DE3419123A1 - High-pressure, long-stroke press with cable drive - Google Patents

Abstract

The fact that a cable pulled tight with a force of P will move the stationary roller and the deflection roller towards one another at 2 . P (double the force) is the basic idea behind a high-pressure surface press. The rollers are converted into jaws. In similar fashion to a multi-roller system, the said press can endlessly increase its closing force, without increasing the tensile force of the cable or the drive, if the coils enclosing the jaws are multiplied.

Description

High-pressure long-stroke press with cable drive

Description: The invention relates to a long stroke high pressure plate press for general industrial use.

The invention is based on the object of a universally applicable High pressure press to create all the characteristics hydraulic and mechanical Pressing combines and moreover offers properties that none of this type of pressing had so far. Another object of the invention is the costly Switching off parts of a press without affecting the quality properties. Ultimately, the aim is to achieve the lowest possible energy consumption.

The objects are achieved according to the invention in that one has a system creates that, in terms of its physical properties, comes closest to a pulley system resembles. The pulleys of a pulley system are converted into press jaws and Although the upper jaw takes on the role of the fixed role, the lower one The press jaw works like a pulley. Each new winding around the press jaws works like an additional pair of roles and results from an increase in Pressing force that is twice as great as the tensile force of the cable.

With this solution, a press can now be practically unlimited large pressing force can be created without the driving force of the closing device - a winch - to enlarge. The length of the rope wrapped around the jaws determines the distance between the press jaws, which can be varied indefinitely by winding or unwinding the cable drum.

By concentrating the number of turns on certain places, you can different pressures are exerted on the jaws, according to the process in hydraulic presses, where pressure pistons are clamped. This will make that Fully laying out the press unnecessary.

According to the law of action and counteraction, compressive forces must be Have a basis on which they can rely. This is the case with conventional presses the press frame, one of the most expensive components. Even have isophalic presses a press frame in the form of a belt or a boiler wall.

With this invention, the closing forces are applied to two points (middle of the rope) concentrated or reduced = to the beginning and end of the rope. Both will be on the same Jaw - at the top or at the bottom - attached. This eliminates the need for the entire frame construction.

The self-adjusting property of the jaws is achieved by that the windings of the overall system as separate pulley units during the closing process work - and the rope is always "tied up" where there is the least resistance occurs. The jaws will only touch the thickest part of the material to be pressed, then finally at the thinnest. After the jaws have set, will the rope pull grows and the press exerts even surface pressure.

The main characters of the press are: 1. Can be enlarged practically without limits Stroke - without changing the design or drive 2. Practically unlimited surface pressure with the same drive unit 3. Variable surface pressure within a system 4. Completely self-adjusting jaws 5 Forced opening system 6. Elimination of the most expensive components - without any loss of quality 7. Extremely more uniform Surface printing 8. Low energy consumption In the following exemplary embodiments the invention is described in more detail.

The drawings show a semi-chemical representation.

Fig. 1 shows the basic principle of a pulley block. In later steps the fastening of the rope ends Fig. 1-Y on the upper jaw and Fig.

1-P attached to the winch. The winch is also at the top Cheek attached. This neutralizes the forces of action and reaction.

Fig. 2 shows the conversion of the fixed and the deflection roller in the press jaws.

Fig. 3 shows the multiplication of the closing forces in principle Fig. 4 Shows the practical implementation of this principle, with Fig. 4-1 a cable winch shows.

Fig. 5 shows the self-adjusting property of the press jaws.

Fig. 6 shows an additional clamping device, which will be described later will. Fig. 6-1 shows a piston in the rest and extended position.

The vector components shown below show the force distribution in the cable.

Fig. 7 shows mounted ball bearings or those running in the ball bearing Rods that reduce rope friction to almost zero. At the same time, the most favorable force distribution shown.

Fig. 8 shows a press in side view, with unevenly loaded Table and the accordingly adjusted train arrangement.

In describing the invention, the pulley system is not as a basic principle, but as the closest explanatory example. There would be more Examples from nature, where the basic principles of power transmission and the closed Are similar to the force-circle principle - such as in giant snakes, sports wrestlers, or even the hand, which the wrapped object by reducing the winding circumference press together.

Although distributable physical properties are made use of, Targeted modifications of the system are necessary in order to achieve the characteristics of a versatile Reach industry press.

According to the invention, the physical properties of a force conversion system repurposed as follows.

Fig. 1 shows that the tightened with P force rope the two opposite rollers with 2xP, i.e. with double the force, pulls towards each other. That's why are in Fig. 2, the roles converted to jaws.

The rope that works in this way has not lost its traction, at most reduced by the frictional resistance, and could do a number of such operations perform. A multiple system is shown in FIG. 3 and it is established that each Winding, operated with the same pull rope, an additional, double power unit results. In Fig. 7 the solution is shown how to eliminate the harmful frictional force is. These are rods that rotate in ball bearings.

4 already shows the practical evaluation of these findings. The weight of the upper jaw returns to its starting position, if the rope drum is switched to freewheel This is the opening system.

A winch as the only drive element in its pressing force Infinitely scalable press is all in cost, functional reliability and simplicity superior to other systems.

The extraordinary energy characteristics of this system go like this far that this high pressure press xit hand (winch) or a car battery (off-road vehicle winch) can be operated.

Further advantages are shown in Fig. 5. The self-standing jaws of this press bridge extreme inaccuracies significantly more than a hydraulic press.

According to the invention, by arranging the pull cords, various Achieve surface pressures (Fig. 8), as with the hydraulic press when switching off certain pressure cylinder. The roller bars (Fig. 7) allow this rearrangement without any problems.

The advantages of this system are particularly evident in the reduction in construction costs. This is achieved by eliminating the complete frame system. With conventional Pressing requires every pressure-exerting unit (cylinder, bellows, hose, etc.) a Attack and a support surface. According to the invention, the attack surface and the support surface reduced to two points and both on the same basis (preferably on the upper one Press jaw) attached and thus neutralized.

All other pressure-exerting units (windings) do not need any Support surface so that no press frame.

The extremely even pressure distribution is also part of the reduction in construction costs this system, which allows easy press jaw construction, as there are no punctiform pressure points (as with pistons) are available.

Similar to modern presses, a fast closing stroke and If there is a slow press stroke, there is the option of using a cable winch the quick closing and locking of the rope. With a lever or piston (Fig. 6-1) 9o, or across the winding rope, to exert force (Fig. 6) -P, whose component Px pulls the jaws together as multiple closing forces.

This locking system can also be used as the main closer. In this case the cable winch can be replaced by a lightweight winding device will. - blank page -

Claims (9)

Claims 1. Press, characterized in that the relative mutually movable press jaws with one or more inextensible ropes, bands or similar strand-like structures are wrapped and the shortening or lengthening This rope winding or windings at one or both ends' moves the jaws. 2. Press according to claim 1, characterized in that the forces which the jaws close, do not rely on an outer frame band or on the jaw-independent ones Supported surfaces, but supports itself on one of the jaws. 3. Press according to claim 1, characterized in that both the jaws closing forces (trimming and attack forces) positioned on one of the jaws are, form a closed circle of forces and neutralize each other. 4. Press nachfAnspruch 1, characterized in that the jaws closing rope or tape beginning and end ', including the pulling mechanism a base that is independent of the jaws but is mounted in common. 5. Press according to one of the preceding claims, characterized in that that the linear increase of the flat pressing forces by linear increase of the Baking extensive windings is done. 6. Press according to claim 1, characterized in that its driving force is a winch. 7. Press according to one of the preceding claims, characterized in that that by different winding density different surface pressures within of the same system are to be generated. 8. Press, characterized in that its stroke length is infinitely variable is by shortening or lengthening the windings encompassing the jaws. 9. Locking mechanism characterized in that the jaws comprehensive Windings are lifted in 900 or across the winding run.