DE2737442B2 - Stamping and bending machine - Google Patents

Description

The invention relates to a stamping and bending machine for small parts that have been bent or formed several times Tape or wire according to the preamble of claim I.

Such a stamping and bending machine is known (magazine "Werkstatt und Betrieb" 104 [1971, 7, page 522). The basic unit shown in this stamping and bending machine consists of a bending unit, which is a Feed device is connected upstream. Optionally, a straightening device can also be used for the feed device upstream and a punching unit can be used between the hanging unit and the feed device. the The basic unit can also be equipped with contact welding units. The drive of each Units are made via plug-in shafts from the drive of the basic unit.

When the bicgecinhcil on other work gap is to be converted, the punching machine falls for the production.

The object of the invention is the stamping and bending machine of the aforementioned type to the effect that the degree of utilization of the machine is increased by reducing downtimes.

This object is achieved according to the invention in that the bending unit in its entirety is also provided by the Machine substructure removable Lst or provided with its own substructure and with this from The machine base is removable and its drive mechanism with a plug-in shaft connection is kuppel ', ar.

ίο The advantage of the invention is that during the production of workpieces on the stamping and bending machine an independent bending unit for others Workpieces can be upgraded and quickly compared to those previously associated with the stamping and bending machine

u The bending unit can be exchanged, so that there are practically no downtimes of the machine, if you disregard the uncoupling of the old bending unit and the coupling of the new unit
One embodiment of the invention consists in that the machine substructure or the substructure of the bending unit has a sliding guide for the bending unit that extends parallel to the direction of the plug-in shafts. Such sliding guides are known per se. In connection with the design of the stamping and bending machine according to the invention, the advantage of the faster and easier coupling of the bending unit with the output shaft of the machine is achieved. This further reduces the downtimes of the machine. This goal is further contributed by an embodiment of the invention, which consists in that the sliding guide is provided on the machine base on a compound slide or a turntable. For some workpieces it is more advantageous to arrange the bending unit in a position offset by 90 °. For this it is only necessary to move the vertical plate into the corresponding guide of the compound slide or to turn the turntable into the correct angular position. Thanks to this feature, the changeover times are further reduced.

Finally, there is also an advantageous embodiment in that the bending unit has at least one output shaft, which with its drive shaft in constant drive engagement and with the drive shaft of a further bending unit or other Processing unit can be coupled. When workpieces are bent in the stamping and bending machine must, for which the tools of a bending unit are not sufficient, it is necessary with this according to the invention Further training does not require the use of another stamping and bending machine, rather only the further bending unit to be coupled to the upstream bending unit.

Furthermore is! it is advantageous to use the bending unit with two At right angles to each other at the same height and gear-connected drive shafts to equip them optionally at right angles to each other with an upstream bending unit or to be able to couple the machine.

Based on the drawing, the some exemplary embodiments shows, the invention is described in more detail. It shows

Fig. 1 is a schematic view of a stamping and bending machine and a bending unit standing on a separate carriage, which is inserted into the dash-dotted line Position on the stamping and bending machine can be brought,

Fig. 2 is a schematic view of a stamping and bending machine with an extended table on which two

Different types of machining units connected in series with a drive are arranged,

F i g. 3 is a schematic view of an automatic stamping and bending machine similar to Fig. 2, but with two similar bending units connected one behind the other,

4 shows a schematic view of an automatic stamping and bending machine with two bending units arranged one behind the other, offset by 90 ° relative to one another,

Fig. 5 is a plan view of the gear connection the stamping and bending machine and a bending unit,

6 is a schematic view of a stamping and bending machine with bending unit mounted on a rotating plate and

7 shows a plan view of the arrangement according to Fig. 6th

A stamping and bending machine 10 consists of a machine substructure 12 on which a stamping unit 14 is arranged, which is the starting material for the workpieces in the direction of arrow IS over a not illustrated transport device can be supplied. The machine substructure 1.2 does not contain this any further illustrated drive motor with motor gear for the punching unit 14.

The machine base 12 has a machine table with a sliding guide 18 to a Connect exchangeable bending unit 20 with the punching and bending machine 10 in a simple manner and to be able to couple the drive. The bending unit 20 differs from conventional bending units in stamping and bending machines mainly in that it is not integrated in the machine, but one forms a separate structural unit which - as FIG. 1 shows - on a carriage 22 of the automatic punching and bending machine 10 can be driven away. The upgrade of the bending unit 20 can therefore be carried out on one of the machines 10 independent place. An auxiliary drive device 24 in the form of a hand crank is provided for the test run provided, which via a reduction gear 26 with the central drive wheel of the bending unit 20in Engagement is.

As FIG. 1 illustrates, a multiple spline shaft protrudes from the right side surface of the bending unit 20 28, which when moving the bending unit in the sliding guide 18 of the machine substructure 12 with a Drive sleeve of the motor gearbox chs stamping and bending machine 10 comes into engagement, as will be explained below. After the clutch this way is made, the bending unit 20 needs only by means of clamping screws, not shown in the Slide guide 18 to be set. The assembly is then finished and the stamping and bending machine 10 can be put into operation in order to transfer the blanks coming from the punching unit 14 to the bending unit 20 to be overlaid ”n and there - as known from the prior art - to be processed.

In Fig. 2 a stamping and bending machine 10 is shown, which in contrast to the embodiment according to Fi g. 1 has a longer machine base on which two different processing units, namely ω a processing unit 21 and a downstream Bending unit 20 can be mounted. The processing unit can consist of a welding device, a Boring mill, an automatic milling machine or even a plastic injection molding device for overmolding the blanks Plastic consists .. It is essential that the drive shaft 28 of the machining unit 21 with the drive shaft 28 of the bending unit 20 is aligned, and that the machining unit 21 has one of its drive shafts 28 has opposite output shaft, as will be discussed below in connection with FIG. 5 explain; t will be. The individual processing units can then be consecutively in the desired order be pushed onto the slide guide 18 and coupled together so that their drives on the motor gear of the stamping and bending machine 10 are connected.

F i g. 3 differs from FIG. 2 only in that the punching-bending machine 10 with two in a row switched bending units 20 is equipped, both of which face each other with their narrow sides lie.

According to Figure 4, the punching and bending machine 10 has a first bending unit 20, which is releasably attached to the machine base in the manner already described and to which the workpieces are each fed radially. The bending unit 20 is a further bending unit 20 'r; <s.chwitched, in this case on a cross arranged sliding guide 18 ve. mounted to slide and which is at right angles to the Tiiegeeinheh 20 extends. Those that are processed in the bending unit 20 are processed in this further downstream bending unit 20 ′ Workpieces fed axially. The Maschinenurnerbau consists, here of two parts 30, 32, their table surfaces are aligned with one another in terms of height and d; e are detachably connected to one another in a simple manner.

F i g. 5 shows the motor transmission of the stamping and bending machine 10 and the coupled drive mechanism of the bending unit 20 in a schematic representation. The stamping and bending machine 10 has a pair of V-belt pulleys 32, which is driven by a drive motor, not shown, of the stamping and bending machine 10 via V-belts is and drives a PTO shaft 36 via a bevel gear 34, which is sleeve-shaped and a frontal opening 38 with a profile corresponding to that of the multiple spline shaft 28 of the bending unit 20 has.

The drive mechanism of the bending unit 20 has a sun gear 40, with which a number does not the drive gear shown is connected, which are assigned to the respective bending tools, as is known in the prior art. One on a transverse shaft 42 seated drive belt 44 is with the sun gear 40 engaged. The transverse shaft 42 is connected to the drive shaft 28 via a bevel gear 46 Bending unit 20 tied together. It goes without saying that that a bevel gear can also be assigned to the stamping and bending machine 10 and a clutch of the Automatic machine 10 with the bending unit 20 by bringing the two bevel gears of the bevel gear 46 into engagement can be achieved. Ir, in each case, by simply pushing the bending unit 20 ar. the machine 10 reached a gear clutch.

The bending unit 20 according to FIG. 5 shows ν ine more Cross shaft 52 at its opposite end aul, which via a drive pinion 54 also with the Sun gear 40 is in drive connection and via a bevel gear 56 with a drive sleeve 58 in Connection is, which is coaxial with the shaft 28, so that according to FIGS. 2 and 3, a further bending unit 20 to the one already on the machine under construction-mounted unit can be connected by inserting the drive shaft 28 into the output sleeve 58 of the upstream bending unit 20 is retracted telescopically.

The Querwclle 42 is in the training according to Γ i g. 5

led out on the back of the bending unit 20 and carries a splined shaft section 28 'there. Also is the transverse shaft 42 is also extended towards the front of the bending unit 20 and carries a sleeve-like there Output section 58 '. Thanks to this latter configuration, one and the same bending unit 20 can be split into two positions lying at right angles to one another are attached to the machine base, as shown in FIG. 4th is illustrated schematically. For the bending unit 20 according to FIG. 4, that illustrated in FIG. 5 applies Transmission connection. For the Dicgecinhcit 20 'gcmhß F i g. 4 becomes the circumferential section 28 'of the shaft 42 in the output sleeve 38 of the machine 10 retracted. The output sleeve 58 ′ of the Qiierwelle 42 then serves if necessary / to couple a drive shaft 28 or 28 'of a further processing unit.

The F ι g. b and 7 illustrate the Stan / Biege machine in view and top view in connection with

28 'mn of the output sleeve 38 of the machine 10 is coupled. while the right-angled splined shaft 28 protrudes freely to the front. In the difference / u the previous !! In some embodiments, the machine base 2 has a rotary plate 60 on which the sliding guide 18 is located, preferably in the form of a compound slide. The rotating plate 60 makes it possible to rotate the bending unit 20 in a few steps in the ¹ J position 20 'and to bring by sliding along the sliding guide 18 in driving engagement.

The new stamping and bending machine has about twice the performance compared to conventional ones Machines, since downtimes are practically complete

ίο not applicable. The bending unit 20 can be upgraded separately and be tested in a test run by a servo drive so that it is ready for production. The 1 in equipping a machine 10;> ii (another Bending unit is! possible in a short break from work.

υ because only the previous bending unit has to be removed after loosening a few clamping screws and crsc / l / u through the prepared new bending unit. In addition, the new stamping and bending machine is>, ».» T., K. »R .nii-h iMtilcpiliirpr piik jt / f: ihur ι \ · Λ ..liter

m use one and the same can be connected Basisleils heal more identical or even different types of processing.

For this 6 sheets of drawings

Claims (5)

Patent claims: 1. Stamping and bending machine for multiple, bent or shaped small parts made of tape or wire, with a machine base with drive motor and motor gearbox on which a bending unit is located berindet, which consists of several, on a vertical plate around the central processing point arranged slide units for the individual bending tools and the one central Has the drive mechanism of all bending slide units, on which base furthermore - according to Art a modular system - additional machining units can be driven via a plug-in shaft connection, such as punching device etc. can be attached, characterized in that the bending unit (20; 20 ') can be removed in its entirety from the machine substructure (12) or with its own The substructure is provided and can be removed with this from the machine substructure and its drive mechanism (28) can be coupled to the plug-in shaft connection (36). 2. Stamping and bending machine according to claim 1, characterized in that the machine substructure (12) or the substructure of the bending unit (20; 20 ') extends parallel to the direction of the plug-in shafts Has sliding guide (18) for the bending unit (20; 20 '). 3. Stamping and bending machine according to claim 2, characterized in that the sliding guide (18) the machine base (12) on a compound slide or a turntable (VD) is provided. 4. Stanz-Biegeautorr.at according to any one of claims 1-3, characterized in that let the bending unit (20) has at least one output shaft (58; 58 ') which with its drive shaft (28; 28') in permanent Drive engagement is and with the drive shaft of a further bending unit (20) or sunny Processing unit can be coupled. 5. Stamping and bending machine according to one of the claims 1-4, characterized in that the bending unit (20) is two at right angles to each other at the same height has lying drive shafts (28; 28 ') which are in gearbox connection with one another.