DE1777209A1 - Device for high-performance forming of workpieces, in particular made of sheet metal, with the aid of shock agents - Google Patents

Description

Prof. Dr.-Ing. H. Hertel

1 Berlin 19, Tannenbergallee 36 Berlin, September 18, 1968

Patent application

Device for high-performance forming of workpieces / in particular made of sheet metal, with the help of shock agents

(Addition to Patent No. 1 259 825)

The subject of the invention is a further development of the device for high-performance forming of workpieces, in particular made of sheet metal, with the help of Schockwir- ™ kungsmittel according to patent no. 1 259 825 which consists of components that a Form closed pressure space, wherein at least one component is movable away from the other. By acting against the inertia forces when the shock occurs by opening the pressure space and applying pressure to the pressure tip, the workpiece is given the desired shape.

In the device according to the main patent, the means for keeping the device closed are Pressure space until the forming pressure is reached Mainly the inertial forces the moving components are used by dimensioning the masses accordingly.

In the case of sluggishly locked devices according to the main patent no. 1 259 825 which the pressure chamber preferably consists of an upper mass that can be moved vertically at the top and consists of a lower mass that can be moved vertically downwards, are in In any case, reaction forces are transferred to the machine frame, since only the upper mass can carry out a free movement in the earth's field, while the lower mass is in its Movement is limited, for example, by springs.

These devices basically put a load on the foundation in addition to theirs Dead weight with impact forces.

These disadvantages are eliminated according to the invention in that the upper and lower mass be positively connected to each other, while the pressure chamber through

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their inertia locking, away from each other by components elastic coupling links are connected to one another and, moreover, their masses are chosen so that no reaction forces of the moving locking masses take effect outside.

The invention is illustrated by the devices shown schematically in FIGS. 1 to 8 explained in more detail. On the basis of these figures, features and advantages of the invention Devices explained in more detail.

Fig. 1 shows a cross section through a device, which is preferably used for smaller Devices is suitable and in which the cylindrical jacket surrounding the pressure chamber divided into four movable segments fet.

Fig. 2 shows the top view of the working device of Fig. 1 without the surrounding one Container for the pressure transmission medium.

Fig. 3 shows a device according to the invention in a lying arrangement with vertical mounted die, also in sectional view.

Fig. 4 shows a cross-section through Fig. 3 without a Aufienbehttlter.

FIGS. 5 to 7 show a further embodiment on the basis of sections in different planes of the device according to the invention in a lgnr arrangement. ■ '■ -

Fig. 8 represents a further development of the work process according to Fig.5 to 7, the it makes it possible to work with two dies at the same time.

In the device according to Fig.l and 2 the Druckrauw is formed from the two preferably disc-shaped components 1 and 2, which form the top and bottom of the pressure chamber, connected by the collar bolts 3 and the preferably ty llndrlschen rail elements 4. The number of Schelejielemente Fet any, but at least two halves are necessary to achieve the invention jipemeae shock compensation.

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The shock agent, for example a cartridge 5, is located in the cover 1 and the trigger mechanism 6. The bottom 2 carries the die 7 on its upper side, on which the workpiece 8 to be machined is located. The die contour could also be incorporated directly into the bottom 2.

The workpiece 8 is against the die cavity 10 with the aid of the sealing means 9 sealed, the vacuum line 11 is evacuated in the usual way.

The shell elements 4 forming the pressure chamber wall are at their joints The guide pins 12 and the spring elements 13 are thus elastically connected to one another with the aid of this

bound that until reaching the forming pressure predominantly the inertial forces the shell elements 4 are used to keep the pressure chamber closed. The gaps 14 then open between the shell elements 4 and the device is relieved.

The spring elements 13, e.g. rubber springs, limit the movement and effect after the discharge that the device returns to its original position.

The actual Arbeitsvonrichtung consisting of the components 1 to 13, is preferably located free-standing within a container 15 that contains the DruckUbertragungsflUssigkeit 16, decene level 17 is chosen so that the pressure chamber 18 is filled completely _Λ. The filling of the pressure chamber 18 with pressure transmission fluid 16 is made possible, for example, by the fact that the diameter of the components 1 and 2 is somewhat smaller than the inner diameter of the pressure chamber jacket formed from the shell elements 4. The resulting narrow annular gaps 19 practically do not impair the efficiency of the device, since a large throttling effect occurs in such gaps with the short pressure development time.

After the working cycle of the device according to FIGS. 1 and 2, the interconnected Components 1 and 2 and the die 7 attached to the bottom 2 are lifted up and out of the shell elements 4, which remain in the container 15. When it is lifted out, the pressure chamber 18 is emptied of pressure transmission fluid 16, the deformed workpiece 8 can be removed from the die and the device can be reloaded.

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In the device according to FIGS. 3 and 4, the pressure chamber 18 consists of the horizontal lying annular component 20, the movable cover plate 21 and the movable base plate 22.

The top and bottom plates are secured by the collar bolts 23 with the aid of the spring elements connected to one another in such a way that, on the one hand, the Required relative movement of cover plate 21 and base plate 22 against each other is possible, on the other hand in the initial state of the device shown in Fig. 3 a horizontal shift of both components remains possible.

The insert 24 to be inserted vertically contains the cartridge S and the triggering device 6, while the die 7 is attached. The cavity 10 of the die 7 can via the vacuum line 11 in the usual way Way to be evacuated.

The components described so far in Fig. 3 and 4 form the actual working device, which is fastened by the screws 26 in the container 15, which the Contains pressure transfer fluid 16, the level 17 of which is selected so that the Pressure chamber 18 is filled with no residual air volume.

When the cartridge 5 is ignited, a pressure build-up in the pressure chamber 18 is caused by the inertia forces the components 21 and 22 allows. After the working pressure takes effect, the gaps 14 'open between the components 20 and 21 or 22, whereby the device is relieved.

To remove the deformed workpiece 8 or to change the die 7, top and bottom plate 21 and 22 are moved horizontally until 4 Insert 25 and the die 7 can be removed vertically.

To change the shock agent, the components 21 and 22 are in opposite directions Shifted direction.

Fig. 5 is a longitudinal section through a further embodiment of that in Figs. 3 and 4 '. *

explained device. Fig. 6 the cut is \ - I dujrch fig, 5 and FIG. 7 the section II-II through FIG. 5.

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Since the device according to Figure 5 to 7 in principle structure and mode of operation corresponds to the device according to FIGS. 3 and 4, only the differences are shown here explained.

The cover plate 21 'and the base plate 22' can no longer be moved horizontally, but dimensioned in their width so that the insert 25 'containing the die and the die 7 and the shock effect charge 5 and the trigger mechanism containing insert 24 'can be passed vertically past them.

The top and bottom plates 21 'and 22' are secured by the guide bolts 26 and the Fe- (|

derelemente 13 cushioned with the base body 20 'of the pressure chamber 18 each individually tied together.

In the device shown in Fig. 5 to 7, the reaction forces of each other coupled components 21 'and 22' via the base body 20 'of the pressure chamber balanced.

The base body 20 ', which also forms the pressure chamber, is firmly connected to the container 15', which is closed by the cover 27. The vertically movable inserts 24 'and 25' are connected to the cover plates 30 with the aid of the extension pieces 28 and 29 and 31 and the handles 32 and 33 are connected.

Via the suction line 34, the easy-change filter 35, the pump 36 and the pressure line 37 the pressure transmission fluid 16 can be circulated and cleaned of impurities will. This is especially beneficial when using liquids other than water can be used, such as oil, or if the water is anti-corrosive Additives are attached, such as drilling emulsion, so that a frequent change would increase the cost of ownership of the device.

The device according to FIG. 8 is a modification of the device according to FIG the shock effect means 5 is better utilized that at the same time with one Work cycle of the device two shaping processes in two separate dies 7 can be carried out. For this purpose, the insert 24 'is replaced in Figure 5 by an insert 25 'in Fig.8. This measure will double the Work surface reached.

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The cartridge 5 and the release device 6 are attached in Figure 8 in the correspondingly designed ceiling plate 2V '.

Otherwise, the mode of operation of the device corresponds to that in FIGS. 5 to 7.

Compared to the prior art, the devices according to the invention offer the following advantages:

- Since the masses of the dies are no longer moved, they can be used to lock the inertia used moving components of the pressure chamber in

™ their masses matched to one another in such a way and so elastically coupled to one another that reaction forces of the system to the outside are avoided.

- The inventive elastic coupling of the movable locking masses the paths of the movable components are limited, whereby the Dimensions of the devices are reduced.

- Because the tools or dies and / or the cartridge chamber are not are more connected to movable device elements, are fixed connection dimensions compared to the stationary device frame, what a mechanization or automation of the operation of such devices considerably simplified.

™ - The reduction of the paths of the moving components of the pressure chamber in

Cooperation with the fixed connection dimensions of the die and cartridge bearings favors the operation of such devices in a closed, the pressure Transmission medium containing container, relatively small dimensions. This eliminates the need for separate filling devices for the pressure chamber, as a result of which both the operating costs of such devices and the cycle times are reduced will.

- Furthermore, the work in a closed water tank is the Arbeltsgeräutch of the device by the attenuation, especially the high frequencies that are perceived as unpleasant, and the safety of the devices is reduced increased against failure.

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- Preferably the horizontal arrangement of the devices according to FIGS. 3 to 8

is particularly suitable for simultaneous operation with two or more tools .

To simplify handling, especially with larger versions of the invention Fixtures, inserts for dies and cartridge chambers can be used The weight of the cables and counterweights is relieved.

Because of the simple kinematics of the movement of the die and cartridge chamber for loading (vertical extension of the insert 25 or 25 'and possibly additional folding of the insert into the horizontal position for loading) hydraulic, pneumatic or mechanical auxiliary devices in commercial form be used. This favors the use of the modular principle for the economical production of such devices and their adaptation to the required working method (manual operation - automation).

If a device according to the invention is in a closed, the pressure transmission medium containing container operated, it is advantageous not to fill this container completely, since the remaining air volume has a buffer effect and it is thus avoided that a pressure surge from the device on the wall of the Transferring container.

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Claims (10)

1777208 Ρα th demands Device for high-performance forming of workpieces, in particular from Sheet metal, with the help of shock action agents in a closed pressure space of components, at least one of which can be moved away from the other, by the pressure that forms and used for shaping the inertia forces with opening of the pressure chamber and reduction of the pressure peak, wherein the means for keeping the pressure chamber closed until the forming pressure is reached are predominantly the inertial forces of the movable ones Components are used by correspondingly large dimensioning of the masses of the components, according to Patent No. 1 259852, characterized in that the masses moved away from one another are connected to one another by energy storage systems to form a movement system, which completely absorbs the excess energy within the movement system beyond the shaping energy consumes. 2. Device according to claim 1, characterized in that the one another moving masses are horizontally movable. 3. Device according to claim 1, characterized in that the tools and dies are connected to the fixed parts of the pressure space. 4. Device according to one or more of claims 1 to 3, characterized in that that at least two dies are arranged in the pressure chamber. 5. Device according to one or more of claims 1 to 4, characterized characterized in that the die 0 and / or the shock charge (S) on each one Insert (24, 25) can be removed from the pressure chamber and / or fastened so that it can be folded down. 6. Device according to one or more of claims 1 to 5, characterized in that that the pressure chamber (18) consists of two firmly connected, the bottom or the cover of the pressure chamber forming parts and at least 1098U / 086 / « two wall parts which can be moved away from one another and which connect both wall parts Energy storage is formed. 7. Device according to one or more of claims 1 to 6, characterized by a cleaning device for the pressure transmission fluid. 8. The device according to one or more of claims 1 to 7, characterized in that the tools, in particular molding tools, dies and / or shock agents, are preferably connected to fixed parts of the device. 9. Device according to one or more of claims 1 to 8, characterized characterized in that they are in a closed container for the pressure transmission fluid is housed. 10. Device according to one or more of claims 1 to 9, characterized by means of cables or the like with counterweights for the inserts for dies and shock agents. 1 f! M l ·. 1 ', / f) f: I ¹ ,.'.