RU141437U1 - TARNSFORMATION HYDROCYLINDER - Google Patents

Abstract

Transformation hydraulic cylinder containing a double-acting cylinder filled with hydraulic fluid with a piston with a rod installed in it to form working cavities, characterized in that it additionally contains fasteners with which bodies are attached to the cylinder, between which a distance is fixed, a bypass pipe connecting the cavities the cylinder to the left and right of the piston using fittings, and an electromagnetic valve that blocks the fluid flow in the bypass pipe, and the electromagnetic valve en located outside the cylinder.

Description

The utility model relates to the field of lifting and transport engineering, mainly to systems with servo mechanisms, and can be used in engineering, in particular, in the field of transport construction.

A multi-position pneumatic (hydro) cylinder is known that provides positioning at a given point and includes a housing and a piston with a rod installed in it with the formation of working cavities and a positioning device installed in the piston, including a hole made in the piston for communicating working cavities with a drain and a control element (patent USSR No. 1305451 A1, IPC F15B 11/12, publ. 1987).

The main significant disadvantage of the known hydraulic cylinder is the relative complexity of the design and poor positioning accuracy, because the electromagnetic field of the coil acts on a permanent magnet located inside the piston, which is mechanically connected to the valve, and to open it requires "some movement" of the piston, which naturally reduces the accuracy of positioning. In addition, the device contains many parts and has large dimensions.

Closest to the claimed technical solution is a multi-position pneumatic (hydro) cylinder, comprising a housing, a piston with a rod installed in it, and a positioning device installed in the piston. The latter includes a control element in the form of at least one electromagnetic valve. The valve consists of a magnetic housing, in which a sleeve is installed with an opening that matches the hole in the piston (RF patent No. 2288377, IPC F15B 11/12, publ. 2006).

The main significant disadvantages of the known analogue, selected by the author as a prototype of the claimed utility model, are the complexity of the design and the rigidly specified number of positions of the piston rod of the cylinder.

The main task solved by the claimed utility model is: simplifying the process of transforming mechanisms, increasing the maintainability of the hydraulic cylinder and increasing the number of positioning points of two moving bodies relative to each other by improving the design of the hydraulic cylinder and introducing a bypass tube and an electromagnetic valve external to the cylinder.

The problem is solved in a utility model due to the fact that it additionally contains a bypass pipe connecting the cylinder cavities to the left and to the right of the piston using fittings, and an electromagnetic valve that blocks the fluid flow in the bypass pipe.

In addition, the task is solved in a utility model due to the fact that the electromagnetic valve is not located inside the cylinder, but outside, which increases the maintainability of the transformation hydraulic cylinder.

Neither from the patent technical literature, nor from the practice of constructing hydraulic cylinders is known about its design and, in particular, about the scheme for using an electromagnetic valve identical to that claimed in the utility model. The conclusion that the claimed technical solution meets the criterion of "novelty" is valid.

The combination of new and common known essential features of the claimed technical solution can be implemented many times. At the same time, the same effect is achieved and the main task posed by the utility model described above is solved. A legitimate conclusion should be drawn on the conformity of the declared decision with the criterion of “industrial applicability”.

The essence of the claimed technical solution is illustrated by the sketch of the transformation cylinder. The transformation hydraulic cylinder consists of a double-acting cylinder 1 installed in it with the formation of working cavities I and II of the piston 2 with a rod 3, mounted on the cylinder body using the fittings 5 of the bypass pipe 4, the solenoid valve 6 installed on it, and also the fasteners 7, with the help of which bodies 8 and 9 are attached to the cylinder, between which the distance necessary at the moment is fixed, due to the main task of the utility model. The hydraulic cylinder is filled with hydraulic fluid.

The hydraulic cylinder transformation is as follows. The hydraulic cylinder has two states: free, in which the solenoid valve 6 on the bypass pipe 4 connecting the two cavities I and II of the hydraulic cylinder 1 is open, and fixed, in which the valve mentioned above is closed. At the beginning of work, the solenoid valve 6 is closed. When the solenoid valve 6 is opened, the hydraulic fluid flows freely through the bypass pipe 4 from the cavity of the cylinder I to II and vice versa, the position of the piston rod 3 can freely change under external influence from one of the bodies 8 or 9 connected to the hydraulic cylinder. Accordingly, the distance between the bodies 8 and 9, mounted on the piston rod 3 and on the opposite side of the cylinder 1 using fasteners 7.

When closing the solenoid valve 6, the resistance of the liquid in the cylinder 1 blocks the movement of the piston rod 3, which ensures its positioning at a given point. Accordingly, the necessary distance between the bodies 8 and 9 is fixed, thereby achieving the task.

The proposed solution is technically more efficient than the prototype, because, firstly, it provides a significant simplification of the design and increase the reliability of the hydraulic cylinder by reducing the number of components, and secondly, it has greater maintainability due to the location of the electromagnetic valve outside the cylinder, and not inside . In addition, the proposed hydraulic cylinder transformation allows you to use the solenoid valve to fix the cylinder rod in any position without changing the design, which ultimately significantly expands the possibilities of using the hydraulic cylinder, in particular, for the construction of vehicles with a variable distance between the wheels.

Claims (1)

Transformation hydraulic cylinder containing a double-acting cylinder filled with hydraulic fluid with a piston with a rod installed in it to form working cavities, characterized in that it additionally contains fasteners with which bodies are attached to the cylinder, between which a distance is fixed, a bypass pipe connecting the cavities the cylinder to the left and right of the piston using fittings, and an electromagnetic valve that blocks the fluid flow in the bypass pipe, and the electromagnetic valve en located outside the cylinder.

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