SU264167A1 - Hydropneumatic holder for press pads - Google Patents

Description

This invention relates to hydropneumatic holders of pneumatic pads mounted on mechanical presses, preferably of dual action.

A hydropneumatic holder for press cushions is known, containing a holding cylinder located under the cylinder of a pneumatic cushion, the piston rod of which is rigidly connected to the cylinder of a pneumatic cushion, as well as a pneumatic cylinder associated with the holding, its cylinder and control system.

The proposed holder differs from the well-known fact that in the piston of the holding cylinder there are overflow channels with spools installed in them, controlled by a pressure regulator built into the control system, while the pneumatic cylinder is mounted coaxially with the holding cylinder and rigidly connected to it.

This simplifies the holder design and improves the working conditions.

FIG. 1 shows the proposed holder, a longitudinal section; in fig. 2 shows a cross-section of the holder along A-A in FIG. 1 and a section of the housing element along BB; in fig. Figure 3 shows successively the schemes for switching on the holder in the modes "free movement," holding and "throttling when ejected.

The described holder consists of a holding cylinder 1 located under the cylinder 2 of the air bag.

Inside the holding cylinder, the piston 3 is moved, in which the channels 4 are installed with ball valves 5 installed in them. The balls 6 of the valves are located freely in the valves closed with covers 7 on top. In the channels 8 of the piston there are spools 9 which are bodies with pistons moved inside them mi 10 in contact with springs And, resting on the spool cap 12.

The body of the spool has a hole 13, coinciding with the channel 8.

The piston 3 is sealed in the cylinder cuff 14.

The rod 15 is attached to the piston by bolts 16 and rigidly connected to the rod 17 of the cylinder of the pneumatic cushion by the nut 18.

Channels 19 and 20 are made inside the rod, connecting the cavities 21 of the airbag cylinder with the channel 22 passing in the piston.

connects sub-piston cavity 27 to bore 28 to which air from the pneumatic circuit is supplied.

A coaxial cylinder 29, which is a multiplier, is installed at the coaxial retaining cylinder. It is bolted 30 bolted to the bottom cover 31 of the holding cylinder. In the cavity 32 of the cover, the piston 33 can move. Through the opening 34, the cavity 35 of the piston is in communication with the atmosphere. The piston is sealed with cuffs.

In the bottom cover 36 of cylinder 29 there is an opening 37 for connection to a pneumatic circuit.

In the control system of the holder, pressure regulator 38, air distributors 39 and check valve 40 are installed.

In order to release air, when filling the holder in the cylinder 1, a passage 41 passes, at the outlet of which a valve 42 is installed with a locking needle 43.

The holder works as follows. When moving the slide presses of a double action downward, the piston 3 of the holder is in its extreme upper position before the central slide starts to act on the paddock.

The outer slider before the internal one approaches the workpiece and presses it. Following him, the internal slider deforms the workpiece, while the compressed air of nominal pressure in the cavity 21 of the pneumatic cushion cylinder acts on the liquid in this cavity, which through channels 20 and 19 presses on the piston 10 and moves it to the left due to Spring 11. In the hole 28 and the channel 24 at this time, compressed air is not supplied. Therefore, on the left side, the piston is not under pressure. In the right extreme position of the piston, its bore 13 coincides with the channel 8 of the piston; the fluid flows freely through these channels and channels 4, raising the valve balls, flows into the cavity 25, thereby ensuring the free stroke of the piston 3 downwards.

When the inner slider comes to the bottom dead center, the punching is finished, it should rise up, detach from the product pressed by the outer slider.

The upper stop of the airbag must somewhat move downward from the product, which is achieved by supplying compressed air to the nominal pressure at the openings 28 and 37. The pressure on the piston 10 on the right is carried out continuously through the channels 20, 19 and 22.

The pressure of the air supplied to the opening 28 acts on the fluid in the channel 24, and through the cavity 27 under the piston 3 acts on the left of the piston 10.

Since the pressure of the piston 10 on both sides is odiakovo, the piston is retracted to the right position by the spring 11.

The channel 8 and the hole 13 are blocked by the piston 10, the flow of fluid from the cavity 21 into the cavity 25 is stopped. To pressurize the fluid in the cavity 25 and the piston 3 to move downward, the compressed air through the opening 37 pushes the piston 33 upwards, which, in its movement, compresses the fluid in the cavity 32, and this pressure of the fluid through the channels 26 and 23 is transferred to the cavity 25.

When the inner and outer slides move away from the workpiece, the stamped product is pushed out of the die. At the same time, compressed air is supplied to the opening 26 from the pressure regulator 38 (its pressure is lower than nominal, and through the channel 24 and the cavity 27 is supplied to the left side of the piston 10. Since the equilibrium of forces to the right and left applied to the piston 10 is established with some compression springs, and taking into account the inequality of forces from unequal pressures of compressed air to the right and left of the piston, the last from the right extreme position will shift to the left.

The annular groove 44 at the same time partially closes the opening 13 and the channel 8, and acts as a throttle, quantitatively reducing the flow of fluid from the piston cavity 25 into the sub piston space, which slows down the speed of the piston 3 moving upwards.

Claims (1)

Invention Formula A hydro-pneumatic holder for press cushions containing a holding cylinder located below the pneumatic cushion cylinder, the piston rod of which is rigidly connected to the pneumatic cushion cylinder rod, and a pneumatic cylinder associated with the holding cylinder and control system, characterized in that, in order to simplify the design and improvement of working conditions, in the piston of the holding cylinder there are made bypass channels with spools installed in them, controlled by a built-in regulating control system torus pressure, while the pneumatic cylinder is set XOO the retaining cylinder and rigidly connected to it. /five rig. one X / -X /