RU2109184C1 - Damping device for movable members - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: damping device includes cylindrical chuck where piston with rod, spring, hydraulic chamber filled with viscous fluid and movable sleeve made in form of cylinder with helical groove of varying pitch on its outer surface are mounted; it is connected to tail portion of rod for coaxial relative motion. Sleeve ensures braking of members in flowing of liquid at increasing effect during working stroke. Tail portion of rod is provided with longitudinal slot forming end valve between it and sleeve, thus ensuring quick and smooth motion of piston with rod during return stroke. EFFECT: enhanced efficiency. 3 cl, 3 dwg

Description

 The invention relates to the construction of moving links and loads in greenhouse and livestock buildings, rural and civil engineering for manual or mechanized opening of frames, transoms, doors, sides when regulating the air temperature in the rooms and the gas composition in them and to the functioning of specialized agricultural structures. It can be used when feeding feed for farm animals, bulk and lump materials, gravel.

 Known damping devices used, in particular, in rural and civil engineering for the operation of buildings, greenhouses, feeders, etc. One of such devices is a damping device [1], adopted as the closest analogue, containing a cylindrical cartridge, which is axially inserted into moving the stock with the piston. A coil spring is located between the piston and the cartridge. A damping hydraulic device (a chamber filled with a viscous fluid) is mounted in the rear of the cartridge, providing smooth movement of the rod with the piston. In this case, the cartridge is pivotally attached to a fixed frame, and the rod is connected with a movable link. The design flaw is located radially grooves for pumping damping fluid, which do not provide a smooth piston with a rod and shock-free damping.

 Also known are devices for damping movable links having a sleeve with longitudinal grooves in the tail part of the damper for flowing the damping fluid. The disadvantage is that in such a design, the resistance of movement of the rod with the piston is the same for the forward and reverse stroke of the links or weights under the action of an external force or internal from the side of the spring (US Pat. Nos. 3875612, class E 05 F 3/22, 1975; N 4050114, CL E 05 F 15/20, 1977; N 4263694, CL E 05 F 15/20, 1981).

 Achieved in the proposed invention, the technical result is to ensure smooth braking and shock-free damping of the moving links.

 The specified technical result is achieved by the fact that in the damping device for the movable links, mainly frames, doors, windows, transoms, greenhouses, aft boxes, including a piston with a rod, a spring and a hydraulic chamber filled with viscous liquid, enclosed in a cylindrical cartridge, one end of which is plugged and equipped with eyes, a movable cylinder sleeve in the form of a cylinder enclosed in a cartridge is used, having a helical groove on the outer surface, which provides braking of links from the brackets when the fluid flows melting effect during the working stroke. The sleeve is connected coaxially to the tail of the stem with the possibility of mutual movement. In this case, the chamber is plugged on one side, and on the other hand, on the piston side, has a cylindrical hole for introducing a sleeve with a rod. The other end of the cartridge is equipped with an oil seal installed between the cartridge and the piston rod connected by a hinge to the movable link.

 The tail of the rod at the point of attachment of the liner has a longitudinal groove for the entire length of the tail of the rod, providing quick movement of the piston with the rod during the reverse stroke. Moreover, to increase the smoothness of movement of the moving links and provide an increasing effect of braking, the helical groove on the outer surface of the sleeve is made with a variable pitch, increasing towards the hydraulic chamber.

 The design is illustrated by drawings, where figure 1 shows a damping device, a longitudinal section when charging the damping chamber in the extreme position of the piston with the rod during the stroke; figure 2 is a section along BB in figure 1; figure 3 is a profile of grooves with a variable pitch.

 The damping device consists of a piston 1 with a rod 2, a reciprocating spring 3, a hydraulic chamber 4 filled with a viscous fluid, and a sleeve 5 with a screw groove with a variable pitch 6. The sleeve is mounted on the rear of the stem with the possibility of axial movement and the formation of an end valve including a longitudinal groove 7 on the tail end of the rod. The pitch of the helical groove increases toward the hydraulic chamber. A piston with a rod, a spring, a hydraulic chamber and a sleeve is enclosed in a cylindrical cartridge 8, one end of which is sealed and provided with eyes 9, and the other is equipped with an oil seal 10, installed between the cartridge and the movable rod connected to the load or link using the eye 11. In the tail part of the damping device there is a radial hole with a grease fitting 12 installed therein for filling with liquid.

 When the damping device is operated manually or mechanically, the rod 2 and piston 1 are moved away from the hydraulic chamber 4, i.e. departure. In this case, the viscous fluid from the space between the piston and the sleeve through the open end valve 7 under the pressure of the sleeve 5 along the plane A moves towards the hydraulic chamber and fills it. During the reverse stroke (when hitting) under the action of the spring 3, the end valve 7 closes, the sleeve 5 with the rod 2 moves towards the hydraulic chamber 4. In this case, the fluid moves from the hydraulic chamber 4 along the helical groove 6 and collects in the space in front of the piston 1.

 The result is a smooth and shockless movement of links or loads.

Claims (3)

 1. A damping device for movable links, mainly frames, doors, windows, transoms of greenhouses, aft boxes, including a piston with a rod, a spring and a hydraulic chamber filled with viscous liquid, enclosed in a cylindrical cartridge, one end of which is plugged and provided with eyes, characterized in that it has a cylinder-shaped sleeve enclosed in a cylindrical cartridge, having on the outer surface a helical groove with a variable pitch and attached to the tail of the rod with the possibility of mutual movement, the chamber is plugged on one side, and on the other side of the piston, has a cylindrical hole for the input of the sleeve with the rod, and the other end of the cartridge is equipped with a gland installed between the cartridge and the piston rod connected by a hinge to the movable link.  2. The device according to claim 1, characterized in that the helical groove on the outer cylindrical surface of the sleeve is made with a variable pitch, increasing towards the hydraulic chamber.  3. The device according to claim 1, characterized in that a longitudinal groove is made on the tail end of the rod at the point of attachment of the sleeve to the entire length of the tail end of the stem with the formation of an end valve.

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