SU1294538A1 - Friction welding machine - Google Patents

Abstract

The invention relates to equipment for friction welding machines operating under high axial loads with high rotational speeds. The aim of the invention is to reduce the overall dimension of the welding machine due to the independent choice of the areas of the pistons of the axial compression cylinders from the areas of the pistons of the hydrophor. For this, a proportional valve is installed between the cavities (P) of axial compression cylinders and P hydrophor bearings of spindle bearings, the ratio of the areas of the ends of spool 10 of which corresponds to the ratio of the areas of pistons of axial compression cylinders of hydrophor. When pressure is applied to P11, the spool rises, jointly P 11 through P 15, channel 14, P 16 with P 12, Upon reaching a predetermined ratio of pressures in workers P 11 and 12 of the valve, the valve 10 drops down and separates P 11 with P 12. At that its intermediate P 15 and 16 communicate with the drain P 17, preventing the liquid from flowing through the radial clearance between the spool 10 and the housing 9 from P 11 to P 12. 2 Il. / 3 with "e (L ts5 CD 4 Oi CO 00 Fig.g

Description

The invention relates to hydraulic equipment for friction syarking machines operating under high axial loads with high rotational speeds.

The purpose of the invention is to reduce the dimensions of the welding machine by providing an independent choice of the areas of the pistons of the axial compression cylinders from the areas of the pistons of the hydrophor.

Figure 1 shows a schematic of a friction welding machine; figure 2 is a proportional valve.

In the case when, based on the optimal operating modes of the hydraulic drive of the machine, the effective areas of axial compression cylinders 7 must be chosen less than the structurally obtained areas of the pistons 4 hydrophor and at the same time preserve. force between radial-thrust bearings and bearings 3 during all stages of axial compression, in line 6 connecting the piston cavities of the cylinders

Friction welding machine contains

spindle 1 mounted in the housing 5 7 and 5 cylinders of the hydraulic bearing cylinder, 2 on the angular contact bearings it is necessary to install a proportional 3, the outer rings of which have a hydraulic valve 8, roopors in the form of annular pistons 4, cavities 5 of which are connected by magicians 20

The proportional valve 8 shown in FIG. 2 provides a constant ratio of pressures at its inlet and outlet during all pressure stages of axial compression. The necessary pressure ratio is provided by an equilibrium of forces acting on the ends of the valve spool 10.

by the strand 6 with 7 axial cylinders cylinders connected to the hydraulic drive of the welding machine. In line 6, there is a proportional valve 8 installed in the form of a housing 9 with a dual-directional spool 10 that can be moved, the area ratio of the ends of which corresponds to the ratio of the effective areas of the pistons 4 hydrophor and axial compression cylinders 7. The valve body has a working end cavity 11 connected to the piston cavities of the cylinders 7 of axial compression, the second working cavity 12 communicated from the lanes

-

ti 5 hydrophor bearings 3 spins

40

C, is the area of the lower end of the valve spool 10, the area of the upper end of the valve spool 10.

WITH -

i

Since married

In accordance with predlodel 1, an end cavity 13 connected to the working cavity 12, intermediate cavities 15 and 16 interconnected with each other by channel 14, located between working cavities 11 and 12, drainage cavity 17 located between intermediate cavities 15 and 16, which have the ability to alternately communicate with the drainage and working cavities.

Machine for friction welding works as follows.

During the welding cycle, the joined blanks experience several Q stages of axial compression. In this case, the oil under pressure of the corresponding compression stages is supplied to the piston cavities of the cylinders 7. The force developed by the cylinders 7 through the welded axial compression forces creates a workpiece, a spindle 1 radially supported by the cylinders 7 during any bearings 3 and annular pistons heating steps. Practically, the operation of 4 cylinders of hydro-bearing, closes on the proportional valve 8 proceeding from the housing 2.dit in the following sequence.

where SS . that

Ca.

C. C,

the effective area of the pistons of the cylinders 7 is axially compressed, the total area of the pistons is 4 o-ring hydrophor,

Sz Pr

but this equation is the condition for the full perception of the hydrops of the spins

In the case when, based on the optimal operating modes of the hydraulic drive of the machine, the effective areas of axial compression cylinders 7 must be chosen less than the structurally obtained areas of the pistons 4 hydrophor and at the same time preserve. force between radial-thrust bearings and bearings 3 during all stages of axial compression, in line 6 connecting the piston cavities of the cylinders

7 and 5 cylinders of the hydraulic bearing cavity, it is necessary to install a proportional valve 8,

 5 7 and 5 cylinders of the hydraulic bearing, it is necessary to install a proportional valve 8,

20

25

The proportional valve 8 shown in FIG. 2 provides a constant ratio of pressures at its inlet and outlet during all pressure stages of axial compression. The necessary ratio of pressures is provided by an equilibrium of forces acting on the ends of the valve spool 10.

P, -C „

thirty

35

40

P, where P, - pressure at the inlet to the valve

(in the cavity 11), equal to the pressure in the piston cavities of the cylinders 7 axial compression,

P is the pressure at the valve outlet (in the end cavity 13), equal to the pressure in the cavity x 5 hydr o supports,

C, is the area of the lower end of the valve spool 10, the area of the upper end of the valve spool 10.

WITH -

i

Since married

In accordance with the predlode, the axial compression force created by the cylinders 7 during any heating stage. Practically, the operation of the proportional valve 8 occurs in the following sequence.

where SS . Ca.

C. C,

the effective area of the pistons of the cylinders 7 is axially compressed, the total area of the pistons is 4 o-ring hydrophor,

business is studued

that

Axially compressed Ramie 7 into the flow. Practical valve follower

Sz Pr

cases of the axial compression force generated by the cylinders 7 during any heating stage. Practically, the operation of the proportional valve 8 occurs in the following sequence.

but this equation is the condition for the full perception of the hydrops of the spins31294538

When a further pressure is applied, the axial compression in the piston cavity of the cylinders 7 and in the end working cavity 11 the valve 10 moves to the upper position. The cavity 11 communicates with the intermediate cavity 15 and through the channel 14 with the intermediate cavity 16, which communicates with the working cavity 12 and separates with the drainage cavity 17. A part of the working fluid from the working cavity 11 enters the working cavity 12, while in the last the pressure required for displacing the spool 10 downward and separating the working cavities of the valve, as well as the one-time communication of the intermediate cavities with the drainage cavity 17 will not increase. Since the spool is

10 is installed in housing 9 with some

20

J5

diametral clearance, even when the valve edges are closed, under the action of pressure drop in its cavities, there is a small flow of fluid from cavity 11 to cavity 15, and from cavity 12 to cavity 16. These minor leaks are removed through drainage cavity 17. Since proportional the valve is an automatic tracking device, controlled by the pressure of the fluid supplied under the ends of the spool 10, then if a given pressure ratio is violated in cavities 11 and 12. the valve instantly activates and restarts again. Lebanon desired pressure ratio. Practically, the silicone 10 itself chooses such a position in the housing 9 that this ratio will be maintained without jerks.

The implementation in the valve body of intermediate cavities in communication with each other and located between the working cavities and a drainage cavity located between the intermediate cavities allows stably maintaining the specified pressure ratio between the mezvdu line connected to the axial compression cylinders and the closed cavities of the hydraulic bearings, and prevents the flow of fluid in the locked position of the valve through the radial clearance between the spool 10 and the housing 9 from the cavity 11 into the cavity 12.,

Installation of the proposed proportional valve with. ratio of 25

thirty

40

50

schia no mechi qi from the axis of their shea

F

Ms. Punn Opti O and m h n he is 35 d v n p i w w gi w

45

55

t shch t p m g n pr pr n o l

5 o

five

the spacing of the spool ends equal to the ratio of the effective areas of the pistons of the hydraulic bearings and axial compression cylinders, the axial compression cylinders and the hydraulic bearings cylinders, makes it possible to select the areas of axial compression cylinders irrespective of the design areas of the hydraulic bearings cylinders, which control the optimal operation modes of the hydraulic drive of the machine. The independent choice of the areas of both cylinders in most cases allows to reduce the area of axial compression cylinders and, consequently, reduce the body of the welding machine, its cabinet of hydraulic equipment and the pumping station, i.e. the overall dimension of the friction welding machine.

Claims (1)

Invention Formula A friction welding machine containing a spindle mounted in a housing on angular contact bearings, the outer rings of which have hydro-bearings in the form of annular pistons, the cavities of which are connected to the axial compression cylinders by a constant, predetermined pressure ratio that differs the fact that, in order to reduce its size, it is equipped with a proportional valve installed in the main, connecting cavity of the hydrophor and axial compression cylinders, and this position the movably mounted double spool by Skov, referred to coordinate space which corresponds to a predetermined relation ends of line pressure, and made operative end cavity, the connection to the piston cavities .tsilindrov axial FAS the second working cavity connected to the cavity of the hydrocore, the second end cavity connected to the second working cavity, intermediate cavities located between the working cavities and communicated with each other, and a drainage cavity located between the intermediate cavities, while the intermediate cavities configured to alternately communicate with the drainage and working cavities.  J FIG. one Edward A.Vorovich Compiled by I.Felitsin Tehred M.Hrdanić Proofreader 1 Reshetnshs Order 425/12 Circulation 976 Subscription VNISH1I USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4