SU504680A1 - Hydraulic fuse - Google Patents

Description

one

This invention relates to the field of metal forming, in particular to the construction of fuses for mechanical presses.

Izvest1ny hydraulic nredohraiiteli from 1peregruzki mechanical presses with pneumatic uravioveshivatelem slider having a high pressure hydraulic cylinder, the housing of which is the support rod, filling the tank with hydropneumatic multiplier hydraulic -polost which is connected to the high pressure cavity gidravlicheskoto cylinder and a pneumatic discharge cavity through klanan - with the atmosphere, as well as the double-arm lever, which interacts with one arm with the valve of the unloading valve, and each it has a high pressure hydraulic cylinder piston.

However, the pressure in the high-pressure hydraulic cylinder and its water supply are raised during the operation in one stroke of the hydropneumatic multiplier, as a result, a large power reserve is required to ensure normal operation, which leads to a relaxation and complication of the design. In addition, the clamping of the unloading valve using a two-armed lever does not ensure tightness, resulting in leakage of compressed air from the Porshnevoy

the cavity of the pneumatic cylinder of the multiplier, which makes it difficult to bring the hydraulic fuse to the operating position.

In order to improve the performance of the proposed fuse, the unloading valve is made in the form of a pneumatic cylinder, the rod of which is connected by a pipeline to a control valve connected by another pipe with a slide balancing valve, and the hydraulic cavity of the multiplier is connected to the cavity of a high-pressure hydraulic cylinder by means of a two-position slide valve with a check valve.

The drawing shows the proposed hydraulic fuse.

The hydraulic safety device consists of a high-pressure hydraulic cylinder 1, which is integral with the slider 2, as well as a piston 3 that supports the connecting rod 4 and an axis 5 connected to it.

During operation, the safety valve 3 is pressed by the pressure of the working fluid to the cover

6. The hydraulic cylinder 1 is connected by line 7 to the hydraulic cylinder 8 of a pneumatic-hydraulic multiplier 9. The hydraulic cylinder 8 has an opening 10 connecting its cavity with the cavity of the filling tank 11, and a piston

12, made integral with the head 13 of the pneumocylinder of the multiplier. The two-way slide valve 14, located on line 7, can occupy the position shown in the drawing when the high-pressure cylinder 1 through valve 7 and the groove 15 in the slide 14 freely communicate with the hydraulic cylinder 8 of the multiplier. When rotated zolotnka 90 ° clockwise, the hydraulic cylinders 1 and 8 will be communicated only through a check valve built into the gold piston 14, consisting of a ball 16, a spring 17 and a plug 18 with a hole. In this case, the check valve freely passes the liquid into the hydraulic cylinder 1 and prevents it from entering the hydraulic cylinder 8. The handle 19 serves to set the ash holder to the desired position. A check valve 20 located on the mat 21, which allows fluid to flow only from the tank 11 to the hydraulic cylinder 8, serves to prevent the formation of a vacuum in the hydraulic cylinder 8 when the piston 12 moves up and the spool 14 rotates.

In the pneumatic cylinder cover 22, there is a cavity 23 with openings 24 and 25 connecting with the atmosphere the upper cavity of the pneumatic cylinder of the slide.

In the cavity 23 there is an unloading valve made in the form of a piston 26 with a rod. The valve closes the opening 25, interacting with the double-arm lever 27 pivotally connected to the piston 3. Compressed air from the three-way valve 30 is supplied through the opening 28 in the lid 29, screwed into the cavity 23, through line 31. The rail 32 connects with the balancer 33 of the slide rigidly fixed on the frame of the press. The three-way valve is arranged in such a way that if compressed air is supplied to the balancer 33, then the cavity 23 is connected to the atmosphere. If compressed air is supplied to cavity 23, a balancer 33 is connected to the atmosphere. Compressed air is fed to the cavity 23 only during (bringing the hydraulic safety device to the working position, when a gap is formed between the lever 27 and the sump 26). the piston 3 does not reach the covers 6. The microswitch 34 serves to stop the press to activate the hydraulic safety. The spool 35 serves to bring the hydraulic safety to the working position and is connected by highways 36 and 37 from the top. s and lower cavities pnevmoschilindra multiplier. The compressed air is supplied from the mains to zolot1niku ino conduit 38.

Hydraulic fuse works as follows.

When the press is overloaded, the slider 2 stops and the connecting rod 4 under the action of the при-drive drops below, displacing the working fluid from the hydraulic cylinder 1 into the hydraulic cylinder 8 through line 7 and the groove 15 in the spool 14. The piston 3 rotates the double-arm lever 27, releasing the piston 26 with a brush that under the action of compressed air, it moves upwards, opening the holes 25 and 24. Compressed air through the valve 30 enters the balancer 33, while 1 cavity 23 through the hole

28, the main 31 and the opening in the valve 30 is connected to the atmosphere.

Compressed air from the piston cavity of the pneumatic cylinder of the multiplier 9 is released through the holes 25 and 24, as a result of which the fluid pressure in the cylinders 1 and 8 drops sharply.

The piston 3 with the connecting rod lowers below with little effort, and the piston 12 rises. Due to pressure drop in the upper cavity

the pneumatic cylinder of the multiplier 9, the spool 35 is lowered by the spring 39, the compressed air from the network enters the piston 13. When the piston 12 is raised, the opening 10 opens, and the liquid from cylinders 1 and 8 flows into the tank 11. To-r-shchen 3 rises until microswitch 34 breaks the clutch control circuit and the press stops. In order to actuate the hydraulic safety device in the working position, the valve 30 is set to the position at which compressed air is supplied to the valve cavity 23, and the slide balancing element 33 is connected to the atmosphere. At the same time, the piston 26 tightly closes the opening 25. The spool 14 rotates the handle 19 at an angle of 90 ° clockwise and is set to a position at which the non-return valve built into it (parts 16, 17, 18) closes the flow of fluid from the cylinder 1 into cylinder 8 and freely passes it from cylinder 8 into cylinder 1. The slider of the press rises to its extreme upper position. Since the balancer 33 is connected to the atmosphere, the slider 2 under the action of its own weight tends to remain at the bottom, and the rod 4 with the piston 3 rises until peak 3 touches the cover 6. Liquid from the tank 11 through the holes 10, the cylinder 8 (prashni 12 and 13 are held in

the upper position is compressed air entering through the spool 35), the check valve in the spool 14 and the line 7 is sucked into the cylinder 1. After the presses are stopped between the piston 3 and the cover -6, it can remain

a small gap, due to which the cam 27 does not interact with the piston rod 26, which is pressed against the bore 25 with compressed air acting on the piston 26 from above. Then, the spool 35 manually moves up,

and compressed air from the network. The pipeline 38 enters the piston cavity of the pneumatic engine anti-vibration multiplier 9. The pistons 13 and F move — down, the liquid from the cylinder 8 is forced out into the cylinder 1, and the pressure is raised in it. If for carrying the fuse into working position is not enough one move of the multiplier, two or several consecutive moves may be made. To do this, the spool 35 is moved up again, and

Claims (1)

then down, pistons 12 and 13 also move up and then down. Moreover, during the movement of the piston 12 upward, the liquid into the cylinder 8 is sucked from the tank 11 through the 1st line 21 and the check valve 20, and the flow of liquid from the cylinder 1 into the cylinder 8 is prevented by the return valve in the spool 14. When the piston 12 moves downwards (the outflow of liquid The backflow valve 20) is prevented from entering the tank 11. A new portion of the liquid enters the cylinder 1, the pressure in its cavity increases. The spool 35 is moved up and down until the pressure in the hydraulic cylinder 1 rises to the desired value and the maximum stroke of the piston 12 is not provided to compensate for the leaks. At this point, the piston 3 finally presses against the cover 6 and rotates the double-shouldered lever 27, which tightly presses the piston 26 to the opening 25, preventing compressed air from leaving the piston cavity of the multiplier 9. The spool 14 is set to the position shown in the drawing, as a result which, through the groove 15, the hydraulic cylinders 1 and 8 communicate with each other. The control valve 30 is set to a position in which the compressed air is supplied to the balancer 33 of the press slide 2, and the cavity 23 is connected to the atmosphere. Hydraulic fuse ready for operation. 10 15 20 25 30 Similarly, fluid is pumped into the hydraulic cylinder 1 when the piston 13 is lowered to its lowest position. Claims of the Invention Hydraulic overload protection of a mechanical press with a pneumatic balancer of a slide containing a hydraulic high pressure cylinder, the body of which is a bearing of a connecting rod, an filling tank with a hydro-pneumatic multiplier, the hydraulic pressure cylinder of which is connected to the cavity of a high pressure hydraulic cylinder the pneumatic cavity is connected via an unloading valve to the atmosphere, as well as a double-arm lever that interacts with one arm with a ratrum rod Another valve with a piston of a high pressure hydraulic cylinder, characterized in that, in order to improve performance, the discharge valve is designed as a pneumatic cylinder, the stockhole of which is connected to the cavity by pipeline with a balancer of the multiplier. a high pressure hydraulic cylinder through a two-way spool with a check valve. J5 J  20 13