DE24903C - Hydraulic prism powder press without rotary drive - Google Patents

Description

IMPERIAL

PATENT OFFICE

With this press all movements, which the upper and lower punches, as well as the filling slide for generating the Have to make pressings, one and only by hydraulic; Pressure generated. It is Every rotation operation: Avoids and happens the power supply only through one to one any Accumulator - leading Prefsrohr. The press can therefore from the largest from which the force .. is generated can be placed as far away as you want:; '. - -: -;:. '■

Sheet I represents a front view of the whole Press and a "vertical section through the Prefscylinder; -; ■■■ - "· ■ ·· '■■;". : ■

The upper ■ "traverse α carries: the -prismatic stamp b and" .. 'is. at both ends "connected to the pre-stamps ■ c ;. The stamps c are moved up and down by hydraulic pressure in the pre-cylinders d.
• The lower 'traverse e is used to' the. individual small Prefskolben /, which carry the lower prism stamp g , to move together -up or down /. The outward movement of the lower traverse occurs partly through the tie rods located on both sides of the press ; same -are similar to .the upper bar attached and take the conclusion of the upward movement of the lower beam with a. The downward movement of the lower traverse occurs when the upper cross member descends by its own weight or an auxiliary weight .- "/ · - ^J :: '.-'

Sheet I also shows the two side views of the press and the peculiar control valve. The side view B shows the lever arrangement, which by means of the pull rod causes the movements of the envelope slide) and becomes this mechanism; as-neglected in the description. : The 1st side view / A, on the other hand, shows the mechanism of the actual control. . The'fdirecte control of the water inflows and outflows _{; i} happens; through the control valve; V. '. This valve is composed of four individual valves which are completely relieved by the piston-like extensions and which are neutral in relation to the water pressure in every position. The ones at the bottom; Coil springs located on extensions strive to; keep the / associated valves closed. The pressurized water from the accumulator is permanently above the two upper valves in the middle; it allows the left valve. the water: the way under that _; the two upper pistons; c, while the valve on the right opens the way over the: piston i: and under the ten pistons /, which inflows are connected to one another by suitable pipe connections. The; two lower aufsen lying valves open drains, and it is eme peculiarity of the whole, valve combination, never DAF's _one: Ausflufs .des pressure water from the Accumulator out can be done directly, 'because the Ausflufsventile, only then can always open when the Pressure shut-off valves are closed. There are the valves in pairs, each one pressure; and a drain valve, connected by a lever, which finds its support point on the valves themselves. In drawing V. the levers are in their middle position, as is the double lever i connecting the two levers, which is on

the axis k sits. The movement of this axis k takes place automatically by the machine, as will be described later.

In the drawn horizontal position of lever i , both pressure valves are closed and both outflow valves are open, but if you turn lever i on the right side downwards, the right outflow valve closes first, while the one on the left opens even more. Only after the drain valve is seated on the right, i.e. closed, does it serve as a support for the lever, and the right pressure valve opens to let in pressurized water through the upper and under the lower pistons at the same time.

If lever i is brought back to the horizontal, the right pressure valve closes again and serves as a support for the lever, in order to then open the drain valve. If the lever i is moved downwards on the left side, the same process takes place on the left side, and the water can be directed under the two upper pistons.

We now come to the actual control, ie the right and left rotation of the lever z, which is brought about by the movement of the tie rods h attached to the upper cross member.

View A shows the control mechanism on the outside. The valve V with the lever i is located on the inner wall of the stand; Lever i sits on axis k. The lever /, which a weight m always pulls down in one direction, is visible on the outside on the same axis. Lever / η is connected through tie-rod with the small isosceles lever in such a manner, the two free ends of the levers of DAF / and run in always opposite movements. The free end of I tends to swing upwards due to the weight m and is prevented from doing so by the angle hook ο on the lever /. g is a cataract, which opposes the rod r (which is loaded by a weight on the lever s and would therefore fall quickly) with an obstacle that determines the duration. The angle hook t is used to hold the lever s in its highest position. The mode of operation of this entire control mechanism is shown schematically on sheet II, in six different stages.

i. Stage. Both traverses α and e have reached their highest position, the lower traverse e has pushed the pressed powder prisms out of the mold. At the same time, the following lever movements have taken place:

Lever η is brought into its horizontal position by the stop η ¹ and has thereby closed both pressurized water inflows in valve V and both outflows opened; Lever / is held by the angle hook ο and thereby secures the position of the valve. For this purpose, the lever carrying the angle hook ο / through the stop / 'was lifted up at the same time. Finally, at the same time, lever s is raised by the stop ί 'so far that it could be secured in this position by the angle hook t; the cataract q is ready to work.

2nd stage. Since the i. At the stage when both water drains are open, both traverses sink immediately. The lever and valve position remains unchanged, only the filling slide is activated by the downward movement of the rods h and pushes the finished powder prisms in front of it.

3rd stage. The traverses are both still in the process of sinking, the filling slide is pushed forward so far that the powder forms are filled again and now begins to retreat, namely by the fact that the draw hook u is gripped by the stop u '.

4th stage. The lowest traverse has reached its lowest position, while the upper traverse sinks even deeper, so the stop s ¹ sets lever /, pulls the lever / down and first closes the drain on the right in the valve, then opens the pressurized water supply via the upper one and under the lower piston; the press is now under pressure. The downward travel of the upper cross-member is limited to a certain depth, and the sum of the pressure of the two upper pistons is slightly greater than the total pressure of all the lower pistons. As a result of this arrangement, both traverses are forced under full pressure to maintain their lowest position, which is shown in stage 5, until valve V is reversed. This change of direction now takes place in that at the beginning of the pressure the angle hook t is pressed down by the stop t ^x and releases the cataract lever s . The cataract piston with its linkage now slowly sinks down. The duration of this sinking is precisely regulated by a finely adjustable valve and at the same time determines the duration of the pressure in the press within arbitrary limits.

5th stage. The press is still under pressure, but the cataract has reached the bottom, pressing on the angle hook 0, which now releases the lever /; the weight m pulls the latter into the opposite position and the valve reverses.

o stage. The valve has completely reversed, characterized enters the pressurized water below the upper piston, the same preliminarily start to walk alone upwards until the loop is in the lower cross linkage h with-

Claims (1)

lifts and lifts the finished powder prisms out to form. That’s the one again Position of the i. Stage reached and a squeeze completed. The movements of the filling slide are brought about in the simplest possible way only by the upward and downward movement of the rods h and this is not explained further here as being irrelevant. Patent claims: i. A hydraulic press for prismatic powder or similar products, in which all movements as well as the actual pressing only happen automatically by supplying pressurized water, and with which any application of force through rotation by means of belts, wheels or other transmission parts is avoided as drawn and described. The arrangement of the cataract q, which by gradually sinking down releases the hook ο and thereby releases the valve V for reversing, so that with this device the pressure duration in the press depends on the time the cataract goes down, as shown and described. For this purpose 2 sheets of drawings.