NL8303051A - Motor driven mobile shredder - has radial arm on cantilever motor acting against spring stop to control rotation - Google Patents

Abstract

The motor-driven shredding machine has overload protection. The motor (9,10) is cantilevered from the driven mechanism (4,5), and prevented from turning by an arm (15,16) extending radially from its axis and working against a spring stop (17-19). The latter is secured to the support (1) for the mechanism, there being a switch (20) alongside the stop, which is actuated whenever load exceeds a predetermined level.

Description

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Motor driven device provided with means to prevent overloading, in particular for use in a mobile shredding installation.

The invention relates to a motor-driven device provided with means for preventing overload, in particular for use in a mobile shredding installation.

In motor-driven devices, the overload prevention means can for instance be slip clutches, which ensure that the torque transmitted to the device does not rise above a certain value.

10 A shredding installation is used in particular for shredding wood, such as branches and twigs, that remain when pruning trees and shrubs.

In that case, the branches and twigs need not be burned and the chips obtained can be scattered over the bottom to form a layer rich in humus over time.

When such a shredding installation is arranged stationary, all the material to be shredded must be transported there and the shredded material removed again. In this connection, a mobile installation is preferred.

In a stationary as well as in a mobile installation, use can be made of a number of, partly disc-shaped knives, which are arranged on two axes running parallel to each other, which axes are driven from opposite ends.

Particularly in a mobile installation, the power of the driving motors will be kept within certain limits, due to the weight of the motors. The rotational speed of the motors themselves will also be considerably higher than the rotational speed of the knives, which will be at most approximately 50 per minute.

A gearbox will therefore be fitted between each motor and the relevant shaft. Because the power a ·? -:> £ 1 v JV ^ 1 - ---- ^ * fc - 2 - of the engines cannot be increased indefinitely, the case may arise that the blades are blocked, for example by a particularly hard piece of wood or a piece of metal may also end up between the knives 5.

When the two drive motors, which will in particular consist of hydraulic motors, are now fixedly mounted on the chassis of a vehicle, very great forces will be exerted on the chassis of the vehicle when the knives are blocked. In order to prevent this and to also absorb the suddenly occurring forces when the knives are blocked, special couplings should be arranged between the driven shafts on which the knives are located and the shafts emerging from the gearboxes. Due to the low speed of the driven shafts and the relatively large moments exerted on the shafts as a result, such couplings should have relatively large dimensions and thus also a relatively large weight, as a result of which such a device would be uneconomical in operation.

The invention now obviates these drawbacks by providing that the motor is cantilevered to the device to be driven and that rotation of the motor is prevented by an arm projecting in the radial direction of the motor shaft, which cooperates with at least least one resiliently arranged stop, which is connected to the supporting construction of the driven device, wherein a switching device is located near the stop which is operated when the load exerted by the arm on the stop exceeds a certain value.

In the above-described device, during operation thereof, the radially projecting arm 35 will always be pressed with a certain force against the spring-mounted stop, since the motor together with the gearbox will try to rotate in a direction opposite to that in which the motor driven shaft must rotate. When the driven shaft 40 is now blocked, the ** ^ Λ ** 7 λ f1 £ \ J ** 'yr V' W i € * - 3 - «load exerted by the arm on the stop will increase and this increase of the load can be used to operate a switching device.

The spring-mounted stop also makes it possible that, after the driving shaft has been blocked, the motor can still execute a certain stroke and is therefore not immediately brought to a standstill. The switching device will only be operated after the stop has been displaced by a certain distance.

Although the shifting device may be designed to immediately stop the engine, provision will preferably be made for the shifting device to be designed to reverse the direction of rotation of the motor when actuated.

When the direction of rotation of the motor is reversed, the material that caused the blades to lock will be released, so that it can be removed if necessary.

It is also possible that after having rotated in the opposite direction of rotation for some time, the motor is switched back to the normal direction of rotation, since it may then be possible to shred the relevant piece of material, if it is formed by wood. without blocking the blades.

In order to prevent the arm from moving away from the resiliently arranged stop when the motor rotates in the direction of rotation, it will be provided that this arm is held in the vicinity of the resiliently arranged stop.

This can be achieved, for example, in that the arm, viewed in the possible direction of rotation of the arm, is located between the resiliently arranged stop and a stop fixedly connected to the supporting construction.

The invention is now further elucidated on the basis of an exemplary embodiment, shown in the drawing, in which: Fig. 1 schematically shows a side view of a part of a mobile shredding installation according to the present invention; and fig. 2 shows a view of a part of the device according to arrows II-II of fig. 1.

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The shredding installation is mounted on the chassis 1, which is part of a truck.

On the chassis is the tray 2, which is supported by means of the legs 3. In the tray 2, there are two shafts 4, which run parallel to each other in a horizontal plane and on which the knives 5 are arranged. One of the shafts 4 with a few knives 5 is schematically shown in cross section. Above the bin 2 there is still the funnel 6 into which the material to be shredded can be dumped. Of course, the bottom side of the tray 2 is at least partially open for discharging the shredded material therefrom.

The shafts 4 are supported in the end edges 7 of the box 2 and toothed wheels may be arranged in these end edges 7 for possibly further reducing the speed of the shafts 4 and also to leave the shafts 4 at a different speed to spin. In practice, these speeds can be, for example, about 40 and 50 per minute.

The shafts 8 protruding from the ends 7 are driven by means of the hydro-motor 9 and the gearbox 10 connected thereto, the output shaft 11 of which is connected to the shaft 8 by means of a fixed coupling 12.

The entire assembly of hydromotor 9, gearbox 10, shaft 11 and coupling 12, is cantilevered from the shaft 8, but on the chassis 1 a leg 13 can also be placed, which carries a curved shell 14, which is at a small distance from the gearbox 10 to support the entire assembly, eg when mounting or dismounting it.

As shown in particular in Fig. 2, the gearbox 10 is connected to a radially projecting arm 15, the lower end 16 of which abuts against the stop 17, which is supported by the spring 18 by the block 19, which is connected to the chassis 1. On the chassis 1 is also mounted the hydraulic switch 20, which can be operated by the rod 21, which abuts against the stop 17.

40 During normal operation of the shredder. · * · "" · ♦ «? The hydraulic motor 9 with the gearbox 10 will rotate the rotary valve 10 in the direction of the arrow P as shown in Fig. 2. The spring 18 will be rotated to a certain extent. without the switch 5 being actuated. When the shafts 4 are now blocked, the arm 15 will experience a greater moment, whereby the spring 18 is pressed further by the stop 17 and the switch 20 is actuated via the rod 21. Using the switch 20, the direction of rotation of the hydraulic motor 9 is reversed in order to free the blades 5 from the blocking material, whereby the arm 15 will rotate in the other direction, while it is stopped by the stop 22, mounted on the frame 1. After a short rotation in this direction, the hydraulic motor can be switched again, so that the blades are rotated in the normal direction again.

It should also be noted that in Fig. 1, for the sake of clarity, the stop. 22 has been omitted. The arm 15, shown on the right in fig. 1, can be received between two fixed stops 22, since with the aid of the switch 20 both hydraulic motors 9 are switched simultaneously.

It will be clear that only one possible embodiment of the invention has been described and shown in the drawing and that many changes can be made without departing from the inventive idea. The protection and switching device can of course also be used for other purposes than with a shredding installation.

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Claims (3)

Motor driven device provided with means for preventing overload, in particular for use in a mobile shredding installation, characterized in that the motor 5 (9, 10). cantilevered is connected to the device to be driven (4,5) and rotation of the motor (9,10) is prevented by an arm (15,16) projecting in the radial direction of the motor shaft, which cooperates with at least one resiliently arranged stop (17,18,19), which is connected to the supporting construction (1) of the driven device (4,5), wherein a switching device (20) is located near the stop (17,18,19) operated when the load applied by the arm (15,16) to the stop (17,18,19) exceeds a certain value. Device according to claim 1, characterized in that the switching device (20) is designed in such a way that, when actuated, the direction of rotation of the motor (9, 10) is reversed, the motor (9, 10) the protruding arm (15,16) is held in the vicinity of the resiliently arranged stop (17,18,19). 3. Device as described and / or shown in the drawing. n ~ - Λ SI 4: * 1 j J i