FR2967665A1 - Multilayer winch device, has winding drum rotated by output shaft of gear motor for winding traction cable, and controller for controlling rotating speed of output shaft such that linear speed of cable at outlet of device remains constant - Google Patents

Abstract

The device (D) has a gear motor (2) fixed to a casing (1) and comprising an output shaft whose rotating speed is variable. A winding drum (3) is mounted rotatably on the casing and rotated by the output shaft for winding a traction cable (4), where a portion of the cable wound on the drum forms two layers. A controller controls the rotating speed of the output shaft such that linear speed of the cable at an outlet of the device remains constant.

Description

1

MULTILAYER WINCH DEVICE

The present invention relates to a multilayer winch device comprising: a housing, a motor means integral with the housing and having an output shaft, a winding drum of a traction cable rotatably mounted relative to the housing and driven in rotation by the output shaft of the motor means, the portion of the cable wound on the drum can form at least two layers. The multilayer winch is the "standard" winch found in most applications. It is composed of a geared motor assembly that comes to drive a drum on which the cable is wound. Since the drum rotates at a constant speed, when the cable changes winding layer, the linear velocity of the cable changes. This is not a problem in most applications, but can be problematic in some cases. There are also winches called "constant traction" that allow to wind the cable always at the same speed over the entire length of the cable.

These systems have the disadvantage of being heavy, bulky and expensive. The invention aims, above all, to provide a compact and lightweight winch device to ensure a constant linear cable speed, the cost of production is reduced compared to existing devices. According to the invention a multilayer winch device comprising: a housing, a motor means integral with the housing and having an output shaft, a winding drum of a traction cable rotatably mounted relative to the housing and driven in rotation by the output shaft of the motor means, the portion of the cable wound on the drum being able to form at least two layers, is characterized in that the speed of rotation of the output shaft of the motor means is variable and that the device winch also comprises servo-control means able to act on the speed of rotation of the output shaft of the motor means so that the linear speed of the cable at the output of the winch device remains constant. The winch device may comprise means for measuring the linear speed of the cable.

The means for measuring the linear speed of the cable may comprise a cable press equipped with a speed sensor. The rotational speed of the output shaft of the motor means can be determined according to the measurement of the linear speed of the cable.

The winch device may comprise means for measuring the winding diameter of the cable. The means for measuring the winding diameter of the cable may comprise a cable press attached to the end of an articulated arm. The winding diameter of the cable can be determined by measuring the exit speed of the cable and measuring the speed of rotation of the drum. The winch device may allow a first mode of use with constant traction and a second traditional multilayer use mode, non-constant traction.

Other features and advantages of the invention will appear in the following description of a preferred embodiment with reference to the accompanying drawings but which has no limiting character. In these drawings: 1 is a perspective view of a winch device according to the invention. Fig. 2 is a view of a cable press paired according to the invention, FIG. 3 is a diagram of the operation of the servocontrol according to the invention, and FIG. 4 is a view of a remote control of the winch device of FIG. 1. Throughout the following description of an embodiment of a winch device according to the invention, the relative terms such as "upper", "lower", "front", "rear", "horizontal" and "Vertical" are to be interpreted when the device according to the invention is installed in an operating situation, for example on a machine whose wheels rest on a horizontal ground. Referring to FIG. 1, it can be seen that the device D according to the invention comprises a housing 1 having two flanges 1a and 1b disposed facing each other connected by a side wall 1c. A motor / gear unit forming a geared motor 2 is fixed to the casing 1.

A drum 3 is rotatably mounted on the housing 1 along an axis substantially orthogonal to the flanges 1a and 1b. Around the drum 3, is wound a traction cable 4. Two guiding devices are provided to guide the output of the cable 4 of the drum 3. In the upper part of the casing 1, two arms 1d and extending radially from the flanges la and lb. The arms 1d and 1e guide in rotation a shaft 6 on which is mounted a pulley 5. A rod 7, acting as a guide, is placed between the arm 1d and the above the pulley 5 and parallel to the axis of the shaft 6, so as to prevent the cable 4 from leaving the groove of the pulley 5. In the lower part of the housing 1, a cable press 8 is pivotally mounted on the housing 1. The cable press 8 is more particularly visible Fig. 2. The cable press 8 comprises two blanks 8a and 8b extending perpendicularly to a bottom 8c. The blanks 8a and 8b support a roller 9 pivotally mounted about an axis substantially parallel to the axis of rotation of the drum 3. A not shown spring allows the roller 9 to be held in contact with the cable so that the passage of the 4 causes the rotation of the roller 9. The plane defined by the axis of rotation of the cable press 8 relative to the housing 1, and the contact point of the roller 9 with the cable 4 is called arm. The rotation of the roll 9 is communicated to a sensor 11 via a chain 10. The sensor 11 calculates the linear speed of the cable 4 from the rotational speed of the roll 9 whose diameter is known. It is also possible to set up a pressure sensor in the case of a hydraulic or pneumatic motor or an intensity measuring probe in the case of an electric motor, in order to have information on the drum torque. The drum is also paired so as to know its speed of rotation. The information collected is processed by a computer 12 (FIG 3) and can be displayed on the screen 13a of the remote control 13 (FIG 4) of the winch device. In operation, the cable press 8 paired with the sensor 11 makes it possible to obtain the unwinding speed of the cable 4. The speed of the motor is slaved to this information so as to obtain a constant cable unwinding speed.

With the linear speed of the cable 4 and the rotation speed of the drum 3, the computer 12 determines the winding diameter of the cable 4. With the pressure sensor or the intensity measurement, the computer 12 determines the torque at the level of the cable. motor and therefore at the drum 3.

With the torque and the winding diameter, the computer 12 determines the tension in the cable 4. Alternatively, it is also possible to measure the position of the arm on the cable press. This allows a direct measurement of the winding diameter.

At a constant motor rotation speed, with the rotation speed of the drum 3 and the winding diameter, the computer 12 determines the linear speed of the cable 4. With the motor torque and the winding diameter, the computer 12 determines the tension in the cable.

Compared to current solutions the device according to the invention allows a weight saving. It is lighter and more compact and also more economical to produce. It also allows the transition from constant traction winch mode to disengage, multilayer and non-constant pull mode. This makes it possible to combine the advantages of the two solutions. This device also allows to know at any time the effort that provides the winch.

Claims (7)

REVENDICATIONS1. Multilayer winch device (D) comprising: a housing (1), a motor means (2) integral with the housing (1) and comprising an output shaft, a drum (3) for winding a traction cable (4) ) rotatably mounted relative to the housing (1) and rotated by the output shaft of the motor means (2), the portion of the cable (4) wound on the drum (3) being able to form at least two layers, characterized in that the speed of rotation of the output shaft of the motor means (2) is variable and in that the winch device (D) also comprises servo-control means (12) able to act on the speed of rotation. the output shaft of the motor means (2) so that the linear speed of the cable (4) at the output of the winch device remains constant. 2. Device (D) winch according to claim 1, characterized in that it comprises means for measuring the linear speed of the cable (4). 3. Device (D) winch according to claim 2, characterized in that the means for measuring the linear speed of the cable (4) comprise a cable press (8) equipped with a speed sensor (11). 25 4. Device (D) winch according to claim 1, characterized in that it comprises means for measuring the winding diameter of the cable (4). 5. Device (D) winch according to claim 4, characterized in that the means for measuring the winding diameter of the cable (4) comprise a cable press (8) attached to the end of an articulated arm. 6. Device (D) winch according to any one of the preceding claims, characterized in that the winding diameter of the cable 35 is determined by measuring the cable exit speed and measuring the speed of rotation of the cable. tambour.20 7. Device (D) winch according to any one of the preceding claims, characterized in that it allows a first mode of use with constant traction and a second traditional multilayer use mode, non-constant traction.