QUICK SAFETY CONNECTION FOR COUPLING A TOOL TO AN OPERATING MACHINE

Abstract

The quick connection allows fastening a tool to the lifter arm of an operating machine and includes first and second joining means associated respectively to said lifter arm and said tool aimed at being reciprocally engaged. The first joining means includes a swivel head that swivels between a raised position and a lowered one and a first gudgeon; the second joining means include a shaped body that defines a calibrated inlet opening and support means. The swivel head, in raised position, enters the shaped body through the opening, then it rotates to its lowered position, thus bringing the first gudgeon in engagement with said support means. The shaped body includes a stop aimed at striking a winglet of the swivel head and at preventing the latter from going out in any succession of movements which are not inversely equal to those carried out for the introduction.

Description

The characteristic features of the invention will become clear from the following description of a preferred embodiment of the connection under discussion, in accordance with the contents of the claims and with the help of the enclosed drawings, in which:

FIG. 1 is a schematic lateral view of an operating machine;

FIG. 2A is an enlarged view of the end of the lifter arm of the machine of FIG. 1, in proximity of a first tool to be joined;

FIG. 2B is a similar view of that of FIG. 2A, of a second tool to be joined;

FIG. 3 is a front view of joining means of the tool and lifter arm, put side by side, that form the connection under discussion;

FIG. 4 shows a portion of the joining means of the lifter arm in a variant embodiment;

FIGS. 5, 6 are axonometric exploded views of the quick connection under different angles;

FIGS. 7 through 11 are lateral views of various steps, during which the joining means of the arm engages with the joining means of the tool;

FIG. 12 is a view similar to that of FIG. 3 of the joining means of the arm and tool, mutually engaged, with parts in cross-section;

FIG. 13 is a lateral view of the connection in normal working condition;

FIG. 14 is again a lateral view of the connection in abnormal working condition.

With, reference to the above mentioned figures, an operating machine, as a whole, has been indicated with M.

The operating machine M, of substantially known type, is provided with a telescopic lifter arm S, hinge articulated to the rear part of the machine M, moveable along a vertical plane, and having, fastened to a free end, a tool or device suitable for the operation to be carried out.Said tool, in a first example indicated with reference X1, consists of a frame that carries in its lower part a lifting hook (FIGS. 2A, 7, 89, 10, 11, 13, 14).In a second example, said tool, indicated with the reference X2, consists of a fork support element.The quick safety connection 1 proposed by the invention, that allows joining the tool X1, or the tool X2 or other, not shown tools, to the lifter arm S, comprises first and second joining means 10, 20, associated respectively to said lifter arm S and to each of said tools X1, X2.The above mentioned first joining means 10 comprises a supporting structure 11, extending downwards in a substantially vertical direction, fastened to the free end of the lifter arm S.A swivel head 13 is articulated to the lower end of said support frame 11, at a pivot 12 with horizontal axis, and moved by an actuator 14, for example hydraulic, to swivel in a vertical plane between a raised position A and a lowered one B.At least one main support element 15 is also fastened to the lower end of said support frame 11 and consists, for example, of a first gudgeon with horizontal axis, that protrudes from both sides of the frame 11 and is coaxial with the articulation pivot 12 of said swivel head 13.At least one auxiliary constraining element 16, associated to the swivel head, consists, for example, of a second gudgeon with horizontal axis parallel to that of said first gudgeon 15.At least one movable element 17, whose functions will be explained later, is associated to said second gudgeon 16.In a preferred constructive solution (FIGS. 3, 12), said movable element 17 consists of a pair of opposed pins 171, 172, housed at the ends of the above mentioned second gudgeon 16 and operated so as to come out axially from this latter, by an actuator 173, for example hydraulic, contained inside the second gudgeon 16.In a variant embodiment (FIG. 4), said movable element 17 consists of a rod 174, aimed at being partially introduced into an axial seat 175, made in said second gudgeon 16, so as to come out from both heads of the latter.Finally, the above mentioned first joining means 10 includes at least one winglet 18, made integral with said swivel head 13 and extending from the lower part of this latter.The above mentioned second joining means 20 includes a shaped body 21, which is made integral with the rear part of the tool X1, X2 and which defines:

support means 22, having the form of an overturned “U”, aimed at being engaged by the protruding portions of said first gudgeon 15;

at least one fastening eyelet 23, aimed at being engaged by said movable element 17 associated to said second gudgeon 16;

at least a stop 24, aimed at intercepting the above mentioned winglet 18 of the swivel head 13 and at preventing the latter from going out casually;

a calibrated inlet opening 25, delimited from the top by said support means 22 and from the bottom by said stop 24, aimed at allowing the introduction of the swivel head 13 and of the first gudgeon 15 into the shaped body 21 in a way described below;

a vertical edge 26, aimed at contacting frontally said swivel head 13, when it is inside said shaped body 21.

The steps necessary to join a tool X1 , X2, placed on the ground or resting on a suitable base, in horizontal arrangement, will be described now (FIGS. 2A, 2B). The first step includes maneuvering the machine M and the lifter arm S so that the swivel head 13 becomes arranged behind the shaped body 21 and centered transversally with respect thereto (see again FIGS. 2A, 2B).The swivel head 13 is made rotate, by means of the actuator 14, so as to move it to its raised position A, and the support frame 11 is made translate downwards in an inclined direction (arrows F1 in FIG. 7), by suitable operation of the lifter arm S, which allows the swivel head 13 and the first gudgeon 15 to pass in the calibrated inlet opening 25 so as to fit in the shaped body 21 (FIG. 7).When the first gudgeon 15 strikes the bottom of said shaped body 21, the swivel head 13 begins to oscillate downwards (arrow F2 in FIG. 8), due to the actuator 14 action; the start of this operation is allowed by the fact that the winglet 18 is inside the stop 24 and does not interfere with it (FIG. 8).The support frame 11 is made translate from the bottom upwards, in step relation with further downward oscillation of the swivel head 13, which determines the progressive lifting of the first gudgeon 15 toward the support means 22 (FIGS. 9, 10).When the swivel head 13 reaches its lowered position B, its front side is struck by the edge 26, while the protruding portions of said first gudgeon 15 go in abutment against the lower part of the support means 22 (FIG. 11); in this condition, the lifter arm S is already capable of lifting the tool X1.In the enclosed figures, the shaped body 21 advantageously includes a step 27, aimed at going in abutment against the lower part of the winglet 18, when the swivel head 13 is in the just described position (see the enlarged detail of FIG. 11);The joining procedure is completed by engaging the movable element 17 of the second gudgeon 16 with the fastening eyelets 23, which are coaxial.With the constructive solution that includes the opposed pins 171, 172, the engagement is obtained by operating suitably the actuator 173 (FIG. 12); while the introduction of the rod 174, as it has already been said, is performed manually.At this point, said second joining means 20 is integral with the swivel head 13, therefore the tool X1 can oscillate on a vertical plane (arrows F3 in FIG. 13) with respect to the same articulation pivot 12 of the latter, due to the action of said actuator 14 (FIG. 13).The oscillation of the tool X1 is obviously controlled according to the working requirements and the inclination of the lifter arm S.In case, in which the joining procedure is not completed with the engagement of the movable element 17 with the fastening eyelets 23, the cantilevered weight of the tool X1 (and of the possible load fastened thereto) keeps the edge 26 in abutment against the swivel head 13, thus, in absence of external factors, the swiveling of the tool X1, by means of the actuator 14, is possible all the same.The quick connection 1 described hereto does not risk to uncouple casually even if, without the movable element 17 being introduced, anomalous external stresses act on the tool, for example for the impact against an obstacle; in the most disadvantageous situation, illustrated in FIG. 14, the lifter arm S is close to the vertical, while the tool X1 is stressed by a tilting torque (arrow F4) that results in a relative rotation between the shaped body 21 and the swivel head that tends to go out from the latter; such an event is prevented by the interception of the stop 24 by means of the winglet 18 (see again FIG. 14).In practice, the going out of the swivel head 13 is prevented in any succession of movements which are not inversely equal to those carried out for said introduction.The quick safety connection 1 can advantageously include a device aimed at automatically identifying the kind of tool that is joined to the machine M, for example to adjust, again in automatic way, the operating parameters of the latter.Said identifying device, for example, can be of the type consisting of a detection module 50, associated to the support frame 11, aimed at RF interacting with an identifying module 51 associated to the shaped body 21 (FIG. 5).The identifying module 51 is preferably a so-called passive transponder that does not contain a power source and is activated by the electromagnetic field emitted by the antenna of the detection module 50, when the distance between the two is sufficiently short.The above description make appear clearly the positive characteristics of the quick connection under discussion that fully obtains all the indicated objects, in particular offering, in any situation, the maximum safety against casual uncoupling.The tool engaging and disengaging operations are simple and rapid, and the operator, who controls them, does not have to intervene manually during the introduction or removal of the swivel head into or from the shaped body, reducing to a minimum any accident risk.The conformation of the joining means, either those associated to the tool or those associated to the arm, ensures a safe functionality in difficult climate conditions and/or in presence of dirt, mud or other.The second joining means associated to the tool does not have any moveable part and consequently, it is suitable for resting outdoors even for long periods of time, without jeopardizing its subsequent re-use.It is understood that what above has only illustrative and not limiting value, therefore all possible detail modifications applied to the first and/or second joining means for technical and/or functional reasons, are considered since now within the protective scope defined by the claims reported below.

Claims

1. A quick safety connection for joining a tool to an operating machine, this latter being equipped with a hinge articulated hoisting arm movable in a vertical plane, said quick connection being characterised in that it includes: first joining means, associated to a free end of said hoisting arm, which include: a substantially vertical downwardly extending support frame; a swivel head, articulated to the lower end of said support frame, at a pivot with horizontal axis, and moved by an actuator to swivel in a vertical plane between a raised position and a lowered one; at least one main support element, fastened to the lower end of said support frame; at least one auxiliary constraining element, associated to the above mentioned swivel head; at least a winglet plate, made integral with said swivel head and extending from the bottom of this latter;second joining means, made integral with said tool, which include: a shaped body, which defines a calibrated inlet opening, designed to allow introduction of said main support element and the above mentioned swivel head, this latter being arranged in said raised position, as a consequence of a downward movement imparted to said support frame in a predetermined direction; support means, formed by said shaped body, designed to be engaged by said main support element as a consequence of a combined movement formed by an upward movement of the above mentioned support frame and a swivel motion of said swivel head from the raised position to the lowered position; at least one fastening eyelet, made in said shaped body, designed to be engaged by at least one movable member associated to said auxiliary constraining element, at the end of said combined movement, to fasten said second joining means to the above mentioned swivel head; at least a stop, formed by said shaped body designed to intercept the above mentioned winglet of the swivel head and to prevent the latter from going out in any succession of movements which are not inversely equal with respect to those made at the moment of said introduction.

2. A quick connection according to claim 1, characterised in that said main support element consists of a first gudgeon with horizontal axis, fastened to the lower end of said support frame such to protrude from both sides of this latter and to be coaxial with said articulation pivot of said swivel head.

3. A quick connection according to claim 1, characterised in that said auxiliary constraining element consists of a second gudgeon with horizontal axis parallel to that of said main support element and in that said movable element associated to said auxiliary constraining element consists of a pair of opposed pins, housed at the ends of the above mentioned second gudgeon and operated so as to come out axially from this latter to engage corresponding said fastening eyelet.

4. A quick connection according to claim 1, characterised in that said auxiliary constraining element consists of a second gudgeon with horizontal axis parallel to that of said main support element and in that said movable element associated to said auxiliary constraining element consists of a rod designed to partially enter into an axial seat made in said second gudgeon to set this latter in reciprocally engagement with corresponding said fastening eyelet.

5. A quick connection according to claim 1, characterised in that said calibrated inlet opening is delimited at its top by said support means and at its bottom by said stop.

6. A quick connection according to claim 1, characterised in that said support means have a overturned “U”-like shape.

7. A quick connection according to claim 1, characterised in that said shaped body includes a vertical edge designed to frontally contact said swivel head when this latter is inside said shaped body.

8. A quick connection according to claim 1, characterised in that said shaped body includes a step, designed to contact said winglet at bottom when said swivel head is in its lowered position inside said shaped body.

9. A quick connection according to claim 1, characterised in that said actuator associated to the above mentioned swivel head is hydraulic.

10. A quick connection according to claim 3, characterised in that said second gudgeon is designed to house an hydraulic actuator for operation of said opposed pins.

11. A quick connection according to claim 1, characterised by a device capable of automatically identifying the kind of tool that is joined to the above mentioned machine M, the device consisting of a detection module. associated to said support frame, for RF interaction with an identifying module associated to said shaped body.