SU1434192A1 - Hydraulic turnbuckle - Google Patents

Abstract

The invention relates to extension devices used to connect two parts for performing operations on clamping, pressing and fixing the relative position of individual parts of mechanisms and structures. The purpose of the invention is to ensure reliable operation of the lanyard under all operating conditions and enhanced functionality. The device includes a hydraulic cylinder consisting of a housing 1 with a piston 2 and a stem 3, a two-position valve 4 with a handle 5, having a three-way 6 and a two-way 7 controlling elements, a hand pump 8 with a rotary 9, safety valve 10, compensator 11 with an elastic element 12 and lines 13 to 24. The cylinder body 1 has a rod 25, a piston 26 and an additional 27 cavity. The handle 5 of the on-off crane 4 has two positions: 1 - "extending the piston 2 with the rod 3 and P -" working stroke - retracting the piston 2 with the rod 3. The output of the pump 8 by the lines 16 and 17 is connected to the input of the three-way control element 6 The main line 19 is connected to the rod cavity 25 of the hydraulic cylinder. The second output of the three-way control element 6 by lines 20 and 21 is connected to the piston cavity 26 of the hydraulic cylinder and at the same time the line 22 to the inlet of the two-way control element 7, lines 23, 15 and 14 are connected to the input of the pump 8 and at the same time the line 13 - to the additional cavity 27 hydraulic cylinders. This goal is achieved by ensuring reliable operation of the device in any spatial position, as well as by using it in hard-to-reach places or limited volumes due to the location of the means for supplying the working medium directly to the cylinder housing. 3 il. (L co 4; o

Description

I The invention relates to extension devices used for connecting two I parts for carrying out operations for podding, pressing and fixing individual I parts of mechanisms and structures.

The purpose of the invention is to provide reliable trouble-free operation of the hydraulic lanyard under all operating conditions and enhanced functionality. FIG. 1 shows the principle of the hydro-: the identical circuit of the device; in fig. 2 - device, general view; in fig. 3 shows the node I in FIG. 2

The device (Fig. 1) includes a hydraulic cylinder consisting of a housing 1 with a piston 2 and a stem 3, a two-way valve 4 with a handle 5, having a three-way 6 and two-running 7 control elements, a hand pump 8 with a handle 9 (for example , piston with valves), a safety valve 10, a compensator 11 (for example, a piston) with an elastic element (for example, a spring) 12 and a line from 13 to 24. The cylinder body has a rod 25, a piston 26 and an additional 27 cavity. In the non-working zone of the latter, a through radial hole 28 is provided for air outlet. I Handle 5 on-off crane 4 with i-; There are two positions: I - extension of the piston I n 2 with the rod 3 and II - working: stroke - retracting the piston 2 with the rod 3. You-; pump 8 stroke by lines 16 and 17 is connected: to the input of the three-way control element: 6 of the on-off valve 4, the first one; the output of the three-way control element 1 6 by the line 19 is connected to the igtok I cavity of the hydraulic cylinder 25, the second output of the three-way control element 6 is connected to the piston I cavity of the hydraulic cylinder 26 and simultaneously by the highway 22 to the entrance of the two-way valve the control element 7, the second output of the two i running control element 7. The motor 23, 15 and 14 is connected to the input of the box 8 and at the same time the highway 13 to the additional cavity 27 hydrocylinder.

; The device works as follows. For the production of a working operation — the contraction of structural elements — the device is brought to its original position.

The handle 5 of the on-off crane 4 is placed in, the position I is the extension (Fig. 1 and 2). By swinging the handle 9, the hand pump is activated. At the same time, the working fluid from the additional cavity 27 through the main lines 13. 14, 16, 17, the three-running control element 6 of the crane 4 through the main lines 19-21 is fed into the rod 25 and piston 26 cavities of the hydraulic cylinder simultaneously, i.e. . the hydraulic cylinder is activated in a differential circuit, which allows for a quick extension of the pistons 2

with nJTOKOM 3.

After the arrival of the piston 2 with the rod 3 to the extreme extended position, the operation "extension stops. To protect the device from overloading, a safety valve 10 exists. When the piston 2 reaches the extreme extended position, a safety valve 10 is activated. The output of pump 8 through lines 16 and 18 through safety valve 10 through lines 24, 15, 14 is connected to the input (the pump is looped around), and at the same time through the line 13, the inlet and the outlet of the pump are connected to an additional cavity 27.

The coupling elements of the device are connected to the elements of the stackable structure. Performs a workflow. The handle 5 of the on-off crane 4 is put in position II - “working stroke. By swinging the handle 9, the hand pump is activated. At the same time, the working fluid from the pump 8 via the lines 16 and 17 through the three-way control element 6 of the crane 4, the line 19 enters the pinhole cavity 25. The piston with the rod starts to be drawn into the housing 1 of the hydraulic cylinder. In this case, the working fluid from the piston cavity 26 is displaced through lines 21 and 22, through a two-way control element 7 of crane 4, through lines 23 and 15 and further along line 14 to the pump 8 inlet and through line 13 into an additional cavity 27 An excess of working fluid due to different volumes of the piston 26 and the rod 25 cavities of the hydraulic cylinder enters an additional cavity 27, the volume of which is equal to the difference of the volumes of the piston and rod cavities of the hydraulic cylinder. When the required amount of movement of the elements of the structure being constructed is reached or the required tightening force is reached, the working operation is terminated. The device is protected from overload by the method described.

A compensator 11 with an elastic element 12 is placed in an additional cavity 27 and serves to ensure reliable and trouble-free operation of the hydraulic lanyard at any of its spatial position (horizontal, vertical, inclined, up or down by a drain) by eliminating the creation of a vacuum in the additional cavity 27.

The reliability of the device is enhanced by introducing into the lanyard an additional camera with a compensator with an elastic element placed in it, which ensures reliable operation of the device in any position of the device (horizontal, vertical, etc.), and the presence of a compensator with an elastic element prevents the formation of a vacuum in the additional chamber; the design features of the device make it possible to execute it in a compact form, which allows it to be used in narrow places, in work areas of limited volume, i.e. expanded functionality.

Claims (1)

Invention Formula A hydraulic lanyard comprising a housing, a hydraulic cylinder with a piston and a rod, and means for supplying working medium, characterized in that, in order to increase reliability and enhance functionality, the hydraulic cylinder is provided with an additional chamber in which the compensator with an elastic element is located, means for feeding the working medium are made in the form of a manual hydraulic pump placed in the hydraulic cylinder body, a two-position crane with a handle and a safety valve, while the two-position valve has two controls The first element is three-way, the second is two-way, the pump output is connected to the input of the three-way control element, the first output of the three-way control element is connected to the rod end of the hydraulic cylinder, the second output of the three-way control element is connected to the piston cavity of the hydraulic cylinder and to the input of the two-way control element the output of the two-way control element is connected to the pump inlet and to the additional cavity of the hydraulic cylinder. Fi.2 FIG.