DE3444241A1 - Screw press - Google Patents

Abstract

The invention relates to a screw press with a separate flywheel as an energy store and a coupling to connect the said flywheel to the spindle, it being proposed according to the invention that exclusively the spindle and parts which are fixedly connected to the latter be driven. Furthermore, it is advantageous that the drive motor initially only accelerates the spindle to a predetermined speed of rotation from a stationary state, after which the actual flywheel is coupled by means of a coupling and is decoupled once again after a switch point has been reached, only the spindle being driven to raise the pusher rod.

Description

- SCREW PRESS

The invention relates to a screw press with a separate flywheel as energy storage and coupling to connect this flywheel to the spindle.

Screw presses with a slip clutch between the flywheel and the threaded spindle are known to be driven by electric or hydraulic motors via the flywheel. When the press ram is started, the flywheel is accelerated from standstill. At most, the downward stroke or the upward stroke of the press ram is available for acceleration to disposal. This results in high current values and large drive powers.

The slip clutch between the flywheel and the threaded spindle protects the press for flywheels with a very high work capacity before impermissibly high Pressing force.

The flywheel comes to a standstill at the end of the forming process. in the The flywheel turns in the opposite direction of rotation on the upward stroke of the press ram driven.

Also known is a screw press with one in the same direction of rotation continuously driven flywheel and one between this and the spindle arranged clutch. This type of drive requires a very large flywheel because with full energy consumption the speed drop may amount to approx. 12% max. A Another disadvantage is the large difference in speed between the spindle and the flywheel when coupling, which means energy consumption and coupling wear.

The invention relates to a screw press with a slip clutch between the flywheel and the threaded spindle, in which the spindle is connected to or hydraulic motors is driven and the flywheel only during the last 2/3 of the downward stroke is switched on.

The object of the invention is to improve screw presses of this type, especially with regard to the required drive power, power consumption and overall efficiency. In addition, the controllability of the press should be increased, thus also forming work carried out with relatively little work capacity, such as edging, without any disadvantages can be.

According to the invention, this is the above in a screw press described embodiment achieved in that only the spindle or rigid with this connected parts are driven. It is advantageous that the Drive motor initially only the spindle from standstill to a predetermined one Speed accelerates, after which the actual flywheel is coupled via a clutch and is uncoupled again after reaching a switching point, whereby to start up of the ram only the spindle is driven.

It is also advantageous that setup work and work with low energy consumption only by driving the spindle when the flywheel is at a standstill take place.

The invention is based on a drawing showing any exemplary embodiment represents, explained in more detail.

The flywheel 1 with the spindle 2 is not between the press strokes coupled. After the start of the lifting movement, only those with the spindle are initially activated 2 rigidly connected masses accelerated. After the ram approx. 1/3 of the stroke has passed through, the flywheel 1 is coupled.

The uncoupling of the flywheel 1 can after reaching the following known switching points take place: 1. depending on the plunger position, 2. depending on the force, 3. torque-dependent, 4. speed-dependent, 5. delay-dependent.

For raising the ram, only the spindle 2 is in the opposite direction Direction driven; the flywheel 1 runs at the speed reached when uncoupling Further. Coupling on the next stroke can reduce clutch wear take place at synchronous speed between flywheel 1 and spindle 2. If required, the entire energy for a forming process can also be consumed and thus the flywheel 1 come to a standstill at the end of the stroke.

When setting up, the ram can be opened by driving spindle 2. and be driven off without the flywheel 1 being moved. When working with small Energy requirements (e.g. edge breaking or calibration) are also only required by the spindle 2 are driven with the flywheel 1 at a standstill.

Claims (3)

PATENT CLAIMS 1. Screw press with separate flywheel as energy storage and coupling for connecting this flywheel to the spindle, d a d u r c h g It is not noted that only the spindle or rigid with it connected parts are driven. 2. Screw press according to claim 1, d a du r c h g e k e n n z e i c N e t that the drive motor only starts the spindle from a standstill accelerated a predetermined speed, after which the actual via a clutch Flywheel engaged and disengaged again after reaching a switching point , whereby only the spindle is driven to raise the ram. 3. Screw press according to claims 1 and 2, thereby g e k e n n notices that set-up work and work with low energy requirements only by driving the spindle with the flywheel stationary.