base of the section, and with the cylinder part, in the form of a hydraulic unit with a control panel for the section, pivotally connected to the beam of the attachment equipment of the scraper conveyor (hereinafter referred to as the conveyor beam).

As a rule, a section of the landing hydraulic support is attached to each section of the conveyor with a length of 1.5 m. Individual posts (hydraulic, metal friction, or wooden) are installed between the sections of the landing support with a step of installation along the face of 0.75 m and a step of installation perpendicular to the face of 0.8 m.

A significant drawback of the known sections of the landing support is the displacement along the seam dip (sliding) of the base with the support when they are pulled to the conveyor in the case of longwall operation along the seam strike with an angle of more than 6°. When moving sliding landing supports with a base weight of 360-450 kg (depending on the design), they squeeze out the previously installed individual support supports, which requires labor-intensive and unsafe manual work to keep the moving section supports from sliding, or to re-secure the longwall caused by the need to restore the position of individual supports and tops.

The utility model is based on the task of changing the design of the section of the landing hydraulic support to eliminate, during its reinstallation, the displacement along the dip of the bed of the foundation with the hydraulic support and to ensure the perpendicularity of the axis of the hydraulic jack for moving the support section relative to the beam of the face conveyor, which is pivotally connected to it.

The stated problem is solved due to the fact that in the section of the landing hydraulic support consisting of a base with a hydraulic stand installed therein with a retractable plunger and a rod on which a support nozzle is pivotally attached, as well as a hydraulic travel jack with a control unit, wherein the rod part of the hydraulic jack is pivotally connected to the base of the section, and the cylinder part is made with the possibility of a pivotal connection with the conveyor beam through the control unit housing, according to the utility model, the control unit housing is made with an eye located on its face side for a pivotal connection of the landing support section with the conveyor beam, and on the dump side it is rigidly attached to the piston part of the cylinder of the hydraulic travel jack, wherein the control unit housing is equipped with two pushers equidistant from the axis of the pivotal connection of the hydraulic travel jack with the conveyor beam and parallel to the axis of the hydraulic travel jack, each installed on one side with the possibility of contact with the conveyor beam, and on the other side - in contact with the inclined the surface of the plunger, located with the possibility of reciprocating movement in the channel of the control unit housing, connected to the hydraulic distributors, the other side of the pushers is made with a bevel on the plunger side, while the bevel angle of the pusher is equal to the angle of inclination of the plunger surface mated with it, the channel outlets on both sides of the control unit housing are hermetically sealed with caps, inside which springs are installed, the plungers on both sides along their length have central and peripheral lip seals.

The essence of the utility model is explained by drawings, which show: Fig. 1 - a general view of the support section; Fig. 2 - a top view of the support section; Fig. 3 - section A-A of Fig. 1; Fig. 4 - a local view B of Fig. 2; Fig. 5 - a basic hydraulic diagram of the support section control unit.

The section of the landing hydraulic support consists of a base 1 with a hydraulic support 2 installed in it with a retractable plunger 3 and a rod 4, on which a support nozzle 5 is pivotally fixed, as well as a hydraulic jack for moving 6 with a control unit 7. The rod part of the hydraulic jack is pivotally connected to the base of section 1, and the cylinder part is designed with the possibility of a pivotal connection with the beam 8 of the conveyor through the housing 9 of the control unit 7.

The housing 9 of the control unit 7 is equipped with two pushers 10, equidistant from the axis of the hinge joint of the hydraulic jack of the movement 6 with the beam 8 of the conveyor and parallel to the axis of the hydraulic jack of the movement. The pushers 10 are each installed with one side in contact with the support platforms of the beam 8 of the conveyor, and with the other, beveled side - in contact with the inclined surface of the plunger 11, located in the channel 12 of the housing 9 of the control unit 7 with the possibility of reciprocating movement.

The housing 9 of the control unit 7 is made with an eye 13 located on its face side for the hinged connection of the landing support section with the conveyor beam 8. The face side of the housing 9 is rigidly attached to the piston part 14 of the cylinder of the hydraulic jack of the travel 6.

In addition, the control unit 7 includes hydraulic distributors 15, connected to the discharge and drain channels, as well as to the channels of the intra-section hydraulic distribution.

The pushers 10, coupled with the plungers 11, are the main elements of the device preventing the hydraulic prop of the landing support section from sliding down the formation dip during its movement. The inclined surfaces of the plungers and the bevels of the pushers are made at an angle that excludes the movement of the plungers under the action of the pushers without forced force action on the plungers along the axis of the channel 12 of the control unit housing.

On both sides of the housing 9, the outlets of the channel 12 are hermetically sealed with caps 16, inside which springs 17 are installed.

The movable plungers 11 have cuff seals on both sides along their length: central 18 and peripheral 19. At the same time, the collar parts of the central seals 18 prevent the working fluid from entering the area of the pushers 9. The peripheral seals 19 provide the ability to quickly pass air from under the caps 16 into the air cavity 20, preventing its return in the opposite direction.

The technical result is achieved as follows.

When the section of the landing hydraulic support is in operation, the working fluid from the control unit 7 is supplied through the pipelines and high-pressure hoses to the hydraulic support 2, ensuring its folding and readiness for movement to the conveyor beam 8. When the corresponding hydraulic distributor 15 is switched on to fold the hydraulic jack of movement 6 with the supply of working fluid to its rod cavity 21, the plungers 11 move in opposite directions from the central to the peripheral parts of the body 9 along the channel 12. In this case, the inclined surfaces of the plungers 11 interact with the beveled parts of the pushers 10, ensuring their prompt force action on the support platforms of the conveyor beam, which eliminates the possibility of turning the hydraulic jack of movement 6 of the section in the hinge of its connection with the conveyor beam 8, and, thereby, maintains the perpendicularity of the hydraulic jack to the beam. As a result, the sliding of hydraulic support 2 and the entire section of the landing support along the dip of the formation does not occur throughout the entire period of the section movement process.

When the plungers 11 move toward the peripheral part of the body 7, excess air pressure is generated under the caps 16, which passes under the collar part of the peripheral cuff seals 19 and creates excess pressure in the air cavity 20.

After the operation of folding the jack of the moving mechanism 6 and setting the hydraulic distributor 15 to the neutral position, the rod cavity is connected to the drain and the springs 17, the plungers 11 return to their original position and release the pushers 10 from the rigid force action on the conveyor beam 8.

Excess pressure in the air cavity 20 is maintained due to the impossibility of air passing through the collar parts of the cuffs of the central seals 18 pressed to the surface of the channel 12 by the pressure of the working fluid drain. In this case, the collar parts of the cuffs of the peripheral seals 19 are also pressed to the surface of the channel 12 by excess pressure in the air cavity 20, pressing the pushers 10 with a small force to the support platforms of the conveyor beam 8.

The implementation of the utility model will eliminate large volumes of heavy manual labor with increased danger in holding the landing legs from slipping when they are moved, as well as when re-securing the faces after each cycle of landing work.

Claims (1)

A section of a landing hydraulic support consisting of a base with a hydraulic stand installed therein with a retractable plunger and a rod on which a support nozzle is pivotally attached, as well as a hydraulic travel jack with a control unit, wherein the rod part of the hydraulic jack is pivotally connected to the base of the section, and the cylinder part is made with the possibility of a pivotal connection with the conveyor beam through the control unit housing, characterized in that the control unit housing is made with an eye located on its face side for a pivotal connection of the landing support section with the conveyor beam, and on the dump side it is rigidly attached to the piston part of the cylinder of the hydraulic travel jack, wherein the control unit housing is equipped with two pushers equidistant from the axis of the pivotal connection of the hydraulic travel jack with the conveyor beam and parallel to the axis of the hydraulic travel jack, each installed on one side with the possibility of contact with the conveyor beam, and on the other side - in contact with the inclined surface of the plunger, located with the possibility of reciprocating movement in the channel of the control unit housing, connected to the hydraulic distributors, the other side of the pushers is made with a bevel on the plunger side, while the bevel angle of the pusher is equal to the angle of inclination of the plunger surface mated with it, the channel outlets on both sides of the control unit housing are hermetically sealed with caps, inside which springs are installed, and the plungers on both sides along their length have central and peripheral cuff seals.