US2588066A - Protection of hydraulic power presses - Google Patents

Description

March 4, 1952 s. M. WEISBERG PROTECTION OF HYDRAULIC POWER PRESSES Filed May 6, 1946 5 sheets-sheet 1 I- IIIIIIIH lfliqllllllll mm a mu II 44 v M 43" s p sm f CflPlCWMP /4 I t i I l ,Zmvsy /Z #2735224 INVENTOR ATT RNEY March 4, 1952 s. M. WEISBERG 2,588,066

PROTECTION OF HYDRAULIC POWER PRESSES Filed May 6, 1946 5 Sheets-Sheet 2 P17565085: SPY/7C4! I ATTO NEY March 4, 1952 s. M. WEISBERG 2,588,066

' PROTECTION OF HYDRAULIC POWER PRESSES Filed May 6, 1946 5 Sheets-Sheet 3 INVENTOR.

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1' I Arra/mas'y March 4, 1952 s. M. WEISBERG 2,588,066

PROTECTION OF HYDRAULIC POWER PRESSES Filed May 6, 1946 5 Sheets-Sheet 1 7 ELEM w l 'I m 'l xmm .9 E \II .9

l sol/ace March 4, 1952 s. M. WEISBERG PROTECTION OF HYDRAULIC POWER PRESSES Filed May 6, 1946 5 Sheets-Sheet 5 R m M M m flan/5y /Z #27355;

INVENTOR.

,4 7 TOR/v5) Patented Mar. 4, 1952 PROTECTION OF HYDRAULIC POWER PRESSES Sidney M. Weisberg, Newark, N. J., assignor to Allied Electric Products, Inc., Irving-ton, N.. L, a corporation of New Jersey Application May 6, 1946, Serial No. 667.699

3 Claims.

The invention herein disclosed relates to the protection of hydraulic power presses and the main purpose of the invention is to prevent the overloading of such presses;

In the operation of power presses, particularly molding presses of the multiple cavity type, it more or less frequently happens that a molded piece will remain caught in a die cavity and if this remains unobserved, the build-up of pressure occasioned by the loading on top of this piece may break or otherwise injure the dies or other parts on the next press closing operation.

Special objects of the invention are to provide means which will sense the dangerous condition and stop the mold closing movement in time to avoid injury to the dies or other portions of the press.

Special objects also are to provide means of the type indicated which will be readily applicable at reasonable cost to existing machines and which will then at all times exercise protective control over the operation of such machines.

Further special objects are to utilize operating characteristics present in such machines to efiect the desired automatic control. In the case of hydraulic presses, for example, to utilize pressure developed in the hydraulic system at a time when no such pressure should be present, as a means to effect necessary safety control operations.

Other objects are to enable application of the I safety control outlined to power presses and power press systems of the diflerent types now in more or less common usage.

Further objects are to provide a safety control system for power presses which will not add materially or objectionably to the bulk of the press or interfere in any way with the usual press operations.

Other desirable objects and the novel fea tures by which the purposes of the invention are attained are set forth or will appear in the course of the following specification.

The drawings accompanying and forming part of the specification illustrate various practical embodiments of the invention. Actually, however, the structure and mode of application and operation may be further modified. and changed in various ways, all within the true intent and broad scope of the invention as hereinafter defined and claimed.

Figure 1 in the drawings is a broken part secat the start of a molding operation with one mold cavity properly charged and a second mold cavity overcharged by reason of a molded piece having been retained in the mold.

Figure 2 is a similar view showing the mold at the closing stage .and the overloading of the one mold cavity detected to effect the stopping of the press.

Figure 3 is a fragmentary and somewhat diagrammatic view illustrating a modification of the safety cam for timing the excess pressure sensing action.

Figure 4 is a generally diagrammatic view illustrating the use of double cams, one on the timer and one on the press platen for doubly checking the possible presence of dangerous pressure conditions.

Figure 5 is a similar view of another modification showing the safety cam employed to admit pressure to the pressure sensing switch at that time when presence of excessive pressure would indicate existence" of a dangerous condition.

, Figure -6 is a generally diagrammatic view illustrating another modification involving use of a valve to shut off the press from a common pressure source upon detection of the existence of dangerous pressure conditions.

Figure 7 is a wiring diagram.

In the several views the bed and platen of an ordinary hydraulic press are conventionally indicated at I and 8 carrying the cooperating elements 9 and ID of a plurality of article forming molds.

The press cylinder is represented at ll, having a piston [2 directly or indirectly coupled at [3 with the movable platen 8.

tional and partly diagrammatic view illustrat- An electric pump is indicated at 14 for supplying the operating pressure through a ,hydraulic line 15. This pump is started and stopped or otherwise suitably controlled to efiect the pressclosing and opening operations through a suitable relay switch conventionally represented at 16.

Presses of the type illustrated are often equipped or connected with a so-called timer for controlling the press closing, curing and press opening operations, such timer having a rotary cam or dial I! with a notch. l8 receiving the point of a controller I!) in the normal, stop position of the press.

Details of the timer are not shown, it beingsuflicient for present purposes to understand that when the press is started, after the diecavities have been properly loaded with the plastic or other material 2.0 to be molded, the controller element 19, lifted out of the notch l8, will ride the rim of the cam and at the end of the press cycle, drop back in the notch l8 to stop the press in the open position, with the molded pieces discharged or ready to be discharged from the dies. The complete cycle as determined by this cam may include the time for closing the molds, time for curing the material in the molds while the press remains closed and then the time for opening and leaving the molds in open condition.

The timer operating in accurately timed relation with the press provides convenient and reliable means for effecting the sensing of dangerous pressure conditions.

This is accomplished in the embodiment illustrated in Figures 1 and 2 by mounting a special safety cam 2| on the timer shaft 22 in front of cavity would be manifested by sudden rise of pressure in the hydraulic system.

In the illustration the control device is shown as a micro switch 25 having a switch closing lever 26 riding the rim of the safety cam, with the parts arranged as shown in Figures 1 and 2 so that this switch will remain open while the switch lever is in engagement with the concentric portion 23 of the cam and will be closed when the switch lever is engaged by the high portion 24 of the cam. This closure is effected as shown in Figure 2 at or approximately the time the mold starts to close and therefore will develop higher than normal operating pressure in the hydraulic system if a mold cavity has been double loaded. I

Means for sensing the pressure are provided in the illustration in the form of a pressure switch 21 connected at 28 with the pressure supply line 15.

This pressure switch may be of any suitable commercial type, the one conventionally indicated having a piston operating in the chamber 29 connected with the hydraulic pressure line 28 and serving when pressure is attained for which the mechanism is set, to close a switch in the upper body portion of the device, designated 21. The piping shown at 30 extending from the upper portion of the piston chamber 29 is a return connection commonly used with such switches for relieving any leakage of pressure fluid back into the sump base 3| of the pump.

The time or press-phase sensing switch 25 and pressure switch 21 are shown connected in series with each other by wiring 32 and in series with a solenoid winding 33 by wiring 34,' said coil being connected at the other side by wiring 35 with one side 38 of a power circuit. The other side 3'! of the power source is shown connected by wiring 38 with the other side of the pressure switch.

It follows from this that when micro switch 25 set for lbs. per square inch, a pressure ordinarily sufficient for raising the ram to the mold closing position, it will be seen that if this pressure is not exceeded, as when there is no obstruction or overloading of any mold cavity, the closing of the phase switch 25 at that time will have no effect as to closing the circuit described, said circuit remaining open at the pressure switch 21.

With a condition as represented in Figure 2, however, that is, with a previously molded piece 39 remaining in one of the mold cavities, with a charge of the molding material on top of it, pressure above the normal press closing pressure will immediately start to build up, causing pressure switch 27 to close and this at the time when the safety cam is holding the phase or time sensing switch 25 closed.

Consequently, under these conditions solenoid 33 will be energized and will, as shown in Figure 2, shift solenoid core 40 to the right, rocking the lever 4| to throw the stop switch 42 to the off position. This switch is shown as connected by wiring 43 to control the relay switch [6 of the electric pump.

Thus rise of pressure in the hydraulic system to a value greater than it should be, at a time when the press is closing, is recognized at once and utilized as a means for halting or stopping the operation of the press, before any breakage, strain or injury can be caused to the dies or other portions of the press.

When the press has been thus stopped, the ram may be lowered and the die cavities cleared, ready for a regular molding operation.

To make sure that the press will not again be started until everything has been cleared, a special starting solenoid is shown provided at 44 under control of a key switch 45 and which can thus be energized to shift the solenoid core 40 and turn the stop switch back into On position only by one in authority having the key for operating switch 45.

While a rotary form of safety cam is desirable as being readily mounted on the shaft of the timer, it is contemplated that other forms of safety cams may be employed, such as the straight form of cam shown at 2la, Figure 3, attached to the ram of the press and arranged to operate the time sensing switch 25 in the straight up and down operation of the ram. 7

In this form of the invention the high part 2411 of the cam is positioned to effect the closing of switch 25 at or about the time the press reaches the closed condition, after the manner of the rotary cam, the operation and coaction of the parts being otherwise as above described.

This straight form of safety cam may be pre ferred with presses having manually operated lever controls.

The rotary cam, Figure 2, carried by the timer, makes one full revolution for each complete cycle of the press, including the press closing, curing and press opening phases. The straight cam, Figure 3, attached to the ram, travels in one direction on the closing movement, rests during curing and then returns in the opposite direction in the press'opening movement. In the latter. movement it will again close the switch 25 but will then have no effect because pressure ,on the ram has been released or reduced to open the press. The pressure switch 21 therefore will be open at this time so even though cam 2la closes switch 25, in thereverse pressopenin movement, this will have'no'efie'ctunless something has happened accepts:

tokeep the pressure above what "it should be at that time and in which event the cam will act in a safety capacity to effect stopping of the press.

Both forms of safety cams, rotary and reciproeating, operate to the same effect; to close the circuit for. the pressure sensing switch at the time when the mold is just closing; in other words. at that critical time when there should be no ab normal pressure, but when such pressure will be created if there is an obstruction in'one or more of the mold cavities,

The high p rt of the cam is therefore so placed as to come into action at the time of mold closing and the. extent of this activeportion is limited to hold the switch 25 closed only during that time While the mold is closing and before that time in normal operations when pressure will build up for applying the full molding pressure. In other words, the testing for dangerous pressure should be initiated as soon-as the existence of sucha condition might occur and it should be completed before the buildup of'pressure necessary to com plete the molding operation. This pressure buildup. may quickly rise from the normal low of 100 lbs. in the example supposed to 1000 lbs. or

more.

The safety cam is therefore designed as indicated to quickly accomplish the pressure sensing action and thenif no dangerous condition exists, leavethe press free to go through with itsnormal Fi ure 4 shows how the two forms of cams can be combined, each operating a timing switch and these beingv connected in parallel with each otherat 46, 41, with each in series with th pres- Sure switch 2?, and the off solenoid coil 33 so that each will be fully capable of effecting the'stop- Ding of the press if a dang erous pressure condition exists. .4 I r In the constructioniast descri ed the rotary cam. on the. imer is a. check'on the straight cam on the ram and vice versa so that if anyt in should happen to one cam unit, the other will still be effective to stop the press under dangerous loading conditions.

Figure 5 shows how the testing for dangerous or excessive pressure conditions can be efiected by employing the safety cam, in the instance illustrated, the cam 2| on the timer, to open a valve 48 in the pressure connection 28 to the pressure r switch 21 during the critical closing phaseof press operation.

1 In thiscase the valve 48 for admitting pressure to the pressure sensing switch is equipped with a suitable stem or handle 49 engaged by the safety cam and operated by the high Part of the cam to admit pressuret'o this switch during that time that the press is closing and toleave the pressure swit h disconnected from the pressure line while the press completingits cycle I Thus in Figure 5 if "a mold cavity is overloaded, the excessive pressure developed at the time of mold closure will be detected by pressure switch 27, due to opening of the pressure admitting valve 48 at that time and this switch, connectedin this case by wiring 50, 5! directly with the fipfi solenoid coil 33, will then effect throwing ofthe switch 42 to on position to arrest the closin movement of the ram.

The invention is applicable to many diflerent kinds of presses and to single or multiple press installations. I In the case of a battery of presses all operating from a hydraulic pressure source, the automatic control may take the form shown in l igiire 6.

illustrating "one of a number'oi press units each dicated in Figure 6, one for each press supplied" from a common pressure source and controlled asdescribed; each press will be independent of the others and any one press will be automatically cut off from the pressure source, if double loading occurs at that press, without disturbing or afiecting operation of'the other presses. Fig. '7 is a wiring diagram showing how this newprotective control may be combined withthe i'isual'push-button control for a power press by simply connecting it in between the push-bub tons and the magnet coil of the relay switch;

In the illustration the -push-button switch is shown as having On and Off buttons 56.51. The latter is operative to close a switch at 58 connected by wiring 59, 60, with-one-side :3'6 of the supplyline. The magnet coil BI of the relay i6 is shown connected by wiring 62, 83, with theother' side of the power line, and by wiring-43 with the stop switch '42. "I'he' latter'has a re turn connection 6'4 to the rocking switch element 0 B5 of the push-button switch. Consequently,-

when the On button 56 is pressed the magnet coil 6|, throughthe connections last mentioned, will heenergized to close a switch 66 for the pump motor 14. When this power switch is closed current can pass by way of a backconnectlon' 61 from the lower side of the switch to a contact 68, so that when pressure on the On button is removed a holding circuit will be provided through the magnet by way of connection 81, contact #38, switch element 65 and wiring 64, 43', to and from the stop switch to-one end of the magnet coil Bl. The opposite end of this coil being connected at 62, 63, with the power switch,

this magnet. will remain energizedso longasthe ordinarv-push-button;control and the-automatic safety control are both operative without in any way one interfering with the other.

The pressure switch 21 may be adjustable to that pressure whichv may be: considered abnormal or excessive for the press closing stage. The safety: cam may. beidesignediand set to close and open 'Vthestesting circuit: at the proper times and for the proper length of time. Instead of a single testing period there may be two or' more such periods in each complete cycle or a number of cycles.

This new protective system may be used with the conventional combined high and low pressure pump systems now in use on hydraulic presses, being timed to come into sensory operation at the end of the" low pressure pump stage when the press platen is reaching the mold closing position, just before the higher, pressure applying stage is reached.

Any foreign obstructions such as loading platforms, metal pieces or the like left in the press, pins out of line or molds that have shifted out of place, will accomplish the stopping of the'press.

The invention makes each press to which it is applied self-protective, the elements or units of the control system are relatively few, of simple construction and readily applied without modifying or changing the structure of the press. The safety control is certain and reliable in action and can be readily applied to presses in use or to new equipment at relatively low cost.

- While of particular value with presses for molding plastic articles, it will be realized that the invention is important as providing protection for. power presses of any sort, such as various forms of punch presses where a blank sticking in the dies would, with the subsequent charging or feeding of the material to be pressed, create a pressure abnormal in the sense of being ahead of the time at which such a, pressure should be present; By testing for the presence of this abnormally timed pressure, the invention acts in a precautionary way, trying out the conditions existing at the moment of closing the dies and stopping further action then if the abnormal pressure is present, but permitting the press to continue and finish its cycle, building up to any pressure that may be necessary, if conditions at the time of test are normal.

While designed particularly to prevent breaking 01 dies when parts remain caught in the same, the invention will operate to prevent injury in the event of trays or loading devices, or any other obstructions remaining between the dies when the press closes, and the invention and claims are to be so construed.

What is claimed is:

1. A safety control for preventing injury to dies or other parts of power presses in the event of previously formed blanks remaining in the dies when fresh material is fed to the dies of such a press and comprising in combination with a hydraulic pressure system variable in pressure in accordance withthe load on the dies, press stopping means, pressure sensitive means connected to control said press stopping means and set to operate at a-pressure above the normal pressure in the hydraulic'system at the time of die closing action, a' cam operating-in relation to the closing of said dies, a switch having an arm in engagement with said cam, said switch being electrically connected with said pressure sensitive means, said switch arm adapted to be closed by said cam as said dies are closing and in the event of abnormal pressure in the hydraulic system at the time of die closing action will render said pressure sensitive means operative to effect actuation of said press stopping means.

2. A protective control system for a power press comprising in combination with a hydraulic pressure system variable in pressure in accordance with the pressure load on thepress, a safety cam 8 operating in timed relation withthe press, press stopping means, a pressure switch for controlling said stopping means and operable by a predetermined abnormal pressure in the hydraulic presssure system and means operable by said safety cam for rendering said pressure switch operative to control said stopping means only at the time of the press closing movement, said last-mentioned means including a timing switch electrically connected to said pressure switch and operable by said cam during press closing movement, and said safety cam having a form to actuate said timing switch in the controlling direction at the beginning of the press closing movement and of an extent to release said timing switch before the end of the press closing movement, whereby said safety cam will be of no effect during normal press operations and will become effective to accomplish stopping of the press only in the event of abnormal pressure developed during the press closing stage of an operating cycle.

3. A safety control system for hydraulic molding presses of the multiple cavity type, for immediately stopping the press in the event a previously molded piece remains in any of the mold cavities when the mold is again loaded, comprising a switch connected to stop the press, pressure sensing means connected with the hydraulic system of the press and adapted to detect abnormally high pressure at the instant of mold closing due to overloading of a mold cavity, control connections from said pressure sensing means to effect operation of said press stopping switch, a timer synchronised with the press, a cam carried by said timer and operating in relation to the closing of REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,462,512 Loew etal. July 24, 1923 1,594,531 Kucera Aug. 3, 1926 1,828,828 Zeh Oct. 2'7, 1931 1,856,290 Prussing May 3, 1932 I 1,971,937 Keck Aug. 28, 1934 2,236,154 Patrick et al Mar. 25, 1941 2,242,189 Zelov May 13, 1941 2,287,559 Nye June 23, 1942 2,317,839 Westin Apr. 27, 1943 2,324,727 Shartle July 20, 1943 2,371,195 Strauss Apr. 13, 1945 2,382,046 Flowers et al Aug. 14, 1945 2,455,837 Waldie Dec. '7, 1948

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