NL8101104A - CONTROL FOR A PLATE VIBRATOR. - Google Patents

Description

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Control for a plate vibrator.

The invention relates to an actuation for a plate vibrator by means of which the direction of the vibration force produced by the vibrating element of the plate vibrator can be infinitely varied and set in a desired position.

Plate vibrators, which serve to compact the soil, asphalt or the like, and which are equipped with vibrating elements, consisting of two or more eccentric weights rotating in opposite directions, are a known method of changing the direction of the vibration force changes the phase position of the rotating, eccentric weights mutually, allowing the plate vibrator to move in the forward or backward direction.

Plate vibrators of the intended type are used for compacting sand, gravel and the like materials and are often used as auxiliary units in larger compaction machines in road construction, etc. Because these devices are movable forwards and backwards, such plate vibrators generally become used for compaction work in trenches for pipes and similar confined spaces where the area in which the slab can maneuver is limited to only one direction. It is important that reversing the direction of movement of the vibrator can be accomplished in a simple and practical manner as far as operator 25 is concerned and in part such that the desired speed control for moving forward or backward without discomfort to the operator. operator can be maintained.

The object of the invention is to provide an actuation for changing the direction of the vibrating force, wherein upon resetting of the vibrating element the actuation is obtained by a wire which is located between the actuation and the adjusting mechanism of the element.

The operation according to the invention is in particular suitable for vibrating elements of the type described in Swedish patent application 76935-25s, eg. This type of vibrating element consists of at least two counter-rotatable eccentric weights 8101104. 2- which are interconnected by gears, the phase position of the eccentric weights being mutually adjustable while the device is in operation, one of the eccentric weights being able to rotate relative to the axis of rotation of the vibrating element, while the drive of the adjustable eccentric is obtained from the axis of rotation via a gear transmission, which includes an adjustment mechanism with a pulley, which can be rotated by a wire wound around the pulley to move the adjustment mechanism and rotate it.

The vibrating element is designed in such a way that it automatically adjusts during operation, so that the vibration force produced by that element gives the plate vibrator a maximum speed in the forward direction.

The control consists of a hub, around which the adjustment wire is wound and fixed. An operating lever is attached to the hub, by means of which the hub can be rotated. The wire can be wound from or on the hub by moving the lever in one direction or the other.

A pull on the wire results in a twisting of the adjusting mechanism and consequently in a change of the plate insertion speed. When the lever is released, the adjustment mechanism automatically returns to a position obtaining the maximum displacement movement in the forward direction.

The tensile force exerted by the element on the wire as long as it is in operation is relatively great. This can be supplied without much effort by an operating lever. In order to cause the plate to move forward or backward at a speed lower than the maximum speed, the operator must continuously maintain the lever 30 in the desired speed position, which is tiring in the long run. In order to counteract the pulling force of the element on the wire, a coil spring is mounted on the hub of the operating lever so that it applies a torque to the hub, which moves opposite to the pulling force that the vibrating element exerts on the wire. The coil spring is tensioned in such a way that the force supplied by the spring compensates for the force exerted by the element.

8101104 -3-

As a result of those continuous vibrations to which the operating device and the spring are subjected and due to the differences between the spring properties, the operating lever can move out of a certain set speed step under certain circumstances.

To overcome this drawback, a friction brake is provided on the hub for this purpose, which holds it in place, so that the operating lever cannot change position.

The combination of the tension spring and brake with adjustable operation is possible with any control in the operating mode.

When the force of the coil spring applied to the hub is not fully equalized by the force applied by the vibrating element, the operator must continuously maintain the operating lever 15 in the desired speed position so that it does not move to a speed in which maximum forward movement is acquired. However, the force to be applied to the lever is not so great that it represents operator discomfort. However, the advantage is that when the operator causes a device to move backward and, for example, stumbles and the lever is released, the plate automatically moves in the forward direction. This is of particular importance when compacting in trenches for pipes and other confined spaces.

In other compaction operations, it may be advantageous if the operator can release the lever without the speed of the site reaching its maximum forward direction. Under these conditions, the brake interacts with the control hub which holds the lever in the desired position.

The braking action is then selected such that the lever 30 can be moved to the desired speed without the operator having to exert a great force, the braking force being sufficient to maintain the lever in the set position.

The invention is further elucidated with reference to the drawing. In the drawing: figure 1 shows a side view of the device according to the invention, figure 2 shows a section along the line II-II of figure 1; 81011 04 *

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figure 3 shows a section along the line III-III of figure 2. and figure U shows a vibrating element to which the control means according to the invention can be applied.

The operating device consists of a hub 1, which can rotate about an axis 2, which is mounted on the operating lever of the plate vibrator.

The hub can rotate about the axis by moving the handle 3 attached to the hub. A wire is wound around the hub, one end of which is connected and wound around a "pulley" 5 * figure b, which is incorporated in the adjustment mechanism of the eccentric element. The other end of the thread is secured to the hub 1 by a fixing screw 6.

During operation, the eccentric element exerts a constant tensile force on the wire b, so that a torque acts on the hub 1. In order to counteract this, the oaf cooperates with a coil spring Ts, one end of which is attached to. a 'disc 9' which forms part of the hub 1. The other end 10 of the spring 7 is attached to the axis of rotation 2 of the hub 3.

The spring 7 is tensioned such that the torque exerted on the hub 1 'thereby partly compensates for the force caused by the eccentric element.

As a result of the vibrations of the plate vibrator and also taking into account the differences in the characteristics of the springs, a hub 1 is provided with a friction brake. This consists of cup springs 11, which are mounted in pairs on the shaft 2 at each end of the hub 1. The cup springs are tensioned by a nut 12, which is screwed to the shaft 2, which nut is held in place by a locking nut 13. By tightening the nut 12, the cup springs 11 are tensioned between the nut and the end of the hub and between each end of the hub and a collar 11 on the shaft 2.

In this way, the desired action of the friction brake is obtained.

The shaft 2 is connected to a console 15 on the operating lever of the plate vibrator through a screw connection 16.

When the screw ΐβ is loosened, the shaft 2 can be turned relative to the hub 1, setting the desired tension of the spring 7 tan. The control is located in a housing 17 »which is attached to the control lever of the plate vibrator. Inside, there is a stop 18 for two protrusions 19 and 20 of the disc 9. When the position for the rearward movement, the protrusion 19 rests against a stop 18 and in the forward direction the protrusion 20 rests against it.

The outer end of the wire 4 is attached and wrapped around the pulley 5 of the eccentric element. By moving the operating lever 3 from the position in which the projection 19 rests against the stop 18 until the projection 20 abuts against it, the adjustment of the eccentric element according to figure 1 will change in that the vibration force applied to the plate vibration tor gave a movement in the reverse sense, it is changed to a movement in the forward direction.

The eccentric element shown in figure consists of a housing 101 in which a shaft 102 can rotate, which is alloyed and which shaft has an eccentric weight 102 attached. The shaft is alloyed in bearings 104 and 105 and can be rotated by the pulley 1θ6, which is designed as an eccentric weight and is fixed on one end 20 of the shaft. An eccentric weight 107 is mounted on the shaft 102, rotated in a bearing 108, through a gear transmission, which interacts with the shaft 102, the weight rotating in the opposite direction, but at the same rotational speed as the eccentric weights 103 and 106.

The gear transmission consists of a gear 109, which is rigidly mounted on the shaft 102, which gear meshes with a gear 110, via a gear not shown. Another gear 111 is rigidly mounted on the same shaft as the gear 110, and this gear engages the gear 112, which is rigidly attached to the eccentric weight 107

By pulling on the wire h, the pulley 5 will rotate and thus the tooth segment 113, which is mounted on the shaft of that pulley, which tooth segment can cooperate with the gear transmission for the eccentric geared gear via a tooth flange 11U and an adjustment arm 115. weight 107, which is rotatably mounted on the shaft 102. As a result of the twisting of the adjusting arm, the phase shift takes place between the two counter-rotating eccentric weights and consequently a change in the direction of the vibration force. 8101 104

Claims (3)

1. Operating device for changing the direction of the vibrating force of a plate vibrator for compacting gravel, • sand and the like, which vibrator is equipped with a vibrating element of the type consisting of two or more rotatable in the opposite direction eccentric weights and an adjustment mechanism via gears can act thereon, which adjustment mechanism can cause the direction of the vibration force to change through a wire connected to this mechanism, characterized in that one end of the wire (Λ ) is attached to and partially wrapped around a pulley (5) attached to the adjusting mechanism of the vibrating element, while the other end of the wire is attached to and partially wrapped around a hub (1) the operating device, which hub is rotatable about an axis (2), which is rigidly connected to the operating lever of the plate vibrator. Operating device according to claim 1, characterized in that the spiral spring (7) is fixed with one end on the hub (1), while the other end is fixed on the shaft (2), which spring is such tense, that a couple on the hub Cl). Is exercised. Operating device according to claim 3, characterized by a friction brake, consisting of disc springs (11), which are mounted on the shaft (2) and against the hub (1). tightened by a nut (12), which can be turned on the shaft (2). Operating device according to claims 1-3, characterized by a lever (3) mounted on the hub (.1). 30 8101 104