DE4032106A1 - Hydraulic press with fine adjustment of platen locking collar - Google Patents

Abstract

Hydraulic press with fine adjustment of platen locking collar has screw threaded collar coaxial with coupling rod which can be moved relative to rod to lock in exact tool closure position

Description

The invention relates to a hydraulic press one slidably guided in a frame, on one Closing stroke drive connected press ram, which in different locking stroke positions with a hydraulic Press stroke drive via at least one releasable coupling is bindable, which consists of a coupling rod and a Coupling rod in a coaxial opening takes closing head, the locking body to form conclusive insertion into axially distributed recesses the coupling rod has.

Especially when manufacturing pressed parts from fiber strengthened plastic, the full pressing force is only in one comparatively small section of the working stroke of the Press ram required, so that this stroke in a closing stroke section and an adjoining one Press stroke section divided and these stroke sections under Taking into account the required power a separate linear actuator can be assigned. Here but the size of the press stroke or the closing stroke from the the workpiece and thus the press used depends on tools, the press stroke drive must differ Liche closing stroke positions of the press ram connected to this can be. For this purpose it is known (DE-PS 33 23 931), between the press table assigned hydrau press cylinder and vertical in the press frame slidably guided and with the help of a closing stroke cylinder  adjustable press ram each a releasable coupling to be provided from a to the piston rod of the pressing cylinder attached coupling rod and one the coupling rod in a passage opening Closing head consists of a split threaded nut is formed, the halves of which radially against a thread cut the coupling rod can be adjusted so that a positive connection due to the thread engagement between the closing head held in the press ram and the coupling rod results. A disadvantage of this be knew coupling between the press stroke drive and the Pres Senstößel is, however, that due to the exclusion Lich radially displaceable storage of the threaded sleeve single Lich a gradual adjustment of the press or closing stroke to the respective requirements in the extent of the thread turn Height results, so that the press stroke in general before the exact closing position of the tools. Add to that nor that the coupling process only when the Pres ram can be made.

In order to avoid these disadvantages, it is also known (DE-PS 35 23 164), the closing head with a wedge gear for the radial pressing of clamping jaws against the lock head penetrating coupling rod. These be Known clutch design allows a stepless to Adjustment of the press stroke to the respective closed position of the plant witness, but must be due to the positive connection higher press forces with a possible slip expected be, which in turn increases the number of dome lungs required without excluding the danger can that not in the field of individual clutches Slip occurs, which then leads to changes in the shape of the press rend the pressing process can result. In addition, the Jaws a comparatively large wear.

The invention is therefore based on the object, these deficiencies  to avoid and a hydraulic press of the beginning ge described way to improve with simple means so that a precise adjustment of the press or closing stroke of the press plunger to the closed position of the tools can be used without a positive coupling between to dispense with the press stroke drive and the press ram have to.

The invention solves the problem that the Closing head by means of a screw drive in the direction of Axis of the coupling rod is held screw-adjustable.

Although between the closing head and the coupling rod due to the axially distributed recesses into which the rest body intervene optionally, only a gradual Ver position is possible, there is a continuous adjustment of the press stroke to the closed position of the tools because of Closing head itself can be infinitely adjusted, namely with the help of a screw drive, which is in the axial Bela direction of the press stroke is self-locking, so that there is no risk of slipping. So that can the advantages of a positive and a positive gene connection can be exploited without the be at each known compounds of this type occurring disadvantages in To have to buy. The coupling process can even be carried out during the closing stroke.

Particularly advantageous design relationships can be found in further development of the invention can be obtained that the closing head with a versus a bearing body screw-adjustable threaded sleeve connected as screw drive that is. The provision of a carrying the closing head for Coupling rod coaxial threaded sleeve allows one formation of the closing head independent of the screw drive, whose outer diameter is therefore considerably larger than the Ge wind diameter can be.  

The arrangement of the closing head on a screw adjustable Ren threaded sleeve also brings the advantageous possibility speed with itself, the closing head rotates on the threaded sleeve to store and opposite the threaded sleeve support bar receiving torsion-proof, so that between the coupling rod and the closing head a screw adjustment of the threaded sleeve no relative rotation results. This means no restrictions regarding the adjustment of the locking body for positive entry fen in the recesses of the coupling rod in purchase be taken.

Apart from that, with a non-rotatable support of the Closing head opposite the screw sleeve adjustable receiving bearing body of the rotary drive for the Threaded sleeve can be arranged on the closing head, which is a compact design for the entire coupling, which secures the after can form a prefabricated unit.

The connection between the closing head and the opposite the turnable threaded sleeve must the occurring Press forces can transfer. To in this context only tensile or compressive forces, but not torques the closing head can be carried on a spherical surface a support body of the threaded sleeve be axially supported.

Although differed for the adjustment of the locking body Offering solutions are particularly important for this partial design conditions when the closing head has a support ring surrounding the coupling rod, on which the locking body distributed over the circumference to Coupling rod each have tangential axes are pivoted because of such a pivot Storage of the locking body of the outer diameter of the lock head can be kept small, without having to run out  appropriate travel for the locking body. The locking bodies only need against those in the axial cut sawtooth-like recesses swung in will. For this purpose, the locking body can do little at least one tab on one axially opposite the support ring slidable collar to be articulated to an axial Adjustment of the adjusting ring swiveling in or out Locking body in or out of the preferably annular locking ensure recesses. For this axial adjustment the collar can at least two axial Stellzylin the provided, which are applied to the Force of return springs in the engagement direction of the locking body act the collar, so that by acting on the Actuating cylinder the locking between the closing head and the coupling rod by engaging the locking body in the locking recesses of the coupling rod are made. To solve this coupling connection the actuating cylinders need single Lich to be ventilated, with the return springs for one Disengage the locking body from the locking recesses.

Frequent engagement and disengagement of the locking body the coupling rod having the locking recesses forced frequently exposed to wear. To wear this in The rest can be easily taken into account recesses in a replaceable as a wear part Sleeve of the coupling rod may be provided. With an ent speaking wear of this sleeve therefore does not need the entire coupling rod, but only the slid on Sleeve to be replaced.

In the drawing, the subject of the invention is for example shown. It shows

Fig. 1 is a hydraulic press according to the invention in a schematic, partially broken away, side view,

Fig. 2, the coupling between the press ram and the press lifting drive in an axial section on a larger scale,

Fig. 3 is a section along the line III-III of Fig. 2 and

Fig. 4 shows a section along the line IV-IV of FIG. 3.

The hydraulic press shown schematically in Fig. 1 with its basic units consists essentially of a frame 1 , which has a press table 2 and four cross bars 3 connected to each other guide columns 4 , and from a press ram 5 , which with the help of a by actuating cylinder 6th formed closing stroke drive 7 can be moved along the guide columns 4 . In addition to the sem Schließhubantrieb 7 is a Preßhubantrieb 8 is provided, which can be connected in the closed position of the are of the press table 2 and from Pres senstößel 5 worn tools for reasons of Übersichtlichkeits not shown via a coupling 9 to the press ram 5, in order to his help to be able to apply the pressing forces required for workpiece shaping. This press stroke drive 8 is formed by press stroke cylinders 10 , of which only one is provided. The piston rods 11 of these Preßhubzylinder 10 are extended to a coupling rod 12, the difference in union insertion positions disposed with a follower on the pressing head 5 closing the clutch 9 can be positively locked. 13 For this purpose, the coupling rod 12 with its maximum insertion length ver divided recesses 14 in the form of saw-like tooth-like circumferential grooves in cross section, engage positively in the locking body 15 of the closing head 13 , as can be seen in FIGS . 2 and 3, the Show closing head 13 in more detail. This closing head has a support ring 16 which is coaxial with the coupling rod 12 and on which the latching bodies 15 are pivotally mounted about axes 17 which are each tangential to the coupling rod 12 . For swivel adjustment, the locking body 15 , the individual segments of a locking body ring are articulated via tabs 18 on a coaxially to the coupling rod 12 slidably on the support ring 16 held collar 19 , which has an inwardly directed ring flange 20 between the and the support ring 16 on the one hand two diametrically opposite Stellzylin the 21 and on the other hand distributed over the circumference Rückzugfe countries 22 are provided. Therefore, the actuating cylinder 21 is acted upon, the adjusting ring 19 from an initial position shown on the left in FIG. 2 against the force of the return springs 22 relative to the support ring 16 in an axially indicated locking position on the right side, which engages the locking body 15 in the respective one Locking recess 14 and thus a positive coupling between the coupling rod 12 and the closing head 13 results. Such locking between the closing head 13 and the coupling rod 12 is only possible in graded, dependent on the axial distribution of the Rastausneh lines 14 dependent insertion lengths of the coupling rod 12 in the closing head 13 . In order to be able to make a precise adjustment to the closed position of the tools in spite of this limitation, the closing head 13 is held continuously adjustable in the axial direction with respect to the press ram 5 with the aid of a screw drive 23 , so that given by the axial spacing of the locking recesses 14 Graduated an infinitely fine adjustment is achieved, which allows the desired precise adjustment of the press stroke to the closed position of the tools.

According to the illustrated embodiment, the closing head 13 is rotatably mounted on a coupling sleeve 12 coaxially around closing threaded sleeve 24 and is supported opposite it on a spherical surface 25 of an annular support body 26 screwed into the threaded sleeve 24 in order to withstand a bending moment due to the axial tensile forces during to avoid the press stroke.

The closing head 13 is rotatably ge against the threaded sleeve 24 receiving bearing body 27 rotatably to prevent rotation of the closing head 13 with the Ge threaded sleeve 24 . For this purpose, the support ring 16 is provided with a flange 28 which engages in an axial through bore 29 of the bearing body 27 carries the guide pin 30 . This flange 28 also serves to support the rotary drive 31 for the threaded sleeve 24, which is connected by meshing with a pinion gear 32 ring gear 33 to the rotary drive 31, as can be seen in Fig. 2, in which the rotational drive 31 and the guide pin 30 have been rotated into the section plane for better illustration.

If the threaded sleeve 24 rotates in the bearing body 23, which is firmly supported on the press ram 5 , via the rotary drive 31 , this results in an axial displacement for the threaded sleeve 24 and thus for the closing head 13 , which makes it possible to light the press stroke drive 8 in a predetermined closing Position of the tools with the press ram 5 to connect positively, because yes the closing head can always be axially displaced so far that the locking body 15 come to rest in a coupling position with a locking recess 14 . Since, in addition, the screw adjustment of the threaded sleeve 24 can be carried out during the closing movement of the press ram 5 , a positive coupling is also possible before the closing stroke has ended.

The invention is of course not limited to the Darge presented embodiment. For example, the closing head could also be assigned to the press stroke drive and the coupling rod to the press ram. In addition, the adjustment of the locking body 15 can also include a radial sliding movement Ver or a coaxial to the coupling rod 12 rotary movement, since it is not the type of positive locking, but only the positive connection that matters.

Claims (9)

1. Hydraulic press with a sliding in a rack ver, connected to a closing stroke drive NEN ram, which can be connected in different closing positions with a hydraulic press stroke drive via at least one releasable coupling, the rod from a coupling and one receiving the coupling rod in a coaxial passage opening Closing head consists of the locking body for positive insertion into axially distributed recesses of the coupling rod, characterized in that the closing head ( 13 ) by means of a screw drive ( 23 ) in the direction of the axis of the coupling rod ( 12 ) is held screw adjustable. 2. Press according to claim 1, characterized in that the closing head ( 13 ) with a screw body with respect to a bearing body ( 27 ) adjustable screw ( 24 ) as a screw drive ( 23 ) is connected. 3. Press according to claims 1 and 2, characterized in that the closing head ( 13 ) with the threaded sleeve ( 24 ) is rotatably connected and is rotatably supported relative to the bearing body ( 27 ). 4. Press according to claim 3, characterized in that the closing head ( 13 ) carries a rotary drive ( 31 ) for the threaded sleeve ( 24 ). 5. Press according to claim 3 or 4, characterized in that the closing head ( 13 ) on a spherical surface ( 25 ) of a support body ( 26 ) of the threaded sleeve ( 24 ) is axially supported. 6. Press according to one of claims 1 to 5, characterized in that the closing head ( 13 ) has a coupling rod ( 12 ) surrounding the support ring ( 16 ) on which the detent body distributed over the circumference ( 15 ) to the coupling rod ( 12 ) each tangentially extending axles ( 17 ) are pivotally mounted. 7. Press according to claim 6, characterized in that the latching body ( 15 ) are articulated via at least one tab ( 18 ) on an axially displaceable relative to the support ring ( 16 ) adjusting ring ( 19 ). 8. Press according to claim 7, characterized in that the adjusting ring ( 19 ) via at least two axial actuating cylinders ( 21 ) against the force of return springs ( 22 ) in the engagement direction of the locking body ( 15 ) is displaceable. 9. Press according to one of claims 1 to 8, characterized in that the latching recesses ( 14 ) are provided in a sleeve of the coupling rod ( 12 ) which can be replaced as a wearing part.