DE1500429C3 - Refill to compensate for leakage losses in a pneumatic hydraulic pressure intensifier for presses or the like - Google Patents

Description

3 4

one with the oil reservoir, an air collector, maintains, essentially has an upper one the top of the pneumatic cylinder, the atmospheric pneumatic cylinder 42 and a lower hydraulic sphere and the bottom of the pneumatic cylinder cylinder 44 on. The two cylinders are connected in tan is, and in this housing a dem assembly on each side of a central housing rotary valve be stored, the connecting channels 5 ses 46 arranged. A pneumatic piston 48 is in has for the passages, of which three used the pneumatic cylinder 42, which KoI- and add two to each connection system under the influence of the one acting on it are summarized, and the rotary valve can be reciprocated with compressed air. A pipe conveyor an actuatable via the switch solenoid ger section 50 extends from the Pneumatikkolderart be rotatable that in the fallen state io ben down through the central housing 46 times in the top of the pneumatic cylinder and the through and forms a hydraulic piston 52 in the lower air collector and on the other hand, the oil reservoir ren hydraulic cylinder 44. The compressed air for the and the underside of the pneumatic cylinder with the pneumatic cylinder 42 is exposed to this from an outside atmosphere are connected. In the energized state ren, not shown source supplied. This The solenoid is in this case the underside of the pneumatic 15 Compressed air is discharged from a compressed air line 54 and the oil reservoir with the air tap and a pressure relief valve 56 closed collector and the top of the pneumatic cylinder passed a collector 58 in which a constant connected to the atmosphere. There is pressure. The one coming from the collector

With particular advantage, compressed air can then be supplied to the pneumatic cylinder 42 via switching

lais via the switch that is actuated by the piston, 20 a control valve 60 is fed, which the movement

be connected to the power line, and controls the brine direction of the pneumatic piston 48. The on

noid for the control valve can attack the pneumatic piston in a normal way

open contact pair with the power line. Forces are transmitted to the hydraulic piston 52.

be bound. The switch operated by the piston. The pneumatic piston has, as shown, for

can, from a normally open pressure transmission, a larger diameter than

be bridged. This will make a very of the hydraulic piston.

simple and reliable automatic switching. On one side of the pneumatic cylinder 42 is a

possible. Hydraulic reservoir 62 attached. The outlet

: With particular advantage, this storage container stands between the relay and the interior of the

and the power line a thermal delay controller 30 central housing 46 via a channel 64 in connection

can be switched on. This creates a compound that is formed in this housing. The

wisse- delay reached, which is set in such a way, the central housing is then versed with an insert 66-

that the necessary time is available for refilling, which encloses an annular chamber 68 which

is standing. in turn surrounds the hydraulic piston 52. The Cam-

In a further preferred embodiment, the mer 68 is connected to the channel 64 and thereby the pair of contacts for the solenoid of a storage container 62 and is bridged to the manual switch. As a result, pressure in the pneumatic cylinder 42 and in the hydraulic system enables a refill ring 70 and 72 to be sealed at any time without a preceding cylinder 44 having occurred due to a leakage oil loss of the upper and lower seal. These sealing rings len is carried out. 4 ° allow a sealed longitudinal sliding movement of the .. In the figures of the drawing is an execution hydraulic piston 52.: ..-- ■ ·
Example of the invention shown. It shows the F i g. 2 shows that the hydraulic piston is a

F i g. 1 has a partially sectioned side view of the longitudinal bore 74 extending from the lower

a pressure end of the hydraulic piston having the refill device extends. An

translator with machine, 45 number of in the circumferential direction on the hydraulic piston

F i g. Figure 2 is a perspective, partially sectioned, distributed slide slots 76 associated with the bore

View of the in FIG. 1 shown pressure 74 of the hydraulic piston in connection, this

Hydraulic piston used, slide slots at a short distance from the un-

F i g. 3 a and 3 b schematic representations of a lower end of the hydraulic piston are arranged. Control valve in a first and in a second position 50 In all positions with the exception of those in the operating position to control the in F i g. 1 shows the top dead center position of the piston th intensifier, hydraulic cylinder against the chamber 68 and against

FIG. 4 shows an electrical circuit diagram of a circuit diagram of the reservoir through the hydraulic piston 52

ses, which in FIG. 1 shown pressure over-sealed. However, if the hydraulic piston has a

is used, and 55 position close to the top dead center position

Fig. 5 is a view of part of the one in FIG. 1, then the slide slots 76 are aligned with the pressure booster shown in the refill position. annular chamber 68, and the hydraulic cylinder. The various pistons of the in F i g. 1 then stands with the storage container 62 above the press as a working machine in the work step longitudinal bore 74 and the slide slots 76 in the hy under a continuous, constant hydraulic piston 52 as well as the chamber 68 and the Kaschen pressure, which is drawn through lines 30 and 32 64 in the central housing 46 in connection,
will lead. These lines are with a feeder. The control valve 60, which connects the compressed air from the collector 34, which in turn conducts the pneumatic-hydraulic pressure tank 62 with the pneumatic pump 58, is connected to the hydraulic-hydraulic pressure booster 40. The top of the pneumatic-hydraulic pressure is. 65 translator 40 arranged. The F i g. 3 a and 3 b

The pneumatic-hydraulic pressure intensifier schematically shows an embodiment of the control

40, which generates the desired hydraulic pressure, valve 60. As shown, an external, stationary

and the constant pressure in the feed line res, annular housing 78 provided in which a

5 6

Rotary valve 80 is mounted. The housing 78 touches and closes its contacts. With reference to 5 channels 82 to 90 which are equidistant from- F i g. 4, in which the electrical circuit diagram is shown through each other on the housing circumference , a relay 112 is generated via the power line 116. These channels are correspondingly excited by the top, whereby normally open contact pairs 118 on the side of the hydraulic reservoir 62, the collector 5 and 120 are closed and a normally closed 58, the top of the pneumatic cylinder 42, the Atsenes contact pair 122 are opened. As a result, a solenoid 102 of the control valve is energized and connected to Linders 42 with the underside of the pneumatic cylinder. The rotary valve 80 has the rotary valve 60 in the position shown in FIG. 3 b to switch five on its circumference at the same distance from a second position. In this position, other arranged openings 92 to 100 open, from io the high pressure outlet of the collector 58 with the underneath the first three openings 92, 94 and 96 over the underside of the pneumatic cylinder and the upper side channels in the rotary valve and the last two opening of this cylinder with connected to the atmosphere, ports 98 and 100 are connected in the same way. At the same time, compressed air from the collector is connected to the front. The rotary valve 80 is supplied to the intermediate container 62. As a result, the liquid is a first in FIG. 3 a and a second in 15 speed in the reservoir under pressure.
F i g. 3 b position shown rotatable. Although the pneumatic piston 48 is moved in this way, the rotary slide valve is moved 72 ° opposite to that of the switch 104 , both remain rotated clockwise. In the first position, the relay 112 and the solenoid 102 are activated, the collector 58 directly with the lower part of the, because the second pair of contacts 120 pneumatic cylinder 42 below the pneumatic piston 20 closes a holding circuit for the relay 112,
bens 48 as well as with the top of the hydraulic reservoir 62 when the pneumatic piston 48 is connected to the top end of the advice container. At the same time, the top of the pneumatic cylinder 42 is reached, the side of the pneumatic cylinder 42 with the atmosphere is connected to the control slots 76 in the hydraulic piston 52. This moves the pistons 48 and 52 upwardly in annular chamber 68 and 64 with channel 64. If the rotary valve 80 is opposite to the flow connection. As a result, the reservoir for the hydraulic system, which is set against the clockwise direction in its second setting, is used, as shown in FIG. 3b, is twisted, fluid is brought into communication with the interior of the hydraulic cylinder of the collector 58 then with the top of the pneumatic. Pressurized hydraulic cylinder 42 connected, while the upper side of the hydraulic fluid now passes from the reservoir 62 and the lower part 30 ter into the hydraulic cylinder.

of the air cylinder 42 are connected to the atmosphere. A thermal delay element 128, 130 enables the pistons 48 and 52 to be in their upper position.

A solenoid 102 is left at the top of the pneumatic position for a certain period of time, which is sufficient for the hydraulic pressure booster 40 to fill up the hydraulic system, and is connected to the rotary valve 80 of the control unit. This period of time is approximately 30 seconds . At the end valve 60 in communication such that the solenoid, at this time contacts 128 of the delay, when it is energized, this slide 80 is opened in its second relay, and thereby the relay 112 is moved into position (Fig. 3 b), and when it is not energized active, so that the contact pairs 118 and 120 are open, the rotary slide valve is returned to its first position net, the solenoid 102 and the holding circuit for the (FIG. 3 a). 40 relay 112 are switched off. The contact pair

Within the central housing 46, a switch 122 is also closed, and the press is 104 provided, the normally open contacts restart their normal operation. With the Abaufnahm and which is arranged such that by switching the solenoid 102 , the control valve returns the movement of the pneumatic piston 48 in the lower 60 in its first position, whereby the pressure dead center in this position are closed 45 from the reservoir 62 and where can. This is done by means of a push button 106, through the supply of compressed air to the upper side, which is switched to the lower part of the pneumatic cylinder of the pneumatic cylinder 42 so that it extends into it, so that the pneumatic piston 48 and the hydraulic piston 48 are gripped by the pneumatic piston 48 when the pneumatic piston must be pushed downwards. The hydraulic pressure reached tere dead center. 50 is not built up immediately when

During operation, the hydraulic supply will move these pistons downwards. Any excess

container 62 with oil or another hydraulic fluid to hydraulic fluid in the system passes through the

refilled. The level in the container is determined by the bore 74 and the control slots 76 in the hydraulic

by means of an upright piston 52 arranged on the container side, the chamber 68 in the insert 66 and the

glass 134 displayed. 55 nal 64 in the central housing 46 to the storage container 62

Compressed air from line 54 is returned to the collector, which is no longer under pressure. First

58 supplied. When the control valve 60 is in its when the control slots 76 are below the lower

normal or first position, as you have moved in seal 72, the pressure over-

F i g. 3 a is shown, is - as already mentioned - set up a hydraulic pressure in the system-compressed air build the top of the pneumatic piston 48 60. This creates an automatic limitation

supplied to this and the hydraulic piston 52 tinging effect with respect to the hydraulic to be refilled

to press down. Thereby the press hydraulic amount is achieved, so that the hydraulic system in

closed. easier and more precise way with the right amount

If small amounts of liquid can be filled as leakage losses before the full pressure of the

get lost during the operation of the press, 65 pressure intensifiers are fed back into the system,

The pneumatic piston 48 and the hydraulic This automatic limitation also takes place during

piston 52 lowered until a point is reached at which the operation of the press takes place,

which of the pneumatic piston 48 the switch 104 ■ In the time during which the control slots 76 with

the chamber 68 are in communication, the hydraulic pressure drops immediately to the pressure in the Reservoir 62 prevails without the risk of air being sucked into the hydraulic system will. The possibility of the pneumatic piston 48 hitting hard against the top of the cylinder the sudden occurrence of back pressure is avoided.

The system can be filled with hydraulic fluid at any time before the full downward movement the piston is done, and simply

in that a manual switch 110 is switched so that its first contact 108 a third Contact 132 touched. This forms a circle that defines the normally open pair of contacts 118 bypassed, whereby the solenoid 102 is energized. The solenoid then immediately switches the control slide 60 µm so that pressure is applied in the manner described to move the pistons upward in to move the filling position. Compressed air is also supplied to the reservoir 62, and liquid passes from the container into the hydraulic cylinder.

1 sheet of drawings

309 520/98

Claims (4)

1 2 characterized in that a thermal delay relay (128, 130) is switched on between the relay patent claims: (112) and the power line (116). 1. Refill device to compensate for 5. Refill device according to claim 3 leakage oil losses in a pneumatic-hydraulic 5 or 4, characterized in that the conical pressure intensifier for presses od rigidly connected pneumatic and manual switch (110) is bridged.
Hydraulic piston and with a valve arranged in the hydraulic piston of the pressure booster, through which in the area of the upper dead io point position of the pneumatic piston or hydraulic piston of the pressure booster of the inlet of The invention relates to a refilling device Refill oil to the hydraulic cylinder from the oil to compensate for leakage oil losses in a tire reservoir is released, thereby automatic hydraulic pressure intensifier for presses characterized that in the movement 15 or the like with rigidly interconnected pneumatic path the pneumatic piston (48) to its lower and hydraulic piston and with one in the hydraulic Dead center a switch (104) arranged like piston of the pressure booster arranged valve, is, which, when actuated by the pneumatic through which in the area of the top dead center position tic piston (48) due to excessive leakage oil list of the pneumatic piston or hydraulic piston of the a compressed air supply (90) via a control valve 20 to the pressure booster the supply of refill oil (60) for returning the pneumatic piston (48) activates the hydraulic cylinder from the oil reservoir and at the same time will give a compressed air supply. (82) via the control valve (60) to the free Aus der USA.-Patent 2,765,625 is a The surface of the refill oil in the oil reservoir refill device for a pressure intensifier (62) releases, and that the valve is known through slide 25, in which the hydraulic cylinder is slots (76) in the jacket of a tubular outlet and in the hydraulic piston a spring-loaded section of the hydraulic piston (52) is mounted on its struck valve, which is in the lower the refill opening closes the bottom dead center of the hydraulic cylinder and (44) adjacent end is formed. in the top dead center position from the refill opening 2. Refill device according to claim 1, da- 30 takes off, so that leakage oil losses are compensated characterized in that the control valve (60) are. In this known refilling device has an annular housing (78) in which it is considered a disadvantage that refilling Circumference at the same distance from each other is only possible when the piston is in the ordered passages (82, 84, 86, 90) provided top dead center has returned. These are back of which each one with the oil reservoir return, however, takes place in the working cycle, so that if ter (62), an air collector (58), the top during movement of the piston system into the undes Pneumatic cylinder (42), the atmosphere tere dead center in the connected working machine and the underside of the pneumatic cylinder (42) there is a significant leakage oil loss, this is connected that in this housing (78) a not automatically and directly compensated who-rotary valve (80) is stored, the connection 40 can. channels (92, 94, 96, 98, 100) for the passages. 94, 96) and once two (98, 100), each automatically and independently of the work cycle, are combined on a connection system, predetermined leakage losses respond,
and that the rotary valve (80) by means of a 45. According to the invention, this is achieved in that the switch (104) actuatable solenoid (102) is rotatable in the path of movement of the pneumatic piston in such a way that a switch is arranged once in the dropped state nem bottom dead center the top of the pneumatic cylinder (42), which when actuated by the pneumatic and air collector (58) and on the other hand, the piston as a result of excessive leakage oil losses, an oil reservoir (62) and the bottom of the compressed air supply via a control valve for return Pneumatic cylinder (42) with the atmosphere of the pneumatic piston is switched on and at the same time connected and that in the excited state of a compressed air supply via the control valve to the solenoid (102) the underside of the pneumatic cy- free surface of the refill oil in the oil reservoir (42) and the oil reservoir ( 62) with ter releases, and that the valve is opened by sliding the air collector (58) and the O The upper side of the 55 slot in the jacket of a tubular section of the pneumatic cylinder (42) is connected to the atmosphere of the hydraulic piston at the lower dead end. point of the hydraulic cylinder adjacent end 3. Refill device according to claim 2, which is formed. characterized in that a switching relay (112) is thus, if the permissible leakage oil loss Via the switch (104), which is exceeded by the pneumatic piston 60, in the path of movement ben (48) is operated, with the power line (116) of the piston operated switch, which automatically is connected that the solenoid (102) for the tig triggers the refill, whereby for acceleration Control valve (60) via a normally open supply of the refill this refill under pressure Contact pair (118) made with the power line (116). and that the switch (104) is connected to a 65 In a preferred embodiment, that normally open contact pair (120) via control valve have an annular housing, in is bridged. whose circumference is equidistant from one another. 4. Refill device according to claim 3, there are arranged passages, each of which