RU2161253C1 - Ram - Google Patents

Abstract

FIELD: machine-building hydraulic drives applicable in coal mining, machine building and other industries, particularly, in powered support for underground mining of coal and other minerals. SUBSTANCE: ram includes cylinder and extension member with extension piece. Extension member accommodates device for increase of supporting power and having rod with piston connected with cylinder bottom, piston hollow communicated with cylinder piston hollow and rod hollow with inlet for working fluid. Extension member is made in the form of plunger with hole for intake of working fluid to rod hollow for increase of supporting power. EFFECT: higher supporting power, simplified design and increased service life of hydraulic props of high supporting power. 1 dwg

Description

 The invention relates to a hydraulic engineering and can be used in coal, engineering and other industries, in particular in mechanized supports for underground mining of coal and other minerals.

 A double-acting double-acting hydraulic cylinder is known, including a cylinder with a piston and a hollow rod of the first sliding system, and also a cylinder with a piston and a rod of the second sliding system located inside the hollow rod of the first system, in which bushings are installed between the hollow rod and the cylinder of the first and second sliding systems ( A.S. USSR N 825991, class E 21 D 15/44, publ. 30.04.1981).

 The specified hydraulic cylinder is aimed at increasing the magnitude of the sliding and equal forces throughout the range of extension, however, it does not provide high load-bearing capacity when working as a hydraulic stand mine lining.

 To increase the load-bearing capacity of the hydraulic stands, a stand was developed consisting of a cylinder in which a plunger with a sleeve is placed, and at the same time, a piston rigidly connected to the rod moves inside the plunger (Ponomarenko Yu.F. et al. Calculation and design of hydraulic drives of mechanized supports, M. , Engineering, 1981, pp. 74-75, p. 3, 4). The advantage of this rack is also the ability to create a rack-mount hydraulic system with an initial spike close to the nominal resistance, using the rod as a multiplier.

 The closest known one is the hydraulic stand of the mine lining, including a cylinder and a sliding part with a movable protective device having a cylindrical surface. The cylinder has a guide with sealing seals that interact with the working surface of the protective device and divide it into a piston cavity in communication with the mains and a rod cavity connected to the atmosphere (A.S. USSR N 524919, class E 21 D 15/44, publ. 05.11.1976).

 However, such a device has a complex structure, due, for example, to the presence of sealing elements in the bottom of the rack or to the presence of an additional channel for supplying the working fluid in the rod.

 In addition, this rack is not a plunger-type rack due to the presence of a piston, and, therefore, requires a working surface of the cylinder (protective device), which in turn reduces the service life of the rack and the reliability of its operation. The presence of chest boxes at the end of the protective device leads to the same disadvantages.

 The objective of the invention is to increase the bearing capacity while simplifying the design and increasing the service life of power hydraulic cylinders of increased bearing capacity.

 To solve the problem in a power hydraulic cylinder, including a cylinder and an extension element, a sliding element, in which a device for increasing the bearing capacity is placed, having a rod with a piston connected to the bottom of the cylinder, a piston cavity in communication with the piston cavity of the cylinder, a rod cavity with an inlet for the working fluid, the sliding element is made in the form of a plunger, in which there is an opening for supplying the working fluid to the rod cavity of the device to increase the bearing capacity.

 The drawing shows the power hydraulic cylinder in the folded position.

 The power hydraulic cylinder consists of a cylinder 1 and a sliding element in the form of a plunger 2. A device for increasing the bearing capacity is built into the plunger 2, consisting of a rod 3 with a piston 4 connected to the bottom of the cylinder 1, along which the plunger 2 having an extension 6 moves.

 The piston cavity 8 of the cylinder is in communication with the piston cavity 9 of the device for increasing the bearing capacity through the hole in the rod 3, and the rod cavity 10 of the device for increasing the bearing capacity has an inlet 11 for the working fluid, which enters the rod cavity of the device for increasing the bearing capacity through the hole made in the plunger.

Из поршневой полости 8 цилиндра через отверстие в штоке 3 рабочая жидкость также поступает в поршневую полость 9 устройства для повышения несущей способности и давит на плунжер 2 с силой

Таким образом, несущая способность гидравлической стойки (гидравлического домкрата) составляет ΣP = P₁ + P₂, при этом ΣP > P_изв, где P_изв - несущая способность гидростойки (гидродомкрата) известной конструкции.When applying the working fluid under pressure P to the inlet 7 for the expansion of the hydraulic cylinder, the working fluid enters the piston cavity 8 of the cylinder and begins to put pressure on the plunger 2 with force

From the piston cavity 8 of the cylinder through the hole in the rod 3, the working fluid also enters the piston cavity 9 of the device to increase the bearing capacity and presses on the plunger 2 with force

Thus, the bearing capacity of the hydraulic strut (hydraulic cylinder) is ΣP = P ₁ + P _2, wherein ΣP> P _keV where P _keV - gidrostoyki bearing capacity (hydraulic jacks) of known design.

 When the working fluid is fed into the inlet 7 for expanding the hydraulic cylinder, the plunger 2 can move all the way into the piston 4, while the working fluid is squeezed out of the rod cavity 10 of the device for increasing the bearing capacity into the inlet 11 for folding the hydraulic cylinder through the hole in the plunger 2.

Предлагаемая конструкция силового гидродомкрата позволяет повысить несущую способность стойки без увеличения диаметра цилиндра и давления рабочей жидкости, что улучшает эксплуатационные свойства и уменьшает затраты на изготовление.When applying the working fluid under pressure P to the inlet 11 for folding the hydraulic cylinder, the working fluid through the hole 2 enters the rod cavity 10 of the device to increase the bearing capacity and the plunger 2 is moved all the way to the bottom of the cylinder 1. In this case, the hydraulic stand is folded. The folding force is

The proposed design of a power hydraulic jack allows to increase the bearing capacity of the rack without increasing the diameter of the cylinder and the pressure of the working fluid, which improves operational properties and reduces manufacturing costs.

Claims (1)

 A power hydraulic cylinder, including a cylinder and an extension, an extension element, in which there is a device for increasing the bearing capacity, having a rod with a piston connected to the bottom of the cylinder, a piston cavity in communication with the piston cavity of the cylinder, and a rod cavity with a supply for working fluid, characterized in that the sliding element is made in the form of a plunger in which there is an opening for supplying the working fluid to the rod cavity of the device to increase the bearing capacity.