DD217154A1 - METHOD AND DEVICE FOR THE HOT-EXPLOSIVE MOLDING OF CHIP PARTS - Google Patents

Abstract

The invention relates to a method for the production of sheet metal hollow parts by heat explosive forming and a device for carrying out the method. The task is to achieve a low-process manufacturing of complex, thick-walled sheet metal hollow parts at high Arbeitsproduktivitaet. The object is achieved in that a Werkstueckausgangsform heated from a vertical positioning device by a robot supplied to the explosive forming, is simultaneously introduced by another robot an explosive charge in the erwaermte Werkstueckausgangsform, wherein the detonator immediately before triggering the detonation in introduced the explosive and formed in the horizontal forming position of the locked and Verdaemmten Explosivumformeinrichtung and removed by a robot in the vertical starting position of the opened Explosivumformeinrichtung. Fig. 1

Description

Title of the invention:

Method and apparatus for heat-expressive forming of sheet metal

hollow parts. \ _y

Field of application of the invention:

The invention relates to a method for the production of sheet metal hollow parts by heat expressive forming and a device for carrying out the method.

Characteristic of the known technical solutions: A method for producing spiral hollow bodies and a device for carrying out the method are known. This technical solution pursues the task of exposing each point of the spiral hollow body to internal pressure, to avoid crack formation on the workpiece and at the same time to provide means for transmission of the drive energy to the spiral hollow body and to achieve reliable protection of the explosive during hot forming.

The object is achieved in that a tube to be reshaped with a prefabricated, the explosive centering Ladurigs-: hülle "summarized before introduction into a uniform tool to a handling safe blasting blank and then positioned in the forming tool, dammed and detonated, the tube through the Detonation pressure is converted according to the Gesenkformkontur in cold forming to a workpiece intermediate shape or hot working to a finished workpiece, wherein between the explosive and the workpiece wall constantly the same charge intervals are present, and that simultaneously with the formation of the spiral profile, a cylindrical connecting part with a force! Eitungselement for the joint connection of Schraubenapindelantriebes by punching and resulting, to the outside or inside

, ""'..'"~ ² - '''-. ·.

directional Aushalsungen is prepared (WPB 21 D / 236 369).

The drawbacks of cold forming are that ^N the manufacturable diversity of fins and the degree of complexity is limited by the limited Umformvermögen dee material at room temperature ₀ Large changes in shape can only be achieved by time ™ and> costly multi-stage forming and intermediate annealing _β Experiments conducted with the WarmmexpiosiVumformen have shown that the heat exposure of the tube to the cargo envelope and from there to the explosive core was too large, so that the safety issues are not adequately granted% aren. ''. , ' ''

Object of the invention '

The Siel of the invention is to reduce the number of ümformstufen _s the production time, the Werkzeügkosten, the use of materials and the number of workers and to increase the forming capacity in the production of sheet metal hollow parts. ,. '. ·,

Explanation of the essence of the invention:

The invention has for its object to provide a method and apparatus for Warmexpiosivumformen sheet metal hollow parts, which allow the low-process manufacturing of complex, thick-walled sheet metal hollow parts with high labor productivity.

According to the invention, this object is achieved in that a Vierkstuckausgans- form, eg a section of a pipe or a box-shaped hollow profile, heated in a continuous heating device from a vertical positioning device by a Werkstückbeschickungsund removal robot, the Explosivumformeinrichtung, the eich in vertical Initial position is, supplied, at the same time by an explosive charge and tool cleaning robot an explosive charge is introduced into the heated workpiece output form, the detonator immediately before triggering the detonation, which takes place from a control and Fernzündungsstand, introduced into the Sprangstoff and in the horizontal forming position of the ? locked and dammed explosive forming device transformed

, - '. , .V - ^ :: -.'--- ... , - 3 .-:; - ', ..,; , '. and is removed by the workpiece loading and removal robot in the vertical starting position of the opened Explosivumformeirir direction. To carry out the method, the invention is characterized by the device that a ..- located in the vertical starting position, with a heated Werkstückausgangsfoрm and. Explosive charge device can be tilted into the horizontal forming position and tilted back into the vertical starting position. Another feature is that the explosive forming device in ^! A further feature of the invention is that the ignition of the explosive charge is guided by a through a bore in the Axialverdämmeinrichtung headed Laser flash takes place. The invention is characterized in that the ignition of the explosive charge is performed by a Perfcussions- or piercing. , 'The invention is also characterized in that the explosive is free of explosives, by high. Thermal stability, thermal insulation and dimensional stability of both the explosive constituents and the inert materials is characterized. Finally, the invention includes that the die halves a funnel-shaped Werkstückeinlauf- and -forforakontur is arranged upstream in the axial direction of the heated workpiece output.

Finally, it is a feature of the invention that the explosive charge consists of the explosive, a surrounding the explosive, heat-resistant, heat-insulating and dimensionally resistant explosive sleeve, the explosive sleeve enclosing heat protection cover and the heated material output form. .. '; , .-. · '. , .. ',. ':

Embodiment:

The invention will be explained in more detail below with reference to an exemplary embodiment. In the accompanying drawings: Fig. 1: Scheme of the procedure Pig. 2: Section through the swiveling explosive conversion device Fig. 3ί Section through the thermally insulated explosive charge

A workpiece output form 1, for example a section of a tube or a box-shaped hollow profile, is positioned in a known manner by means of a feed device 2 on a roller conveyor 3. From here, a known insertion device takes over the transport of the workpiece output form 1 into the continuous heating device 4. The workpiece output form 5, which has been heated to the forming temperature, reaches "z" B in a known manner. via a slide / in the positioning device 6, which takes over the vertical positioning of the heated workpiece output mold 5.

The workpiece loading and unloading device 7 transfers the heated workpiece output form 5 to the explosive filling device 8 _S, which is in the vertical starting position and consists of the die halves 9 with a workpiece inlet and forming contour 10, wherein the die halves 9 are optionally provided with a heating device -can. The heated workpiece exit mold 5 is moved through a workpiece holding and ejecting device 11 into the die halves 9 of the explosive converting device which are locked by the closing and opening cylinders 12. 8 fixed.

The explosive charge 14 consists of the explosive 15 _$ of the explosive 15 surrounding heat-resistant, heat-insulating and dimensionally explosive sleeve 23 of a Spr.engstoffhülse 23 enclosing heat shield shell 17 which simultaneously represents the energy transmission medium, and the detonator 16. The explosive charge and Werfczeugreinigungsroboter 13 takes over the removal of the explosive charge 14 from the positionable explosive charge storage 18 and the introduction of the complete explosive charge 14 into the heated workpiece output form 5 *

Subsequently, the Explosivumformeinrichtung 8 is rotated from the vertical starting position to the horizontal forming position and the Axialverdärameinrichtung 19 moved up to the Explosivumformeinrichtung 8. The triggering of the thermal explosive deformation takes place after an automatic charge positioning control via remote ignition from the control and remote ignition position 20 or by special ignition devices,. After larmexplosivumformung the Axialverdämraeinrichtung 19 is moved back and the Sxplosivumformeinrich

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'^; . · .. '"". ! "'.' - 5 -. '. ·' · .. The closing ¹ and opening cylinder 12 the opening of the Gesenkhalf take ten 9 and the work holding and ejection device 11, the vertical position of positioning of the work Stuckes 21. The Werkstückbeschickungs- and removal robot 7 transported from the workpiece 21 this position on the discharge device

22. /; '' _: '. , , ·. - ';':'' .

At the same time, cleaning and spraying of the opened die halves 9 with a technological auxiliary takes place by means of the charge of explosive charge S and tool cleaning robot 13. After the die halves 9 are locked by means of closing and opening cylinders 12, the explosive forming device 8 is prepared for the next working cycle.

Claims (1)

Claim for invention: .., · Verfahren «Process for the production of sheet metal hollow parts by heat explosive forming, characterized in that one in a Durchlauferwämungs device (4) on Umfornitemperatur - / -. , ·. '· Accepted workpiece output form (5) ». for "B". a section of a pipe or a box-shaped hollow profile, taken from, a vertical positioning device (6) by a workpiece loading and unloading robot (7), the. Explosifumformeinrichtung (8), which is located in the vertical starting position, fed simultaneously through a _; Explosive charge and tool cleaning robot (13X an explosive charge (14) in the heated workpiece output mold (5) is introduced, wherein the detonator (16) immediately before triggering the detonation «, which takes place from a control and Fernzündungsstand (20), in the explosive (15) introduced and in the horizontal deformation position of the locked and dammed Explosivumfarmeinrichtung (8), reshaped and removed by the workpiece loading and unloading ^: robot (7) in the vertical starting position of the open explosive forming device (8) » ..χ Apparatus for carrying out the method according to item 1, characterized in that an explosive forming device (8) located in the vertical starting position and supplied with a heated workpiece outlet mold (5) and explosive charge (14) can be tilted into the horizontal forming position and into the vertical starting position is tiltable " Device according to item 1, characterized in that the explosive forming device (8) is in technological coupling with a workpiece loading and unloading robot (7), a positioning device (6) for the heated workpiece outlet (5) "an explosive charge and tool cleaning robot (5). 13) and a positionable explosive charge spit (18) for the explosive charge (14) is provided. .,: '' 4® device according to item 1y, characterized in that the ignition of the explosive charge (14) - by a through a > .Bohrung in the Axialverdämmeinrichtung (19) guided laser flash takes place. , 5β device according to item 1, characterized in that the ignition of the explosive charge (14) by a percussion or piercing ignition is made. 6 «A device according to P _u nkt 1, characterized in that the explosive (15) is sprengö'lfrei, by high Wärare" stability, as well as by Wämedäramvermö'gen formst ABILITY both the explosive powerful components as well, the inert /. distinguishes fabrics. - 7p Device according to point 1, characterized in that the die halves (9) a funnel-shaped Werkstückeinlauf- and forming contour (10) in the axial direction of the heated workpiece output form (5) is pre-drilled. 8, device according to point 1, characterized in that the explosive charge (14) of the explosive (15) surrounding the explosive, heat-resistant, heat-insulating and dimensionally resistant explosive sleeve (23), the explosive sleeve (23) enclosing heat protective cover (17) and the heated workpiece output form (5) consists. limu.JL pages