WO2010100521A1 - Improved compound chop sawing machine - Google Patents

Abstract

The present invention relates to a compound chop sawing machined) comprising a base (2) defining at least one work table for support of at least one workpiece; at least one work head (4) associated with the base, which is movable relative to the work table and is provided with a rotary circular blade (5) at least partly emerging from the head and exposed for cutting of the workpiece; at least one guard device (7) for protection of at least one exposed blade portion, at the lower active portion thereof, which is alternately movable between a retracted configuration inside the work head to release the active portion for engagement on the workpiece and an extended configuration to cover at least the exposed portion; and means (8) for removably locking the guard device in at least one of the retracted and extended configurations. The particularity of the invention resides in that the locking means is of the automatic activation/deactivation type.

Description

"IMPROVED COMPOUND CHOP SAWING MACHINE"

The present invention relates to a compound chop sawing machine for cutting a workpiece into section members, bars and the like.

Known on the market are chop sawing machines and in particular compound chop sawing machines, i.e. machines having two different work tables, an upper and a lower work table respectively, for carrying out cutting of section members, bars, wood laths for skirting boards and other artefacts .

These types of machines are generally used in situ, e.g. in building yards for cutting off the above mentioned artefacts . These machines comprise a work head that is movable relative to the lower work table and manually operable by handle members; the work head is provided with a cutting member, generally a powered rotary blade, for carrying out chopping and/or squaring operations on the pieces resting on the lower work table.

In particular, the work head is pivotally associated with the lower work table relative to at least one rotation axis substantially parallel to the plane defined by the lower work table . The upper region of the work head is substantially planar to define the upper work table which is provided with a slot from which the upper portion of the cutting member emerges for cutting the pieces positioned on said upper work table and rigidly fastened thereto by means of abutment elements and screw threaded fastener means. In these types of machines classified as dangerous based on safety regulations in force, guard members for the exposed portion of the cutting member must be present, which cutting member is to be inaccessible during both the use steps and the inactive steps of the machine, and manual removal of which must be inhibited.

Known guard members, generally used in accordance with the provisions of the law in these types of machines, consist of a barrier element rigidly associated with the lower region of the work head, at the lower portion of the cutting member.

In addition, guard devices for protecting the exposed portion of the cutting member are known which consist of one or more casings fitted on a blade portion and hinged on the work head so as to follow the forward movement of the cut by insertion into a seat of the work head in a concealable manner and to determine the maximum practicable cut depth. In addition, these guard devices contemplate the presence of temporary locking means to lock the casing position in a configuration for protection of the exposed blade portion, which locking means can be manually activated by the operator. At all events, these machines of known type are not devoid of drawbacks, among which it is to be mentioned that fact that this fixed barrier element constitutes a great hindrance to the normal cutting operations, when pieces of an irregular conformation are to be cut, for example. In addition, the barrier element constitutes a limit to the work head's stroke relative to the lower work table and, therefore, to the amplitude of the active portion of the cutting member itself, above all in those configurations in which the cutting member is inclined to the lower work table .

Thus these operating limits make it so difficult to carry- out the cutting operations that the operator is sometimes obliged to tamper with the machine itself and remove the barrier elements, which will make the guard fully inefficient and, as a result, will impair the machine safety. Another drawback that can be encountered in the known guard elements of the type involving a casing fitted on the cutting blade is to be ascribed to the fact that they can be easily tampered with, above all in the inactive configuration of the work head, by carrying out a simple rotation of the casing against the action of return spring means, so that the protective effect becomes unsuccessful. Moreover, in order to prevent said tampering actions, suitable expedients of manual activation of the locking means are required.

It is a main task of the present invention to eliminate the above mentioned drawbacks of the known art by envisaging a chop sawing machine that first of all enables execution of the cutting, chopping and squaring operations in a fully- safe manner for the operator.

Within the scope of this technical task it is an important aim of the invention to ensure a good cut efficiency, by- enabling wide sectors of the active portion of the cutting member to contact the workpieces, irrespective of the angle of inclination of the cutting member to the lower work table and of the shape of the workpiece .

It is a further aim of the invention to obtain a compound chop sawing machine simultaneously offering quickness and good efficiency in cutting and a high degree of protection for the operator.

Another aim of the invention is to make available a simple structure, to be put into practice in a relatively easy manner, of safe use and efficient operation, as well as of relatively reduced cost.

The main task mentioned and the aims specified are substantially achieved by the present compound chop sawing machine comprising: - a base defining at least one work table for support of at least one workpiece;

- at least one work head associated with said base, which is movable relative to said work table and provided with a rotary circular blade at least partly emerging from said work head and exposed for cutting of said piece, said work head comprising at least one auxiliary work table, for support of a further workpiece, associated on the upper part with said head and provided with at least one slot from which at least the upper portion of said blade emerges;

- at least one guard device for at least one exposed portion of said blade, at the lower active portion thereof, which is alternately movable between a configuration at which it is retracted in said work head to release said active portion for engagement with said workpiece and an extended configuration at which it covers said at least one exposed portion; and

- removable locking means of said guard device in at least one of said retracted and extended configurations; characterized in that said locking means is of automatic activation/deactivation type.

Further features and advantages of the present invention will become more apparent from the detailed description of a preferred but not exclusive embodiment of a compound chop sawing machine illustrated by way of non- limiting example in the accompanying drawings, in which:

- Fig. 1 is an elevation side view of the chop sawing machine in accordance with the invention, with the work head in an upper end-of-stroke configuration;

- Fig. 2 is an elevation side view of the chop sawing machine of the invention, with the work head in a lower end-of-stroke configuration;

- Fig. 3 is an elevation side view of the chop sawing machine seen in Fig. 1 in a step of machining a workpiece;

- Fig. 4 is a partial sectional side view of Fig. 1;

- Fig. 5 is a partial sectional side view of an alternative embodiment of a chop sawing machine in accordance with the invention, with the work head in a lower end-of-stroke configuration;

- Fig. 6 is a view as in Fig. 4 with the covering element in a blade-exposure configuration;

- Fig. 7 is a view as in Fig. 5 with the covering element in a blade-covering configuration. Referring particularly to the drawings, generally denoted at 1 is a compound chop sawing machine comprising a base 2 defining at least one work table 3 for support of at least one workpiece P. The work table 3 for example can be of the type rotating about a substantially vertical axis and can have means for temporarily clamping the workpiece, of the vice type or the like for example, not shown in detail as it is of known type. In addition, the sawing machine 1 comprises at least one work head 4 associated with base 2, which head is movable relative to the work table 3; for instance, the work head is pivotally associated with base 2 for rotation relative to at least one axis substantially parallel to the work table 3 following a rotation Rl shown in the figure.

In particular, the work head 4 is provided with a circular blade 5 having a region at least partly exposed relative to the work head and rotationalIy driven, by motor means 6 of a type known to a person skilled in the art, for cutting of the workpiece P.

The work head 4, in the preferred embodiment shown in the figures, has an auxiliary work table 3' adjustably associated with the upper portion of the work head; the auxiliary work table is provided with a through slot, from which the upper portion of blade 5 emerges for cutting of a further piece P. In particular, as known to a person skilled in the art, adjustment concerns the distance between the auxiliary work table 3 ^■ and the hinging axis of the blade 5 on the work head 4, so that the cut depth imparted to the further piece P by the upper portion of blade 5 emerging from the auxiliary work table can be adjusted.

The work head 4 is for instance pivotally associated with base 2 relative to two distinct rotation axes, i.e. a first axis orthogonal to the lying plane of blade 5 for moving the work head close to/away from the work table 3 following rotation Rl, and a second axis parallel to said lying plane for inclination of the work head 4, and therefore the blade itself, to the work table 3, which rotation is identified by reference R2.

However, it is not to be excluded that the work head 4 may simultaneously have translation movements relative to the work table 3 for carrying out particular cuts on the workpiece P. The sawing machine 1 comprises at least one guard device 7 for at least one exposed portion of blade 5 at its active portion 5a.

In particular, by exposed portion it is intended the lower arc of blade 5 emerging from the work head 4 comprising the active portion 5a for cutting the workpiece P.

The guard device 7 is alternately movable between a retracted configuration inside the work head 4, so as to release the active portion 5a of blade 5 for engagement on the workpiece P and an extended configuration covering at least said exposed portion.

The machine 1 comprises removable locking means to lock the guard device 7 in at least one of the retracted and extended configurations . Particularly, to the aims of the present invention, the locking means is of the type involving automatic activation/deactivation .

Specifically, the locking means can be automatically activated upon positioning of the guard device 7 in a retracted and in an extended configuration.

On the contrary, the locking means can be automatically deactivated upon displacement of the work head 4 from at least one upper end-of -stroke configuration to a lower end-of-stroke configuration, at which the work head is respectively fully moved away from the work table 3 and/or fully moved close thereto.

In particular, the locking means comprises removable interconnection means 8 interposed between at least two of the work head 4 , guard device 7 and base 2. The interconnection means 8 can be advantageously automatically activated upon positioning of the guard device 7 to the retracted and/or extended configuration or, alternatively, upon positioning of the work head 4 to the upper and/or lower end-of-stroke configuration. The guard device 7 in the particular embodiment shown in the figures comprises at least one first and one second circular sector, 9 and 10 respectively, which are pivotally associated with the work head 4 around respective rotation axes substantially parallel to the rotation axis of blade 5. The first and second circular sectors, 9 and 10, comprise at least one first and one second plate 11 and 12 respectively, which have a lune-shaped conformation and are substantially disposed in coplanar relationship with blade 5 in the vicinity of the blade itself. In turn, each plate 11, 12 has a peripheral edge, 11a and 12a respectively, which is turned up in a U-shaped conformation for holding the corresponding portion of blade 5. The first and second circular sectors, 9 and 10 respectively, are interconnected with each other by mutual-drive means and at least partly overlapped.

The drive means comprises at least one stud 13 protruding in a transverse direction from at least one of the first and second plates, 11 and 12 respectively, which through progressive opening of said plate, is progressively slidably guided within a guide 14 associated with the other of the first and second plates.

In particular, the first plate 11 is pivotally associated with the work head 4 in coaxial relationship with blade 5 and comprises feeler means 15 following the profile of the workpiece P .

The feeler means 15 is associated with one end of the first plate 11 facing the workpiece P for urging the first plate from the extended to the retracted configuration, against the action of spring means 16 and upon advancing of the cut on the workpiece P.

The feeler means 15 for instance comprises a roller rotatably associated with the end of the first plate 11 facing the workpiece P and resting on said piece during the working step thereof.

The second plate 12, in turn, is rotatably associated with the work head 4, with its rotation axis substantially parallel to and distinct from the rotation axis of blade 5, as in the particular embodiment shown in Fig. 5, for example. However different embodiments of the guard device 7 are also possible, e.g. an embodiment in which the second plate 12 is pivotally associated with the work head 4 coaxially with the blade itself, as shown in Fig. 4 for example. The interconnection means 8 comprises at least one catch 17 to retain the first plate 11, which catch is associated with said plate and removably insertable into at least one housing seat 18 associated with at least one of the base 2 and the work head 4 in order to retain the guard device 7 in the retracted configuration.

In particular, the interconnection means 8 comprises at least one tailpiece 19 associated with base 2 in a rocking manner relative to an axis substantially orthogonal to the rotation axis of blade 5. The housing seat 18 is advantageously made at the tailpiece 19.

In particular, the tailpiece 19 is adapted to follow the inclination rotation R2 of the work head 4, but not the rotation Rl of same. The work head 4 is in fact pivotally associated with the tailpiece 19, which tailpiece co-operates with the guard device 7 for protection of at least one exposed portion of blade 5 when the guard device is in its extended configuration or, in an equivalent manner, the work head 4 is in its upper end-of-stroke configuration.

In fact, the tailpiece 19 is suitable for protection of the remaining portion of blade 5 that is not covered by the guard device 7 when the work head 4 is in its upper end-of-stroke configuration, fully moved away from the work table. The interconnection means 8 further comprises at least one pin 20 associated with at least one of the work head 4 and the guard device 7.

Pin 20 can be housed in at least one recess 21 associated with the other of the work head 4 and the guard device 7 for retaining the guard device in said extended configuration. The interconnection means 8 comprises at least one interconnecting lever interposed between at least the first plate 11 and the work head 4. In particular, the interconnection means 8 comprises a plurality of interconnecting levers and advantageously, a first interconnecting lever 22a hinged on the work head 4, a second interconnecting lever 22b hinged on the end of the first plate 11 distal from the peripheral edge 11a, and at least one intermediate interconnecting lever 22c linked to the above levers and hinged on the work head 4 in the vicinity of its centre line.

Advantageously, the end of the first plate 11 distal from the peripheral edge 11a is positioned on the side opposite to the peripheral edge relative to the rotation axis of the first plate.

Pin 20 in the preferred embodiment is associated with the intermediate interconnecting lever 22c and is guided along at least one substantially L- shaped slot 23 and associated with the second interconnecting lever 22b.

Recess 21 is made at an end of slot 23 for locking pin 20 when the guard device 7 is in the extended configuration. The spring means 16, consisting of a helical spring for example, are directly interposed between the first interconnecting lever 22a and the intermediate interconnecting lever 22c for return of the guard device from the retracted configuration to the extended configuration, insertion of pin 20 into recess 21 and, therefore, locking of the guard device 7.

In addition, catch 17 for retaining the first plate 11, in the particular embodiment shown in the figures is rigidly associated with the second interconnecting lever 22b; due to rotation of the work head 4 from the upper end-of-stroke to the lower end-of-stroke configurations the retaining catch is fitted into the housing seat 18 associated with the tailpiece 19 in a rigid and adjustable manner for locking the guard device 7 to the extended configuration. Moreover, the work head can comprise guard means 24 for the upper portion of the blade, of the type for example involving a casing pivotally associated with the auxiliary work table 3 ' and adapted to fit the upper portion of blade 5 under non-use conditions of the latter. Finally, in a preferred embodiment the guard device 7 comprises at least one covering element 25 to cover the exposed portion of blade 5 proximal to the hinging point of the work head 4 on base 2.

The covering element 25 is in particular suitable for protection of the remaining portion of blade 5 that is not covered by the first and second circular sectors 9 and 10 when the work head 4 is in its lower end-of-stroke configuration, fully approaching the work table itself. In this way blade 5, particularly under non use conditions of the machine 1 or during cutting operations carried out on the auxiliary table 3 ' , appears to be fully protected both when the work head 4 is in the upper end-of-stoke configuration and when it is in the lower end-of-stroke configuration . Advantageously, the covering element 25 is alternately movable between a configuration for protection of blade 5 when the work head 4 is positioned in the lower end-of- stroke configuration and a configuration at which the blade is exposed. In particular, as shown in Figs. 6 and 7, the covering element 25 is rotatably and/or slidably associated with the tailpiece 19 being provided with means for converting the rotary motion for moving the work head 4 close to/away from the work table 3 into a rotation/translation motion of the covering element itself for passage of the latter from the covering configuration to the exposing configuration and vice versa.

The converting means may for instance be of the cam-rocker arm type or consist of other technically equivalent means and is not shown in the drawings as it is known to a person skilled in the art.

The machine 1 particularly comprises a pair of tailpieces 19 and a pair of covering elements 25 disposed on the opposite side relative to blade 5. Operation of the present invention is as follows.

When the work head 4 is in the upper end-of-stroke configuration, the locking means of the guard device 7 is activated; in particular, pin 20 is fitted in recess 21 and the first and second interconnecting levers 22a and 22b, as well as the intermediate interconnecting lever 22c are restrained from rotating by mutual jamming so that, as a result, any rotation of the first and second plates, 11 and 12 respectively, is prevented. In this configuration in which the guard device is locked in the extended configuration, the operator can carry out the loading and clamping operations of the workpiece P on the work table 3 in a safe manner. Once the piece P is ready for being worked, through rotation of the work head 4 blade 5 is moved close to the workpiece. During this first step blade 5 is protected by the guard device 7 that remains in the extended configuration by effect of the spring means 16. As the active portion 5a of blade 5 comes into contact with the workpiece P, the guard device 7 progressively uncovers it, against the action of the spring means 16, during advancing of the cut due to the feeler means 15 resting on the piece itself while the so-called exposed portion of the blade is left in any case covered. In the lower end-of-stroke configuration of the work head 4 the retaining catch 17 is inserted, due to rotation of the work head relative to the tailpiece 19, in the housing seat 18 retaining the second interconnecting lever 22b and the first plate 11 therewith and preventing rotation of said lever.

Also in this configuration blade 5 is inaccessible and protected, enabling the operator to carry out working operations in a fully safe manner. During return from the lower end-of-stroke configuration to the upper end-of-stroke configuration, blade 5 is progressively covered by the first and second plates 11 and 12, urged by the spring means 16, enabling the operator to carry out removal of the worked piece P in a safe manner .

Practically, it has been ascertained that the invention achieves the intended purposes and in particular it is herein pointed out that the chop sawing machine of the invention allows the cutting, chopping and squaring operations to be carried out in a fully safe manner for the operator .

In addition, it has been found that the above described chop sawing machine ensures a good cutting efficiency, enabling wide sectors of the active portion of the cutting member to come into contact with the workpieces, irrespective of the angle of inclination of the cutting member to the lower work table and of the shape of the workpiece . Moreover, the invention as conceived allows a compound chop sawing machine to be obtained which at the same time offers quickness in cutting, good cut efficiency and high protection degree for the operator, together with a simple structure of relatively easy practical achievement, safe use and efficient operation, and in addition a relatively reduced cost . The invention as conceived is susceptible of many modifications and variations, all falling within the scope of the inventive idea.

In addition, all of the details can be replaced by technically equivalent elements . Practically the material used, the shapes and sizes can be of any nature and magnitude in accordance with requirements without departing from the protection scope of the following claims .

Claims

1. A compound, chop sawing machine comprising:

- a base defining at least one work table for support of at least one workpiece;

- at least one work head associated with said base, which is movable relative to said work table and provided with a rotary circular blade at least partly emerging from said head and exposed for cutting of said piece, said work head comprising at least one auxiliary work table, for support of a further workpiece, associated on the upper part with said head and provided with at least one slot from which at least the upper portion of said blade emerges,-

- at least one guard device for at least one exposed portion of said blade, at the lower active portion thereof, which is alternately movable between a configuration at which it is retracted in said work head to release said active portion for engagement with said workpiece and an extended configuration at which it covers said at least one exposed portion; and

- removable locking means of said guard device in at least one of said retracted and extended configurations; characterized in that said locking means is of automatic activation/deactivation type.

2. A machine as claimed in claim 1, characterized in that said work head is pivotally associated with said base, being alternately movable between an upper end-of-stroke configuration and a lower end-of -stroke configuration, wherein said head is fully moved away from and close to said work table respectively, and said guard device comprises at least one covering element for the exposed portion of said blade proximal to the hinging point of said work head on said base, said covering element being alternately movable between a blade protection configuration upon positioning of said work head in the lower end-of -stroke configuration, and a blade exposure configuration.

3. A machine as claimed in claim 1, characterized in that said locking means comprises removable interconnection means interposed between at least two of said work head, guard device and base, which means can be automatically activated upon positioning of said guard device to said retracted and/or extended configuration or upon positioning of said work head to at least one upper and/or lower end-of-stroke configuration, in which said head is fully moved away from and/or close to said work table, respectively.

4. A machine as claimed in claim 1, characterized in that said guard device comprises at least one first and one second circular sector associated with said work head in a rotatable manner about respective axes substantially parallel to the rotation axis of said blade, said first and second circular sectors comprising at least one first and one second plate respectively, which are lune-shaped and disposed substantially in coplanar relationship with said blade in the vicinity of the blade itself and each having a peripheral edge turned-up in a U-shaped configuration for holding the corresponding portion of said blade, said circular sectors being interconnected with each other by mutual drive means and at least partly overlapped.

5. A machine as claimed in claim 4, characterized in that said first plate is pivotally associated with said work head in coaxial relationship with said blade and comprises feeler means following the profile of said piece, associated with an end of said first plate facing said piece, for urging said first plate from said extended configuration to said retracted configuration against the action of spring means .

6. A machine as claimed in claim 4, characterized in that said second plate is pivotally associated with said work head having a rotation axis substantially parallel to the rotation axis of said blade .

7. A machine as claimed in claim 4, characterized in that said second plate is pivotally associated with said work head in coaxial relationship with said blade.

8. A machine as claimed in one or more of the preceding claims, characterized in that said interconnection means comprises at least one catch for retention of said first plate associated therewith and adapted to be removably inserted in at least one housing seat associated with at least one of said base and work head for retaining said guard device in said retracted configuration.

9. A machine as claimed in claim 8 and in one or more of the preceding claims, characterized in that said interconnection means comprises at least one tailpiece associated in a rocking manner with said base, said housing seat being made at said tailpiece and said covering element being associated with said tailpiece.

10. A machine as claimed in claim 8 and in one or more of the preceding claims, characterized in that said work head is pivotally associated relative to said tailpiece, said tailpiece co-operating with said guard device for protection of at least one exposed portion of said blade when said guard device is in said extended configuration and/or said work head is in said upper end-of-stroke configuration.

11. A machine as claimed in claim 3 and in one or more of the preceding claims 4 to 7, characterized in that said interconnection means comprises at least one pin associated with at least one of said work head and guard device and adapted to be housed in at least one recess associated with the other of said work head and guard device for retaining said guard device in said extended configuration.

12. A machine as claimed in one or more of the preceding claims, characterized in that said interconnection means comprises at least one interconnecting lever interposed between at least said first plate and work head.

13. A machine as claimed in one or more of the preceding claims, characterized in that said interconnection means comprises a plurality of interconnecting levers, a first interconnecting lever hinged on said work head, a second interconnecting lever hinged on the end of said first plate distal from said peripheral edge, and at least one intermediate interconnecting lever linked to the above levers and hinged on said work head in the vicinity of its centre line, said pin being associated with said intermediate interconnecting lever and guided along at least one slot having an L-shaped configuration and associated with said second interconnecting lever, said recess being made at an end of said slot for locking said pin when the guard device is in the extended configuration.

14. A machine as claimed in one or more of the preceding claims, characterized in that said spring means is directly- interposed between at least one of said first and second interconnecting levers and said at least one intermediate interconnecting lever for return of the guard device from the retracted configuration to the extended configuration, insertion of said pin in said recess and locking of said guard device .