FR2625117A1 - Vibrating table, in particular for the manufacture of concrete products - Google Patents

Abstract

a) The invention relates to a vibrating table, in particular for the manufacture of concrete products. b) This table is characterised in that it includes: A - four rotors R1-R4; B - a first transmission 8, 9 connecting the output 7 of the motor 5 to the first rotor R1 in order to rotate this rotor in a first rotation direction; C - a second transmission 11, 12 connecting the output 7 of the motor 5 to the second rotor R2 in order to rotate the latter in a second rotation direction, opposite to that of the first and in phase with the latter; D - a third transmission, the input 19 of which is connected to the output 7 of the motor 5 and the output 21 is connected to the third and to the fourth rotor R3, R4 in order to drive these in opposite directions and in phase, this third transmission being composed of a mechanical means 20 controlled by a control means 32, 33 in order to phase-shift the output rotation angle 21 of the mechanical means with respect to the input rotation angle 19 and to regulate the vibrating force.

Description

Vibrating table especially for the manufacture of pro
concrete duits
The present invention relates to a vibrating table in particular for the manufacture of concrete products.

 Such a vibrating table is known. In these vibrating tables, the vibrating force is generated by the unbalances of the rotors. In some tables, the vibrating force is fixed and in others, it is variable, the unbalances being mounted on concentric shafts.

 These various known devices are generally of a complicated design and, consequently, fragile and of a relatively complicated control.

 The present invention proposes to create a vibrating table allowing simple and with reduced and reliable means, to adjust the vibrating force both in intensity and in frequency.

 To this end, the invention relates to a vibrating table of the above type characterized in that it comprises: four rotors, a first transmission connecting the output of the motor to the first rotor to rotate this rotor in a first direction of rotation, a second transmission connecting the motor output to the second rotor to rotate the latter in a second direction of rotation, opposite to the first and in phase with it, a third transmission whose input is connected to the motor output and the output is connected to the third and fourth rotor to drive these in opposite directions and in phase, this third transmission consisting of a mechanical phase shift means controlled by a control means to phase the angle of rotation of the output of the mechanical means with respect to the input rotation angle and adjust the vibrating force.

 According to an advantageous embodiment, the mechanical means is a differential.

 By simply acting on the control member of the mechanical means such as a differential, that is to say by rotating the sun wheel or the satellite wheels, a phase shift is created between the angle of rotation of the shaft. input and angle of rotation of the output shaft so that the output shaft of the mechanical means is out of phase with respect to the output shaft of the motor and thus with respect to the other rotors.

 This phase changes the vertical component of the vibrating force. The frequency can be changed by the motor control.

 According to another characteristic of the invention, the engine output is connected to the three transmissions driving the rotors by a first gear train.

 This solution is particularly simple to carry out, in particular for obtaining opposite rotational speeds and arriving at a space requirement that is as small as possible; as the first and second rotors are located outward on either side of the third and fourth rotors; this allows, by means of four toothed pinions, the first at the output of the motor, the second and the third as intermediate pinions or as pinions secured to the input of the mechanical phase shifting means and the fourth as pinion secured to the shaft drive the second rotor, to drive all of the rotors with opposite rotational speeds two by two.

 According to another characteristic of the invention, the output of the mechanical phase shift means is connected by a second gear train to the third and fourth rotor.

 This gear train preferably consists of a first pinion integral with the output shaft of the mechanical phase shift means, this output shaft directly attacking the third rotor and another pinion meshing with this pinion is integral with the rotation shaft of the fourth rotor.

 The present invention will be described in more detail using an embodiment shown in the single appended figure which is a block diagram of the vibrating table, according to the invention.

 According to the single figure, the vibrating table, in particular intended for the manufacture of vibrated concrete products, consists of a plate 1 which receives the products to be vibrated, that is to say molds filled with concrete (not shown ).

 the tray 1 of the table is mounted on a frame 2 by means of elastic studs 3 so as to isolate the tray 1 from the frame 2 and reduce as much as possible the transmission of the vibrations of the tray 1 in the frame 2.

 The vibrating table also comprises a vibration generator composed of a motor 5 provided with a control circuit 6 which regulates its speed of rotation as a function of the frequency desired for the vibrating force applied to the ceiling 1.

 The motor 5 carried by the frame 2 is connected by its output shaft 7 to a first transmission 8 provided with a flexible connection 9. This transmission 8 is connected to the shaft of a first rotor R1 mounted in a bearing 11 integral of the vibrating table 1.

The output shaft 7 of the motor 5 is also connected by a transmission formed by a shaft 11 and an elastic connection 12 to the second rotor R2, itself carried by a bearing 13 secured to the plate 1 of the vibrating table. The connection between the motor 5 and the shaft 11 is ensured by a first gear train 14 formed by a pinion 15 integral with the shaft 7, an intermediate pinion 16, a pinion 17 whose role will appear below and finally a pinion 18, integral with the shaft 11. Because of the even number of pinions and like the pinions 16 and 17 have the same number of teeth as the pinions 15 and 18, the shaft 11 rotates in opposite direction to the shaft 8. The rotors R1 and
R2 are set on their respective trees to be in phase.

 By means of the pinions 15, 16 and 17, the motor 5 drives the input shaft 19 of a mechanical phase shift means 20 constituted in this example by a differential 20. The output shaft 21 of this differential 20 is connected to the shaft 22 of the transmission driving the third rotor R3, also rotatably mounted in a bearing 23, integral with the plate 1. This transmission 22 is also provided with a flexible connection 24, to isolate the table 1 from other parts of the installation.

 The output 21 of the differential drives the fourth rotor R4 via a second gear train 25 comprising a first pinion 26 integral with the shaft 21 and a second pinion 27 integral with the shaft 28 connected by an elastic connection 29 to the fourth rotor R4.

 This fourth rotor R4 is also mounted in a bearing 30 integral with the plate 1.

 According to the invention, the rotational speeds N1 and N2 of the rotors R1, R2 are opposite and in phase.

The same applies to the rotational speeds N3 and N4 of the rotors R3 and R4.

 The differential 20 consists of the assembly 31 formed by the sun wheel and the planetary gears as well as a control gear 32, integral with one of the elements of the differential (sun wheel or planetary gears) and a screw 33 meshing with the pinion 31. By controlling the rotation of the screw 33, the phase between the input shaft 19 and the output shaft 21 of the differential is thus modified to arrive at the desired phase shift of the rotors R3, R4 relative to rotors R1, R2. In this way, the amplitude of the component of the vibrating force is adjusted along an axis perpendicular to the plate 1, the components of the forces in the plane of the plate 1 being canceled due to the equality of the unbalances of the rotors R1 and R2 or R3 and R4 and their opposite rotational speed two by two.

 According to the invention, in normal operation, the rotational speeds N1, N2, N3, N4 are equal in absolute value.

To adjust the vibrating force, a phase difference is created between the rotational speeds N1, N2 and N3,
N4 by means of the differential 20, for example by rotating the planetary gears of the assembly 31 by the wheel 32 and the worm 33.

Claims (1)

R EV ENDICATIONS 1 ") Vibrating table, in particular for manufacturing concrete products, table composed of a plate (1) receiving the products to be vibrated, this plate being mounted on a frame (2) by means of elastic pads (3) to isolate the plate (1) from the frame (2), from a vibration generator comprising a motor (5) driving, by means of an elastic transmission, unbalanced rotors mounted in bearings (10, 13, 23, 30) integral with the plate (1) and rotating around parallel axes to induce a vibrating stuffing in the plate and the products to be vibrated, vibrating table characterized in that it comprises A - four rotors (R1-R4 ), B - a first transmission (8,  9) connecting the outlet  (7) from the motor (5) to the first rotor (R1) to make  turn this rotor in a first direction of rotation, C - a second transmission (11, 12) connecting the output  tie (7) from the motor (5) to the second rotor (R2) to  rotate it in a second sense of  rotation, opposite to the first and in phase with this  him, D - a third transmission whose input (19) is  connected to the motor outlet (7) (5) and the outlet  (21) is connected to the third and fourth rotor  (R3, R4) to drive them in opposite directions and  in phase, this third transmission is composed  health of a mechanical means (20) controlled by a  control means (32, 33) for shifting the angle  of output rotation (21) of the mechanical means by  relative to the input rotation angle (19) and re  slip the vibrating force.  2) Vibrating table according to claim 1, characterized in that the output (7) of the motor (5) is connected to the three transmissions driving the rotors (R1, R2, R3, R4) by a first gear train (15, 16, 17, 18).  3) Vibrating table according to claim 1, characterized in that the outlet (21) of the mechanical phase shift means is connected by a second gear train (25, 26, 27) to the third and fourth rotor (R3, R4).  4) Vibrating table according to claim 1, characterized in that the mechanical means (20) is a differential.  5) vibrating table according to claims 1 and 4, characterized in that the mechanical phase shift means is a differential (20) and the control member (32, 33) blocks or releases the rotation of one of the elements forming the differential (20) (re solar wheel or planetary wheels) to ensure the phase shift.  6) vibrating table according to claim 1, characterized in that it comprises a control means (6) for adjusting the speed of rotation of the motor (5).