RU2089757C1 - Multistep hydraulic cylinder - Google Patents

Abstract

FIELD: materials handling. SUBSTANCE: cylinder is made in form of flat piston - cylinder block with at least one longer stroke cylinder arranged in hollow rod of piston. Hollow rod of first cylinder serves simultaneously as tube of cylinder or cylinders with longer stroke. Ratio of working surface of hollow piston-cylinder block and working surface of cylinder or cylinders with longer stroke is from 2:1 to 5:1, maximum. According to proposed method of displacement of loads differing in degree of load and displacement strokes by means of multistep hydraulic cylinder, first higher pressure of working medium is applied to piston-cylinder block to tear off the load and then working pressure is applied to longer stroke cylinder for displacement of load. EFFECT: enlarged operating capabilities. 3 cl, 4 dwg

Description

 The invention relates to a multi-stage hydraulic cylinder and to a method for moving cargo with various degrees of load (backpressures) and different lifting stroke using this multi-stage hydraulic cylinder.

 Known multi-stage hydraulic pressure cylinder for moving goods with different degrees of load and various travels, containing the first cylinder, made in the form of a hollow piston-cylinder block with connections for supplying a working medium to the working cavity, in the hollow rod of which an elongated cylinder with a piston and a rod is located, moreover, the hollow rod of the first cylinder is a pipe for an elongated cylinder.

 The objective of the invention is to create a multi-stage hydraulic cylinder, which is able to move loads with different degrees of load and different heights of movement, which has a compact design, made as small as possible and can be made with less cost than a multi-stage lifting cylinder of known design .

 This problem is solved due to the fact that in the multistage cylinder described above the first cylinder is fixed on a support, the elongated cylinder rod is hollow with an additional piston with a rod placed in its cavity, and is equipped with separate connections for supplying a working medium, while the elongated cylinder is placed in the hollow rod of the first cylinder with the exception of the possibility of contact of its rod in the absence of a working medium with a moving load, for example, a baking electrode of a direct current arc furnace.

 It is advisable that the ratio of the areas of the working surface of the piston of the first cylinder to the working area of the pistons of the elongated cylinder lie in the range from 2: 1 to 5: 2.

 A known method of moving cargo, for example, the bottom electrode of a DC arc furnace, with different degrees of load and different travels using a multi-stage hydraulic pressure cylinder. According to the invention, to move the load with an initially high backpressure knocking out the bottom electrode from the bottom of the furnace, the pressure of the working medium is initially supplied exclusively in the cavity of the first cylinder mounted on the support, and when moving the load with a small back pressure, the pressure of the bottom electrode inside the furnace is raised to the pressure of the working medium extended stroke cylinder.

 Such a multi-stage hydraulic cylinder can be used as a three-stage lifting system, for example, in a DC electric arc furnace in order to extract bottom electrodes having a weight of about 26.0 tons from the furnace chamber or load it after appropriate wear or burning from the bottom of the electric furnace, lined with refractory material.

 The pressure applied at the first stage of the system, having a total of three stages, should be up to about 100 tons in order to disconnect the strongly sintered and tamped bottom electrodes and raise them to a height of about 300 mm. At the second and third stages, the bottom electrodes separated from the bottom can be lifted by two internal lifting cylinders, approximately 2000 mm, so that they can be caught by another lifting device, for example, a workshop crane and transferred to the site for repair or repair in the workshop metallurgical plant and unload there.

 In FIG. 1 shows a cross section of a three-stage lifting cylinder in its initial position; figure 2 section of a three-stage lifting cylinder with an extended stage 1; in FIG. 3 section of a three-stage lifting cylinder in the extended position; in FIG. 4 is a cross section of a three-stage cylinder below the bottom electrode of a DC electric arc furnace.

 The hydraulic cylinder shown in FIG. 1-3, is a three-stage cylinder, consisting of a first cylindrical stage I, made in the form of a hollow piston-cylinder block with a cylinder in the form of a pipe 1, a piston 2 and a hollow piston rod 3.

 In the hollow piston rod 3 there are two 4.6 long-stroke cylinders made in the form of a telescopic cylinder.

 The hollow piston rod 3 has a stroke limiter 5 for the telescopic piston 4 of stage II, and the telescopic piston 4 has a stroke limiter 7 for the telescopic cylinder 6 of stage III.

 The cylinder 1 pipe is equipped with connections 8 for supplying a medium for lifting and 9 for lowering to a stage I. Corresponding connections 10, 11 for supplying a working medium at stages II and III are (for lifting) under the hollow piston rod 3 and (for lowering) on the side the upper zone of the hollow piston rod 3.

 Position 13 denotes a stationary support on which the cylinder of stage I can rest.

 In FIG. 1 shows a three-stage lifting cylinder in its initial position.

 In FIG. 2 it can be seen that the hollow piston rod (3) is extended upward as step 1.

 In FIG. 3 shows a three-stage lift cylinder in a fully extended position, that is, when both telescopic cylinders have moved to their lift limiters.

 In FIG. 1-3, the use of a hydraulic cylinder according to the invention as a lifting cylinder for raising and lowering a load (12) is presented. It goes without saying that the device according to the invention can be used to move goods in other directions.

 In FIG. 4 illustrates the use of a three-stage lifting system using a practical example, in particular for extending bottom electrodes from a DC electric arc furnace in accordance with the above description.

 The bottom electrodes 14 are located in the chamber of a DC electric arc furnace and as a result of wear, they must be replaced from time to time with new or reconstructed bottom electrodes. With the help of multi-stage cylinders 16 located under the bottom of the furnace along the perimeter of the bottom electrodes, which press the bottom electrodes 15 below the bottom electrodes 14, the initial high pressure (weight of the bottom electrode about 26 tons) created by the working medium of the hollow piston-cylinder block is applied to the bottom electrode according to the invention ( 1, 2, 3). Due to this, the bottom electrode 14 is separated from the surrounding refractory lining of the furnace. Then the elongated cylinders lift the bottom electrode with less pressure, moving it into the chamber of the electric arc furnace. Then the worn electrode is discharged from the furnace using a grab.

Claims (3)

 1. A multi-stage hydraulic pressure cylinder for moving goods with different degrees of load and various travels, comprising a first cylinder made in the form of a hollow piston of a cylinder block with connections for supplying a working medium to working cavities, in the hollow rod of which there is an elongated cylinder with a piston and rod, and the hollow rod of the first cylinder is a pipe for an elongated cylinder, characterized in that the first cylinder is mounted on a support, the rod of the elongated cylinder is made floor equipped with an additional piston with a rod in its cavity and equipped with separate connections for supplying a working medium, while an elongated cylinder is placed in the hollow rod of the first cylinder with the exception of the possibility of contact of its rod in the absence of a working medium with a moving load, for example, a baking electrode of an arc furnace direct current.  2. The cylinder according to claim 1, characterized in that the ratio of the areas of the working surface of the piston of the first cylinder and the working area of the pistons of the elongated cylinder lies in the range of 2 5 1.  3. A method of moving cargo, for example, a bottom electrode of a DC arc furnace, with different degrees of load and a different course of movement using a multi-stage hydraulic pressure cylinder, characterized in that for moving the load with an initially high backpressure, the bottom medium is knocked out of the bottom of the furnace with the working medium pressure initially served exclusively in the cavity of the first cylinder mounted on the support, and when moving the load with low backpressure, the bottom electrode is lifted inside the furnace The pressure of the working medium is supplied exclusively in the cavity of the elongated cylinder.

Images