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          forging attachments

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          Counter-Blow Hammer

          used forging attachments Counter-Blow Hammer BECHE DG 25h/s - 3500t


          • ATMH Werkzeugmaschinenhandel GmbH
          • Scharpenbergerstr.96-98
          • 58256 Ennepetal
          • Deutschland

          • +49 (0) 2333 / 403 43 70
            +49 (0) 2333 / 403 43 75
          • info@atmh.de
            www.atmh.de
          #2065-A36548 · Counter-Blow Hammer

          BECHE - DG 25h/s - 3500t - - 1983 / Retrofit 2001 -

          Technical details

          BECHE - counter blow hammer including spare parts: 1x top bear (additional) 1x lower bear (additional) 1x replacement cylinder for lower ram. (additionally) Pressure force: 3500 tons Type DG25hs Retrofit 2001 Total weight of the machine 200 tons Forge parts 1300 x 1800 mm The press was modernized in 2003/2004 and 3500 tons retrofitted / expanded. Press Pressure force: approx. 3500 t Compressed air pressure for the drive: approx. 6.5 bar Pressure of the hydraulic bar coupling: stat .: approx. 110 bar dyn .: approx. 450 bar Pressure force when functioning (pressing): approx. 800 kN Dimension: Width at floor level: 4200mm Depth at floor level: 1800mm Height above floor: approx. 5600mm Depth below the floor to the upper edge of the base plate: approx. 3440mm Bear piston diameter: 1250mm Side. Clutch piston diameter: 150mm Mean Clutch piston diameter: 210mm Weights: Total weight: approx. 201 t Base plate: approx. 15.25 t Upper bear: approx. 35.3 t Lower bear: approx. 37.1 t Stand: approx. 36.0 t each Machine head with control parts: 16.5 t Permissible differential weight d. Dies: 1.5 t Hydraulic station / control: Max. Capacity container: 320 liters Max. Capacity coupling: 100 liters Central lubrication unit: a) Guide rail Max. Capacity: 35 liters b) machine head Max. Capacity: 35 liters The Beche counterblow hammer is a drop forging machine with 2 vertical bears striking one another. Ensure two stands in box construction with adjustable guide plates an exact guidance of the upper and lower. The uprights are in their position through the base plate and the machine head fixed. The return stroke of the lower bar is in the lowest position by two on the Base plate mounted impact buffer limited. The bar is driven by the operating medium (compressed air or steam) with an operating pressure of 6-7 bar. The control takes place via hydraulically operated valves, which are located in the top of the machine. part are attached. The connection of the upper and lower bar is made via a hydraulic coupling system. For the hydraulic bar coupling as well as for the electro-hydraulic There is a separate hydraulic station for the control system. The leakage generated at the hydraulic bar coupling is stored in a leakage station and automatically returned to the hydraulic station. The lubrication of the bar guides, the upper bar piston and the valve control follows automatically through a central lubrication unit. On the clutch cylinders there are blow-out devices to hammer blow and to keep dirt particles away from the scrapers. To secure the bar - in the extended state - is a bar support available. In the swiveled-in state, the control is switched off, it can no blow will be inflicted. The electrical and electronic controls are in a separate from the machine's electrical switchgear cabinet. The electrical controls are arranged in a hand control panel. The The hand control panel is attached to a portable foot switch. Set selector switch number 1 and II for foot switch 1 and 2: For foot switch t: 2 - 9 strokes For foot switch 2: max.beats for foot switch 3 any When the control is switched on, the solenoid valves Y5 and Y8 are activated. The Flow rate of the control pump H-P1 for controlling the upper valve group and H-P2 for controlling the lower valve group flows through the solenoid valves Y1 or Y6 back to the hydraulic station. Through the Uber valves H-VV1 or H-VV2 Back pressure formed flows at the same time a small amount of Ul through the Vent valves H-EVI and H-EV2 of the upper valve group as well as the Vent valve H-EV3 of the lower valve group. This creates a Air-free hydraulic system guaranteed. When a control pulse is triggered by a foot switch, the controlled upper valve group. The solenoid valve Y1 is activated. Through the The following pressure build-up now closes the vent valves H-EV1 and H-EV2, and the piston of the control cylinder H-Z5 moves the pushbolt to the right; the The outlet valve H-V2 closes. To open the inlet valve H-V1, a increased control pressure required. The maximum pressure valve H-MV3 is set so that the pressure is reached to close the outlet valve but not to open the inlet valve. Now that happens depending on Work combinations of different lengths of electrical control pulse t2. Solenoid valve Y2 responds immediately, i.e. the flow through H-MV3 is reduced locked, the pressure can rise further and the inlet valve H-Vt opens. Now the top piston - for the duration of the actuation of H-Vt - acted upon by the equipment. The maximum opening stroke of H-V1 is reached when the control piston H-Z5 with the pressure-side edge channel areached. After the end of the control pulse t2, the solenoid valves Y3 and Y4 respond. The inlet valve H-V1 closes again, since the control oil pressure via Y4, Y3, Y8 and H-MV3 is dismantled. The supply of resources to the top is interrupted. The outlet valve H-V2 remains closed, the one that has flown into the cylinder Compressed air expands. Just before the blow will be Y1 released, the outlet valve H-V2 opens, a little later Y2 and Y3 from. Just before the impact, the solenoid valve Y6 is activated and thereby the controlled lower valve group. The start of the control time for solenoid valve Y6 depends on the working conditions of the field. Out- release valve H-V4 closes, inlet valve H-V3 opens. Kier also becomes the maximum Opening stroke after reaching Oberstrtimkanals a in the control cylinder H-26 through limits the control piston. The targeted control of the underside stands at the moment of the strike the full operating pressure is applied, so that the bar after the Spread the field apart quickly. Depending on the bar rebound the time t6 to act on the underside for the BarrUckhub by more or less long press of the foot switch can be controlled. To one To achieve a jerk-free return stroke, the outlet valve on the top can do this can be adjusted so that a more uniform air flow is generated by the resulting dynamic pressure Return stroke is achieved. For this purpose, the pusher bolt is attached to the adjusting screw and Control piston displaced so that the outlet valve is in the desired position occupies. Through the separate control of the inlet valve opening time Y2 and Y3, the change in the exhaust valve lift has no influence on the Powerful. In order to precisely control a light blow, the upper inlet valve only opened by a partial stroke within an annular throttle gap. To do this, the solenoid valve Y4 is additionally activated for a slight blow. Bel Reach the ring channel b in the control cylinder H-Z5 flows through the control piston Control through this as well as Y4, so that the inlet valve lift greet Please contact us for more information and technical data of the Machine.
            Description :
            BECHE - counter blow hammer

            including spare parts:

            1x top bear (additional)
            1x lower bear (additional)
            1x replacement cylinder for lower ram. (additionally)

            Pressure force: 3500 tons
            Type DG25hs
            Retrofit 2001
            Total weight of the machine 200 tons
            Forge parts 1300 x 1800 mm

            The press was modernized in 2003/2004 and 3500 tons retrofitted /
            expanded.


            Press
            Pressure force: approx. 3500 t
            Compressed air pressure for the drive: approx. 6.5 bar
            Pressure of the hydraulic bar coupling: stat .: approx. 110 bar
            dyn .: approx. 450 bar
            Pressure force when functioning (pressing): approx. 800 kN



            Dimension:
            Width at floor level: 4200mm
            Depth at floor level: 1800mm
            Height above floor: approx. 5600mm
            Depth below the floor to the upper edge of the base plate: approx. 3440mm
            Bear piston diameter: 1250mm
            Side. Clutch piston diameter: 150mm
            Mean Clutch piston diameter: 210mm

            Weights:
            Total weight: approx. 201 t
            Base plate: approx. 15.25 t
            Upper bear: approx. 35.3 t
            Lower bear: approx. 37.1 t
            Stand: approx. 36.0 t each
            Machine head with control parts: 16.5 t
            Permissible differential weight d. Dies: 1.5 t

            Hydraulic station / control:
            Max. Capacity container: 320 liters
            Max. Capacity coupling: 100 liters

            Central lubrication unit:
            a) Guide rail
            Max. Capacity: 35 liters
            b) machine head
            Max. Capacity: 35 liters

            The Beche counterblow hammer is a drop forging machine with 2 vertical
            bears striking one another.
            Ensure two stands in box construction with adjustable guide plates
            an exact guidance of the upper and lower.
            The uprights are in their position through the base plate and the machine head
            fixed.
            The return stroke of the lower bar is in the lowest position by two on the
            Base plate mounted impact buffer limited.
            The bar is driven by the operating medium (compressed air or steam)
            with an operating pressure of 6-7 bar.
            The control takes place via hydraulically operated valves, which are located in
            the top of the machine.
            part are attached.
            The connection of the upper and lower bar is made via a hydraulic coupling
            system.
            For the hydraulic bar coupling as well as for the electro-hydraulic
            There is a separate hydraulic station for the control system.
            The leakage generated at the hydraulic bar coupling is stored in a leakage
            station and automatically returned to the hydraulic station.
            The lubrication of the bar guides, the upper bar piston and the valve control
            follows automatically through a central lubrication unit.
            On the clutch cylinders there are blow-out devices to hammer blow
            and to keep dirt particles away from the scrapers.
            To secure the bar - in the extended state - is a bar support
            available. In the swiveled-in state, the control is switched off, it can
            no blow will be inflicted.
            The electrical and electronic controls are in a separate from
            the machine's electrical switchgear cabinet.
            The electrical controls are arranged in a hand control panel. The
            The hand control panel is attached to a portable foot switch.


            Set selector switch number 1 and II for foot switch 1 and 2:
            For foot switch t: 2 - 9 strokes For foot switch 2: max.beats for foot switch 3
            any
            When the control is switched on, the solenoid valves Y5 and Y8 are activated.
            The
            Flow rate of the control pump H-P1 for controlling the upper valve group and
            H-P2 for controlling the lower valve group flows through the solenoid valves Y1
            or Y6 back to the hydraulic station. Through the Uber valves H-VV1 or H-VV2
            Back pressure formed flows at the same time a small amount of Ul through the
            Vent valves H-EVI and H-EV2 of the upper valve group as well as the
            Vent valve H-EV3 of the lower valve group. This creates a
            Air-free hydraulic system guaranteed.
            When a control pulse is triggered by a foot switch, the
            controlled upper valve group. The solenoid valve Y1 is activated. Through the
            The following pressure build-up now closes the vent valves H-EV1 and H-EV2,
            and the piston of the control cylinder H-Z5 moves the pushbolt to the right; the
            The outlet valve H-V2 closes. To open the inlet valve H-V1, a
            increased control pressure required. The maximum pressure valve H-MV3
            is set so that the pressure is reached to close the outlet valve
            but not to open the inlet valve. Now that happens depending on
            Work combinations of different lengths of electrical control pulse t2.
            Solenoid valve Y2 responds immediately, i.e. the flow through H-MV3 is reduced
            locked, the pressure can rise further and the inlet valve H-Vt opens.
            Now the top piston - for the duration of the actuation of H-Vt -
            acted upon by the equipment. The maximum opening stroke of H-V1 is
            reached when the control piston H-Z5 with the pressure-side edge channel
            areached.
            After the end of the control pulse t2, the solenoid valves Y3 and Y4 respond.
            The inlet valve H-V1 closes again, since the control oil pressure via Y4, Y3,
            Y8 and
            H-MV3 is dismantled. The supply of resources to the top is interrupted.
            The outlet valve H-V2 remains closed, the one that has flown into the cylinder
            Compressed air expands. Just before the blow will be
            Y1 released, the outlet valve H-V2 opens, a little later Y2 and
            Y3 from.
            Just before the impact, the solenoid valve Y6 is activated and thereby the
            controlled lower valve group. The start of the control time for solenoid valve
            Y6
            depends on the working conditions of the field. Out-
            release valve H-V4 closes, inlet valve H-V3 opens. Kier also becomes the maximum
            Opening stroke after reaching Oberstrtimkanals a in the control cylinder H-26
            through
            limits the control piston. The targeted control of the underside stands
            at the moment of the strike the full operating pressure is applied, so that the
            bar after the
            Spread the field apart quickly. Depending on the bar rebound
            the time t6 to act on the underside for the BarrUckhub by more
            or less long press of the foot switch can be controlled. To one
            To achieve a jerk-free return stroke, the outlet valve on the top can do this
            can be adjusted so that a more uniform air flow is generated by the resulting
            dynamic pressure
            Return stroke is achieved. For this purpose, the pusher bolt is attached to the
            adjusting screw and
            Control piston displaced so that the outlet valve is in the desired position
            occupies. Through the separate control of the inlet valve opening time
            Y2 and Y3, the change in the exhaust valve lift has no influence on the
            Powerful.
            In order to precisely control a light blow, the upper inlet valve
            only opened by a partial stroke within an annular throttle gap. To do this,
            the solenoid valve Y4 is additionally activated for a slight blow. Bel Reach
            the ring channel b in the control cylinder H-Z5 flows through the control piston
            Control through this as well as Y4, so that the inlet valve lift
            greet



            Please contact us for more information and technical data of the
            Machine.

          Drop Forging Press

          used forging attachments Drop Forging Press EUMUCO SP 250


          • Kemmerich Werkzeugmaschinen
          • Im Rottfeld 1a
          • 40789 Monheim am Rhein
          • Deutschland

          • +49 2173 207474
            +49 2173 207473
          • info@kemmerich.biz
            www.kemmerich.biz
          #1020-19824 · Drop Forging Press

          EUMUCO - SP 250 - - 1975/1991 -

          Technical details

          Drop forging Press 1991 overhauled
            Description :
            Drop forging Press
            1991 overhauled
          used forging attachments Drop Forging Press SMS EUMUCO-MEER KP 16000


          • Kemmerich Werkzeugmaschinen
          • Im Rottfeld 1a
          • 40789 Monheim am Rhein
          • Deutschland

          • +49 2173 207474
            +49 2173 207473
          • info@kemmerich.biz
            www.kemmerich.biz
          #1020-17248 · Drop Forging Press

          SMS EUMUCO-MEER - KP 16000 - - 2016 - EPSS 12

          Technical details
          pressure 16000 t︱stroke 600 mm︱dayligth 2500 mm︱ram strokes 25 Hub/min︱table surface area 2440 x 3000 mm︱ram head dimension 2380 x 2800 mm︱Motor power 700 KW︱ejector stroke 0-90 mm︱Control EPSS 12 ︱total power requirement 1300 kVA︱weight of the machine ca. 1750 t︱dimensions of the machine ca. 9,75 x 12,1 x 14
          The wedge press is a drop forging press with exceptionally good working accuracy. Your Characteristics are the extremely high longitudinal stiffness (Springing) and the high tilting stiffness in all Directions. The low springing of the press leads too short pressure contact times. Wedge presses are due to the large off-center Resilience and because of the high tilting stiffness advantageous then used when the forgings are long and tight thickness and offset tolerances must be complied with over the entire length. Typical for this are double connecting rods, truck front axles, Crankshafts, precision forgings etc. Unused machine, in original packaging equipped with: - CNC press safety control EPSS 12
            pressure 16000 t
            stroke 600 mm
            dayligth 2500 mm
            ram strokes 25 Hub/min
            table surface area 2440 x 3000 mm
            ram head dimension 2380 x 2800 mm
            Motor power 700 KW
            ejector stroke 0-90 mm
            Control EPSS 12
            total power requirement 1300 kVA
            weight of the machine ca. 1750 t
            dimensions of the machine ca. 9,75 x 12,1 x 14
            Description :
            The wedge press is a drop forging press with
            exceptionally good working accuracy. Your
            Characteristics are the extremely high longitudinal stiffness
            (Springing) and the high tilting stiffness in all
            Directions. The low springing of the press leads
            too short pressure contact times.
            Wedge presses are due to the large off-center
            Resilience and because of the high tilting stiffness
            advantageous then used when the forgings
            are long and tight thickness and offset tolerances
            must be complied with over the entire length.
            Typical for this are double connecting rods, truck front axles,
            Crankshafts, precision forgings etc.

            Unused machine, in original packaging
            equipped with:
            - CNC press safety control EPSS 12

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          G. Folmer Industriebedarf Industriemaschinen  42655 - Solingen Mangenbergerstr. 347 Deutschland
          G. Folmer Industriebedarf Industriemaschinen

          Mangenbergerstr. 347



          Contact Trader


            G. Folmer Industriebedarf Industriemaschinen
           Mangenbergerstr. 347
            42655 - Solingen
            Deutschland
            +49 21241071
            +49 21241276
            folmer.maschinen@t-online.de
           
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