SU1071757A1 - Relieving arrangement for hydraulic prop of independent roof support - Google Patents

Abstract

UNLOADING (E DEVICE OF AN INDIVIDUAL HYDROFRONTABLE FASTENER, including a body, in the opening of which communicated with the piston cavity, are installed a pusher rigidly connected with a cone valve interacting with the saddle, a stopper and an eccentric with a rotary handle, fitted with the possibility of interaction with the pusher, It is distinguished by the fact that, in order to increase the reliability of the device and simplify the design, the cutting is made stepless and the seat is in the form of a sealed bushing movably mounted in the hole and between the plug and the protrusion of the pusher, U, while the spring is installed between (the protrusion of the protrusion and the valve seat with the possibility of interacting with them, and the protrusion protrusion is made with external inflows and provided with seals

Description

Kj cm The invention relates to mining and can be used for mine hydraulic lining. Known control valves for hydraulic shaft unbalanced plunger, interacting with eccentric til. The closest to the proposed technical solution is an individual hydraulic support discharge device, including a housing, in the opening of which, connected to the piston cavity, there is a pusher rigidly connected with a cone valve that interacts with the saddle, a cork and an eccentric with a rotary handle, installed Lenny with the ability to interact with. Lug pusher C21. The drawbacks of the design of the known valve are the complexity of the ycTpol cTBa and; the manufacture of a through stepped hole, for the -plate of bodies and a tapered locking element, since high accuracy is required. Observance of coaxiality. In addition, there are large difficulties in processing the sealing edge of the hole into which abuts the cone of the locking element, since it is necessary to meet the condition of perpendicularity, its end face to the longitudinal axis of the through stepped hole, and the end of the hole being machined is at a considerable depth. Similar difficulties arise when restoring the sealing edge. Known designs are also difficult to operate, assembled and disassembled, so when you exit the pushing pusher, you must first disassemble the unloading mechanism, remove the eccentric and pusher with a special ratchet wrench and remove it from the slot. The ori of the knockout locking element is rejected and the entire valve,. The purpose of this is to increase the reliability of the device and to simplify the design. The goal is achieved by unloading the hydraulically supported individual support device, which includes a housing, the holes of which are connected to the piston cavity and have a plunger rigidly connected to a cone valve that interacts with a saddle, a stopper and an eccentric with a rotary handle, installed with the possibility of interaction with the protrusion of the pusher, the hole is made stepless, and the saddle is in the form of a sealed sleeve , Yc ynovlennoy movably in a bore between the plug and the protrusion tolkatal, wherein the spring is mounted between the projection and the tappet valve seat to cooperate with them and with the projection pusher v1polnen outer recesses and is provided disposed therein uplot.neni mi. The drawing shows the proposed unloading device, a slit. An individual hydraulic support unloading device consists of a housing 1, a unloading mechanism 2, a locking and unloading mechanism including a pusher 3, a saddle 4, a cone valve 5 and a spring 6 placed between them, the saddle 4 is pressed against the stopper 7, The housing 1 has a through hole 8, the saddle 4 is made symmetrically, and when the sealing edge of the butt end of one side is worn, the saddle is turned with the other side to the valve cone. When the edges of the ends of both sides of the saddle wear out, it is restored by grinding the ends or is replaced by a new one. Spring 6 creates a preliminary contact of the seat 4 with the valve cone 5,. The device operates as follows. Through the loading valve. (Not shown), the working fluid enters the cavity of the hydrocall. Getting into the hole 8, it “pushes the pusher 3 to the left according to the drawing, and the saddle 4 to the right, pressing it; to the valve cone 5, and then it goes under the piston of the rod, pushing and spreading the strut, in order to unload the hydraulic post, turn the handle of mechanism 2 unloading up, then the end of the eccentric B by selecting the clearance 2., will move the unloading-valve device to the right according to the drawing up to the stop of the saddle 4 into the plug 7, With further movement of the pusher 3 with the valve 5, the cone of the latter moves away from the end of the saddle 4, forming an annular gap A, on which the working fluid st GIDROSTOYKI follows from the cavity to the soil through the hole 7 in the tube, ie, discharge occurs and lowering gidrostoyki, when lowering the handle down takeout mechanism 2, the spring 6 presses the saddle again - the valve cone 5 and drain fluid flow is stopped. Such an embodiment of the discharge valve allows to simplify the technology and reduce the labor intensity of manufacture. Due to a significant reduction in the end and axial beats, as well as due to the placement of the spring between the pusher and the seat, the direction of the seat-taper valve is improved. Such an execution of the unloading device makes it hydraulically balanced, and in the valve body socket - floating, which greatly simplifies the design and increases

Claims (1)

UNLOADING? t characterized in that, in order to increase the reliability of the device and simplify the design, the hole is made stepless, and the saddle is in the form of a sealed sleeve, movably mounted in the hole between y stopper protrusion and a pusher, the spring is mounted between the projection and the valve seat of the pusher to engage with them, and a pusher protrusion configured to "ruzhnymi prFtochkami raeme- and is provided, in which sealing schennymi>