RU8753U1 - HYDROCYLINDER - Google Patents

Abstract

A hydraulic cylinder comprising a sleeve, front and rear covers, a rod, a piston with a cover installed in the sleeve to form working cavities, a ball-type bypass valve installed in the piston bore, a seat, characterized in that the hydraulic cylinder is equipped with a fixing element made in the form of a cylindrical body with a shoulder, in the piston cap a concentric bore is made concentrically bored, in which a shoulder is placed, the second end of the locking element being located in the piston bore and serving as a saddle.

Description

HYDROCYLINDER

The utility model relates to the field of mechanical engineering, namely machine tool engineering, and can be used for reciprocating movements of heavy dzlov. For example tables, the inertia of which reach significant values.

- a hydraulic cylinder (patent Clfi H 3654834.19 / 2 g, MKI F 15 B 15/22. NCI 91-399). in the piston of which a bypass channel is formed. Bores are made in the channel on both sides of the piston. Corks are located in the bores, which are connected to a rod moving in the channel. The disadvantage of the hydraulic cylinder is the complexity of the design.

The well-known hydraulic cylinder described in the book of Basht T.M. Volumetric pumps and hydraulic motors of hydraulic systems. M .. Engineering. 1974 p. 504 ... 508.

I cylinder contains a sleeve. Front and back covers, pin. a piston equipped with cylindrical protrusions on both sides. which, at the end of the stroke, enter (alternately) into the bore of the cap with a minimum clearance. Throttle the remaining volume of the working fluid into the drain line by throttling.

When moving the hydraulic table, there is a need to stop it in one or more intermediate positions. With a sufficiently large mass of the table .Tf with fixtures mounted on it, to the workpiece), the task of smoothly stopping in intermediate positions is complicated by the significant inertia forces that arise when it stops.

The main condition for stopping the hydraulic cylinder (stem) (secTKO stem is connected to the table) in an intermediate position is the creation of a locked volume of the working fluid in the drainage cavity by stopping the discharge from the drainage cavity, while at the same time stopping the supply of working fluid to the pumping cavity of the hydraulic cylinder.

This, as equals, is achieved through the use of an exposure control valve with a closed center in a neutral position. But with this, in the drain cavity of the hydraulic cylinder, the pressure of the working fluid can increase to significant values (hydraulic gift). To prevent water hammer arising in the drain cavity, install, for example, a brake valve that connects the damping cavity (drain cavity) to the drain (see the book TM Bashta. Volumetric pumps and hydraulic motors of hydraulic systems, M., Mechanical Engineering, 1974 p. 505.

The disadvantage of the hydraulic cylinder is that it creates a vacuum in the discharge cavity, which makes damping difficult, and also the difficulty in positioning this hydraulic cylinder.

When the table stops in the intermediate pod, it is usually fixed (positioned) with the help of a drive lock, the sliding element of which catches the corresponding table socket.

Since the speeds of the table and the pull-out element of the lock are different, the transition or non-profit of the axis of the socket relative to the drawer will necessitate fine tuning backward or forward (the phenomenon of swimming empty) in order to finally position the table in a certain position.

This phenomenon is achieved, for example, due to the placement of an overflow valve in the piston body, as, for example, it is made in the differential cylinder according to the drawing ZD 50135-415, of the company

Hull (Germany) manufactured in a joint stock company

Auto -G, And which adopted 3i flpOTOTHll. (See, lIniJiUjgfM.

dash.

The differential cylinder contains a sleeve, front and rear noses, a rod, a composite piston, into which a bypass is inserted (th 1 / .pdn, into the P14POLNNN channel, passing through both seats of the piston. can make reciprocating movements in the bores and interact with each other through a pusher placed in the piston channel.The course of each of the balls is limited on one side by a saddle, and on the other - by a split unor placed in the bore.

The purpose of the bypass valve is to briefly connect certain intervals of time, the working cavities of the hydraulic cylinder to each other, in order to smooth out pressure peaks arising in the drain cavity when the piston (rod) stops in intermediate positions, as well as to ensure the phenomenon of swimming when the cylinder is positioned.

The disadvantage of this hydraulic cylinder is the design complexity and its increased dimensions.

According to the authors, the complexity of the design of this hydraulic cylinder is due to the design of the bypass valve and the integrated piston. The perpendicular valve consists of two balls and an aerofoil located between them, while, in the case of the Institute of Internal Affairs oAiioro of balls with a seat, it does not take a second part in the hermeization and works only when the rod moves in the opposite direction.

The positioning of the table is usually necessary when moving the research institute shtpka in only one direction (movement in the opposite direction, as a rule, a quick retraction and a smooth stop at the end of the course, is carried out by braking at the end of the course).

11, since there are two balls, a pusher, two stops and two covers holding the stops, they have significant linear dimensions, then after placing the bypass valve in the piston, the dimensions of the latter will be significantly increased. Therefore, in the design of the hydraulic cylinder, large-sized U-shaped cuffs are used. R bpp in cases of myrip hydraulic cylinder epplu 1II wound seal that seals the piston 1yl1;, p ;. At m-Ksh width with a piston (for example, a rubber o-ring or seal according to Russian patent N 922372 is used as a seal), it is not possible to install a bypass valve of this design into the piston without artificially increasing its width.

The design of the bypass valve predetermines the width of the piston, and therefore entails an increase in the g-arity of the hydraulic cylinder.

 The technical problem, the solution of which the claimed model is aimed at, is to simplify the design of the hydraulic cylinder and reduce its dimensions.

To solve this problem, a hydraulic cylinder containing cylinder liner front and rear flaps, a yoke, a piston with a cover installed in the sleeve with the formation of working cavities, a ball-type bypass valve installed in the piston bore, a seat, is equipped with a fixing element made in the form of a cylindrical body with collar, in the piston cap a concentric bore is made concentric to the piston recess, in which the collar is placed, the second end of the locking element being located in the piston bore and serving as a saddle.

Comparative analysis with the prototype shows that the inventive hydraulic cylinder is characterized in that it contains a fixing element made in the form of a cylindrical body with a shoulder, in the piston cover a concentric bore of 5-centimeter piston bores is made. and serves as a saddle. Thus, the claimed device meets the criteria of a utility model of novelty.

The proposed drawing shows a hydraulic cylinder with a piston group installed on the iTOKe, marked in the cylinder liner.

The hydraulic cylinder consists of a sleeve 1, a front and a back cover (or the drawing is not shown), a feeder 2, a piston 3, working cavities 4 and 5. A bore 6 is made in the piston 3, in which a bypass valve (ball) is sized connecting the working cavities 4 and 5 to each other at certain intervals. And the course of which is limited on both sides by the seats 8 and 9. In the cover 10 of the piston 3, a recess is made concentric to the bore 6 of the piston 3, in which the shoulder of the fixing element 11 is placed, by means of which the cover 10 of the piston 3 is fixed, and the piston 3 from mutual reversal and I fix rd member 11 - against axial displacement.

The hydraulic cylinder operates as follows.

When pressure is applied, for example, into working cavity 5 (currently pumping cavity), the pressure arises in the latter necessary to move the piston 3. Under pressure, the ball 7 moves into the bore 6 and rests on the seat 8, ensuring reliable separation of the pumping cavity 5 to the drainage cavity 4, Pl) and the piston 3 stops in the intermediate position, due to the locking of the drainage cavity 4, the pressure begins to increase sharply in the latter, since the closed volume continues to press, being crossed by inertial forces by the piston 3. Under pressure. Return 11kat | it in the drain

- b cavity 4.1arik is wrung out from the saddle 8 and moves to the races

tpchk П пп иппй о г (| fin Я Я. RfspMS пппрмнмрчь ifiUK. ч.

 “- - - - 1-1 - - - - fzh - 1 seat 8 to seat 9, part of the working fluid will be forced out of cavity 4 into cavity 5 by itself, damping of the moving mass will occur and a significant decrease in pressure increase in the locked drain cavity 4.

The process of damping proceeds in a similar way when the porch moves in the opposite direction.

Having equipped the hydraulic cylinder with a fixing element, made in the form of a cylindrical body with a shoulder, in the empty porch, having performed an ioncentric boring of the empty piston, in which the collar was placed, installing the second end of the locking element in the empty piston, which also serves as a saddle, it became possible to simplify the design of the hydraulic cylinder and reduce its dimensions .

Claims (1)

A hydraulic cylinder comprising a sleeve, front and rear covers, a rod, a piston with a cover installed in the sleeve to form working cavities, a ball-type bypass valve installed in the piston bore, a seat, characterized in that the hydraulic cylinder is equipped with a fixing element made in the form of a cylindrical body with a shoulder, in the piston cap a concentric bore is made concentrically bored, in which a shoulder is placed, the second end of the locking element being located in the piston bore and serving as a saddle.