FR2980392A1 - TOOL ACCESSORY - Google Patents

Abstract

Accessory tool or machine tool, including vacuum comprising a drive unit (14a), in particular without collector and a power converter (16a) for the power supply of the drive unit (14a). The energy conversion unit (16a) has at least one energy conversion interface (18a, 56a, 58a) to which a machine tool (20a, 22a), without a collector, can be connected for power supply. in energy of a drive unit without collector (24a, 26a) of the machine tool (20a, 22a).

Description

Field of the Invention The present invention relates to a tool accessory, in particular a vacuum cleaner having at least one drive unit, in particular a drive unit without a collector and at least one energy conversion unit to ensure the power supply of the drive unit. STATE OF THE ART Multiple tool or implement accessories are already known comprising a drive unit or drive unit and an energy conversion unit providing power supply to the drive unit. DESCRIPTION AND ADVANTAGES OF THE INVENTION The subject of the present invention is a tool or tool accessory, especially an aspirator having at least one drive unit, in particular a drive unit without a collector and at least one conversion unit. of energy to supply power to the drive unit. According to the invention, the energy conversion unit comprises at least one energy conversion interface to which a machine tool without a converter can be connected for the power supply of a drive unit without collector of the machine tool without converter. The tooling accessory is particularly preferably constituted by a mobile vacuum cleaner. But one can also consider a tool or tool accessory with another interesting structure, such as for example a mobile or fixed compressor, a mobile or fixed lighting station. The term "drive unit or power unit" in the context of the invention means a unit generating a force and / or a torque for driving a component along an axis and / or about an axis. The expression "intended for" in the context of "the training unit intended for" means that this unit, especially programmed is designed and / or specially equipped. Preferably, the drive unit refers to the electrical energy transformed into rotational energy. The drive unit is particularly preferably constituted by an electric motor, in particular an electric motor without a commutator. In a particularly preferred manner, the electric motor without a commutator is a DC electric motor. But one can also envision as an electric motor any other motor structure without a collector. The term "drive unit without commutator" means, in particular, a drive unit or drive unit which is coupled to a mechanical commutator and in which the rotating field is generated by an electronic circuit controlling in an off-set manner. in time, coils generating magnetic fields. Preferably, the drive unit or drive unit without a collector is a DC motor without collector. Preferably, the rotor of the DC motor without collector comprises at least one permanent magnet surrounded by several coils of the stator of the DC motor without collector and / or surrounded by the stator composed of several coils. But we can also consider for the drive unit without collector, another structure without collector (brushless motor) considered interesting. The expression "energy conversion unit" denotes, in the context of the present description, in particular a unit for transforming electrical energy into another form of electrical energy, in particular alternating current into direct current and / or an alternating voltage in a DC voltage and / or an amplitude of electrical voltage, in particular for lowering and / or raising it. In a particularly preferred manner, the energy conversion or transformation unit supplies the driving energy or motive energy to the driving unit or motor unit, converting an alternating current of the network into a direct current. . In the context of the present invention, the expression "energy conversion interface" designates an interface to which a unit can be connected, in particular a portable machine tool for its converted electrical power supply, particularly for its power supply. energy supply with an alternating current giving direct current. Preferably, the unit and in particular the portable machine tool, is connected by a connector element or a conductor element to the energy conversion interface. The expression "machine tool without converter" refers particularly to a portable machine tool coupled for operation with an external conversion unit and / or an external energy conversion unit for supplying the drive unit without a collector. of the portable machine tool with energy taken from a local power grid and then converted. The production of the tooling accessory according to the invention makes it possible advantageously to produce the work station used for the operation of a machine tool without a converter. Thus, advantageously, the tooling accessory has the additional function of that of a power distribution device. The energy conversion unit of the weaving apparatus can thus advantageously be used for the electrical supply of the brushless drive unit of the tooling accessory and at the same time time ensure the power supply of the brushless drive of the converted electrical machine. According to one feature, the tooling accessory comprises at least one suction unit with at least one suction line coupled by shape and / or force connection to a power supply line. of the energy conversion unit. The term "suction unit" according to the present invention refers in particular to a unit which generates a vacuum to suck particles of material through at least one suction line into at least one receptacle. The suction unit has a design, such as for example a design or structure comprising a blower machine. In a particularly preferred manner, the suction pipe is a flexible tube or a flexible pipe. Preferably, the power line or conduit is a cable, especially a multi-strand cable. The cable is preferably provided for connecting the machine tool without converter by the energy conversion interface to the energy conversion unit to supply power to the drive unit without manifold of the machine tool without 35 collector. In a particularly preferred manner, the suction line is releasably coupled to the energy supply line. The term "removable" or "detachable" here refers to a connection between at least two parts or components that can open or separate in a non-destructive manner, for example without using a separation tool, such as than a knife. The coupling possibility of the suction line and the power supply line advantageously allows a compact device for the power supply line, in particular with a simultaneous connection of the suction line to the supply line. the tool or (tooling). Advantageously, the suction pipe is coupled by means of at least one connecting element installed on the outside of the suction pipe, this connecting element forming part of the suction unit to ensure the coupling of the supply line.

The suction line may for example be coupled by means of an attachment element or clipping of the suction unit, by a connection by the shape and / or force to the driving of power supply. In a particularly preferred manner, a number of connecting elements of the suction unit are provided for coupling the suction line to the power supply line to be connected to the outer side of the pipe. suction. But we can also consider making the connecting elements in one piece with the outer side of the suction pipe. The expression "in one piece" means in particular a bonding by the material, for example if in a welding operation, a bonding operation or an injection overmolding operation and / or another process which would appear interesting and / or is advantageously formed in one piece, such as, for example, a cast iron fabrication and / or an embodiment by a one or more component process and advantageously from a single blank. With the aid of at least one connecting element, coupling of the suction pipe to the energy supply pipe is advantageously carried out. It is furthermore advantageous for several connecting elements that the suction pipe and the power supply line are displaced at least substantially in common. This advantageously allows the operator to be less stressed by the suction line and the power supply line. According to an alternative development of the invention, the tool or tooling accessory comprises at least one suction unit with at least one suction line which integrates the energy supply line of the power supply unit. The term "integrates" here means the fitting of a component in space within another component. Preferably, the energy supply line is surrounded at least in a plane substantially perpendicular to the main direction of flow of the suction pipe in an angular range greater than 180 °, preferably greater than 270 ° and in a particularly preferred manner, greater than 350 °. Advantageously, a compact arrangement of the power supply line is provided in the suction line. Advantageously, the power supply line is in the outer wall of the suction pipe which delimits the suction channel. The energy supply line is preferably connected by injection, for example by an injection method to one or more components, making a connection by the material to the outer wall. The outer wall surrounds the power supply line, preferably completely in at least one plane substantially perpendicular to the main direction of flow in the suction line. It may also be envisaged that the power supply line only partially surrounds the outer wall and for example a portion of the power supply line forms the outer side of the suction line. The provision of the power supply line according to the invention in the outer wall of the suction pipe, advantageously protects the power supply line against damage. Moreover, by overmolding by injection or by injecting the power supply line into the outer wall, an aeraulic arrangement of the power supply line in the suction line is advantageously provided. Preferably, the energy conversion interface is integrated in a suction interface of the suction unit. Advantageously, by connecting the suction line to the suction interface, the power supply line is connected at the same time to the energy conversion interface. In addition, a compact arrangement of the energy conversion interface in a suction interface that already exists is advantageously obtained. According to another characteristic, the energy conversion unit comprises at least one rectifier converting an alternating current into a direct current. But it can also be envisaged that the energy conversion unit comprises several units, devices or devices which appear interesting and which make it possible to convert an alternating current into a direct current. The energy conversion unit preferably comprises other units necessary for the correct operation of machine tools or tools without converter connected by the energy conversion interface to the energy conversion unit, such as, for example, filters, intermediate circuit capacitors, power factor regulators and the like. The embodiment according to the invention of the tooling can advantageously result from a reliable power supply for a machine tool or tool, without converter, connected by the energy conversion interface to the energy conversion unit. . According to another characteristic, the invention relates to machine tool systems having an accessory device according to the invention and at least one machine tool without converter, portable, having at least one drive without collector. The expression "machine tool or portable tool" refers in particular to a machine tool for the processing of workpieces, which is transported by the user without the use of a transport machine. less than 40 kg, preferably less than 10 kg and particularly preferably less than 5 kg The portable machine tool, without converter, may be a portable sander such as for example an angle grinder, eccentric such as for example an oscillating grinder or a sawing machine, a multifunction machine or other machines constituting a portable plane, a portable garden equipment such as for example a shear for bushes or other machine tools without converter, por It is advantageous to have a portable, compact machine tool whose energy-transforming components are provided in the machine tool. According to another feature, the portable machine tool has at least one power supply interface for coupling to a power conversion unit and at least one suction interface for coupling to a suction or suction unit of the tooling accessory. Thus, the portable machine tool can be advantageously powered by the energy conversion unit which provides the energy while advantageously allowing to eliminate the salt produced by machining a workpiece using of the suction unit. Advantageously, the power supply interface of the portable machine tool is integrated into the suction interface of the portable machine tool. Preferably, the power supply interface 15 is located in the suction channel of the suction line. The power supply interface is preferably surrounded by the outer wall delimiting the suction channel. The power supply interface can be advantageously protected against damage. There is thus a compact arrangement of the power supply interface. The tool accessory or tool according to the invention and / or the machine tool system according to the invention is not limited here to the application and to the embodiment described above. In particular, the tool or tool accessory according to the invention and / or the machine tool system according to the invention may comprise a number of different elements, parts and units, different from one another. of the number given above. Drawings The present invention will be described in more detail below with the aid of a tool attachment shown by way of example in the accompanying drawings in which: - Figure 1 shows a machine tool system according to the invention with a tool or tool accessory according to the invention in the form of a vacuum cleaner as well as a machine tool without portable converter, according to the invention, shown schematically, FIG. 2 is a detailed view of an energy conversion unit of the tool accessory according to the invention comprising a power supply line, a suction line coupled to the suction unit; of the machine tool according to the invention, according to a schematic representation, - Figure 3 shows another machine tool system according to the invention with a variant of tool accessory according to the invention made by a vacuum cleaner as well as a machine tool variant according to the invention FIG. 4 is a detailed view of a suction unit of a variant tool according to the invention incorporating an energy conversion interface of a energy conversion unit of the tooling accessory according to the variant of the invention, corresponding to a schematic representation, and - Figure 5 is a detailed view of an energy conversion unit equipped with a power supply line for the tool accessory variant according to the invention, with a suction line of a suction unit of the tool accessory according to the variant of the invention, the together being shown schematically.

DESCRIPTION OF EMBODIMENTS OF THE INVENTION FIG. 1 shows a machine tool system 50a having a tool or tool attachment 10a in the form of a vacuum cleaner 12a and a portable machine tool 20a, without converter, provided with a drive unit 24a without a collector. The vacuum-shaped tool attachment 10a 12a includes a drive unit 14a and a power conversion unit 16a for providing power to the drive unit 14a. The drive unit 14a is constituted by a drive unit without a collector. The energy conversion unit 16a has a power conversion interface 18a to which the portable power tool 20a is coupled, without a converter for power supply of the drive unit 24a without a power collector. the portable machine tool 20a, without converter. The portable machine tool 20a, without converter, is an eccentric sander. But one can also consider a portable machine tool 20a, without converter constituted by another structure that could be interesting. In addition, the tool or tool attachment 10a constructed as a vacuum cleaner 12a includes a suction unit 28a having a blowing machine (not shown here) to create a vacuum to machine a workpiece (such as This is not shown in detail here) and draw the material removed from the workpiece at this time and collect the removal of the material by suctioning the workpiece into a receptacle (not shown) of the vacuum cleaner 12a. The suction unit 28a has a suction interface 42a. The suction interface 42a is intended to be coupled to the suction line 30a of the suction unit 28a to suck the material removed from the room. To suck the material removed from the workpiece during workpiece machining with a portable machine tool 20a without a converter, one end of the suction line 30a is connected to the suction interface 42a. The other end of the suction line 30a is connected to the suction interface 48a of the portable machine tool 20a without a converter. The suction pipe 30a is a flexible pipe. It is also possible to envisage a suction pipe 30a having another interesting shape. The machine tool system 50a also includes another portable machine tool 22a, without converter, having a manifoldless drive unit 26a which connects to another energy conversion interface 56a of the converter unit. energy 16a. Overall, the energy conversion unit 16a of the vacuum cleaner 12a has three energy conversion interfaces 18a, 56a, 58a for connection to portable power tools 20a, 22a, without a converter. Thus, the energy conversion unit 16a of the vacuum cleaner 12a can operate with up to three machine tools 20a, 22a, portable without converter in addition to the drive of the drive unit or drive unit 14a. of the vacuum cleaner 12a. But it can also be envisaged that the energy conversion unit 16a of the aspirator 12a has a number of energy conversion interfaces 18a, 56a, 58a, differing by three. The other portable machine tool 22a, without converter, is a jigsaw. However, it is conceivable that another machine tool 22a, portable, without converter, another advantageous embodiment.

The portable machine tool 20a, without converter and the other portable machine tool 22a, without converter, have an embodiment already known per se. The portable machine tool 20a, without converter, and the other portable machine tool 22a, without converter, each have in addition to the respective drive unit 24a, 26a, without a commutator, a control unit and / or or control (not detailed herein) for controlling the respective non-manifold drive unit 24a, 26a, and / or regulating that unit. The portable machine tool 20a, without converter, and the other portable machine tool 22a, without converter, each have a machine housing 52a, 54a which surrounds the drive unit 24a, 26a, without manifold, respectively and respective control and / or control unit. The portable machine tool 20a, without converter, includes a power supply interface 46a for coupling to the energy conversion unit 16a and a suction interface 48a for coupling to the power unit. suction 28a of the tool attachment 10a as a vacuum cleaner 12a. The portable machine tool 22a, without converter, also has a power supply interface 60a and a suction interface 62a for coupling to one of the energy conversion interfaces 18a, 56a, 58a of the energy conversion unit 16a of the vacuum cleaner 12a. The power supply interface 60a and a suction interface 62a of the other portable machine tool 22a, without converter, have a similar embodiment to the power supply interface 46a and the interface. air suction 48a of the portable machine tool 20a, without converter. The suction unit 28a comprises the suction line 30a, a part 66a of which can be coupled by a connection by the shape and / or the force to the power supply line 32a of the energy conversion unit. 16a. The suction line 30a can be coupled by connecting elements 34a, 36a of the suction unit 28a installed on the outer side of the portion 66a of the suction line 30a to the power supply line 32a. (Figure 2). The connecting members 34a, 36a are fixed on the side facing the suction line 30a by a snap connection to the outer side of the portion 66a of the suction line 30a. But it is also conceivable to fix the connecting elements 34a, 36a by means of another interesting mode of connection, to the outer side of the portion 66a of the suction pipe 30a, for example by a connection by the material Or other. The connecting members 34a, 36a are evenly distributed along the main flow direction of the suction line 30a on the outer side of this suction line 30a. But it is also possible to envisage unevenly distributing the connecting elements 34a, 36a along the main direction of flow of the suction pipe 30a.

The power supply line 32a is in the form of a multi-stranded cable for connecting the drive unit 24a, without manifold of the portable machine tool 20a, without converter, to a power supply by the energy conversion interface 18a to the energy conversion unit 16a of the vacuum cleaner 12a. The connecting elements 34a, 36a are fixed on the side facing the power supply line 32a also by means of an interlocking connection to the power supply line 32a. Thus, the suction line 30a is connected by connecting elements 34a, 36a forming a connection by shape and / or force with the power supply line 32a. According to a not shown embodiment of the vacuum cleaner 12a, the suction pipe 30a is coupled over at least more than 80% of the overall extension of the suction pipe 30a by a connection by the material or the form to the power supply line 32a. According to an alternative embodiment of the vacuum cleaner 12a, the energy conversion interfaces 18a, 56a, 58a are in the immediate vicinity of the suction interface 42a and / or adjacent to the interface of FIG. suction 42a of the vacuum cleaner 12a. The other portable machine tool 22a, without converter, is connected by another power supply line 64a of the energy conversion unit 16a or the other portable machine tool 22a, without converter, connected by one end to the power supply interface 60a of the other portable machine tool 22a, without converter by the energy conversion interface 56a to provide power supply with the energy conversion unit 16a . The other power supply line 64a is thus decoupled from the suction line 30a and connected to the energy conversion interface 56a. The other power supply line 64a for supplying power to the non-commutator drive unit 26a of the other portable machine tool 22a, without converter, is decoupled from the connecting elements 34a, 36a. The suction interface 62a of the other portable machine tool 22a, without converter, is not connected to the suction pipe 30a. But it can also be envisaged that in the event of interruption of the operation of the portable machine tool 20a, without converter, the suction pipe 30a of the suction interface 48a of the portable machine tool 20a is cut off, without converter, and the power supply line 32a and alternatively, the suction line 30a is coupled to the other power supply line 64a and the suction interface 62a of the other portable machine tool 22a, without converter, for sucking the machining products when machining a workpiece with the other portable machine tool 22a, without converter. The energy conversion unit 16a comprises a rectifier 44a for the operation of the drive unit 14a of the vacuum cleaner 12a and the non-commutator drive units 24a, 26a of the portable machine tools 20a, 22a, without converter; the rectifier 44a converts the alternating current supplied by the local electrical network into direct current when the vacuum cleaner 12a or the energy conversion unit 16a are connected. The energy conversion unit 16a also includes other electrical and / or mechanical units and devices which might be of interest and which would be necessary for the operation of the non-commutator drive units. Figures 3 to 5 show another embodiment. The characteristic components and the operations that are essentially preserved bear the same references. Unlike the exemplary embodiments, the references are completed by the letters a and b. The description given below is essentially limited to the differences with respect to the first embodiment of FIGS. 1 and 2. For the components having identical characteristics and operation, reference is made to the description of the first example of FIG. embodiment with reference to Figures 1 and 2.

Figure 3 shows an alternative machine tool system 50b which includes an alternative tool attachment 10b and a variant of a portable machine tool 20b, without converter, having a manifoldless drive unit 24b. The tool attachment 10b is in the form of a vacuum cleaner 12b having a drive unit 14b and a power conversion unit 16b for powering the drive unit 14b. The drive unit 14b of the vacuum cleaner 12a is a drive unit without a collector. The energy conversion unit 16b has an energy conversion interface 18b to which the portable machine tool 20b, without converter, can be connected for the power supply of the drive unit. without manifold 24b of the portable machine tool 20b, without manifold. The vacuum cleaner 12b also has a suction unit 28b having a suction line 30b into which the energy supply line 32b of the energy conversion unit 16b (FIG. 5) is integrated. The power supply line 32b is provided in the outer wall 40b of the suction line 30b which delimits the suction channel 38b. The power supply line 32b is constituted by a multi-strand cable connected to the outer wall 40b of the suction line 30b by a linkage formed by injection. But one can also consider connecting the power supply line 32b to the outer wall 40b of the suction pipe 30b by another interesting way, such as a gluing process.

The energy conversion interface 18b of the energy conversion unit 16b is integrated in the suction interface 42b of the suction unit 28b (FIG. 4). By connecting the suction line 30b to the suction interface 42b of the suction unit 28b, the power supply line 32b is connected at the same time to the energy conversion interface 18b of the energy conversion unit 16b. The portable tool machine 20b, without converter, has a power supply interface 46b for coupling to the energy conversion unit 16b by the energy conversion interface 18b and a suction interface. 48b to be coupled to the suction unit 28b of the tool attachment 10b in the form of a vacuum cleaner 12b. The power supply interface 46b of the portable machine tool 20b, without converter, is integrated in the suction interface 48b of the portable machine tool 20b, without converter. Thus, by connecting the suction pipe 30b in which the energy suction pipe 32b is integrated with the suction interface 48b, the portable machine tool 20b, without converter, is connected at the same time to the power supply 32b. The drive unit without collector 24b of the portable machine tool 20b, without converter, is thus connected to the power supply interface 46b and to the power supply line 32b, to the conversion unit of energy 16a at the same time that the suction line 30b is connected to the suction interface 48b. The machine tool system 50b further comprises another portable machine tool 22b, without converter, provided with a drive unit without manifold 26b. This other portable machine tool 22b, without manifold, can be integrated as an alternative to the hand-held portable tool 20b, without manifold, by the suction line 30b to the power supply line 32b to operate with it. energy conversion unit 16b. Thus, the other portable machine tool 22b, without converter, also comprises a suction interface 62b and a power supply interface 60b. The power supply interface 60b is here integrated in the suction interface 62b.25 NOMENCLATURE 10a tool accessory 12a vacuum cleaner 14a drive unit 16a energy conversion unit 18a conversion interface energy 20a portable machine tool without converter 24a drive unit without manifold 26a drive unit without manifold 28a suction unit 30a suction line 42a suction interface 46a power supply interface 48a suction interface 50a machine tool system 52a machine tool housing 54a machine tool housing 56a energy conversion interface 58a energy conversion interface 60a power supply interface 62a suction interface 10b tool accessory 12b vacuum cleaner 14b drive unit 16b energy conversion unit 18b energy conversion interface 20b portable machine tool without converter 24b drive unit without manifold 26 b drive unit without manifold 28b suction unit 30b suction line 42b suction interface 46b power supply interface 48b suction interface 50b machine tool system 52b machine tool housing 54b machine housing 56b power conversion interface tool 58b energy conversion interface 60b power supply interface 62b suction interface 15

Claims (1)

1) Tool accessory, especially a vacuum cleaner comprising at least one drive unit (14a, 14b), in particular a drive unit without a collector and at least one energy conversion unit (16a, 16b) to ensure the power supply of the drive unit (14a, 14b), an accessory characterized in that the energy conversion unit (16a, 16b) has at least one energy conversion interface (18a). , 56a, 58a, 18b) to which a machine tool without a converter (20a, 22a, 20b, 22b) for power supplying a drive unit without a collector (24a, 26a, 24b, 26b) can be connected ) of the machine tool without converter (20a, 22a, 20b, 22b). 2) Tool accessory according to claim 1, characterized by at least one suction unit (28a, 28b) having at least one suction line (30a, 30b) coupled by a connection by the shape and / or by the force at a power supply line (32a, 32b) of the energy conversion unit (16a, 16b). 3) Tool accessory according to claim 2, characterized in that the suction line (30a) is coupled by at least one connecting element (34a, 36a) of the suction unit (28a) installed on the outer side of the suction line (30a), the coupling being made with the power supply line (32a). 4) Tool accessory according to claim 1, characterized by at least one suction unit (28b) having at least one suction line (30b) in which is integrated a power supply line (32b) of energy converting unit (16b) .355 °) Tool accessory according to claim 4, characterized in that the power supply line (32b) is in the outer wall (40b) of the power line. suction (30b) delimiting the suction channel (38b). 6 °) tool accessory according to claim 1, characterized in that the energy conversion interface (18b) is integrated in the suction interface (42b) of the suction unit (28b). 7 °) tool accessory according to claim 1, characterized in that the energy conversion unit (16a, 16b) comprises at least one rectifier (44a, 44b) converting the alternating current into direct current. Machine tool system comprising a tool accessory according to one of claims 1 to 7, and having at least one portable machine tool (20a, 22a, 20b, 22b), without converter with at least one unit drive (24a, 26a, 24b, 26b) without manifold. Machine tool system according to claim 8, characterized in that the portable machine tool (20a, 22a, 20b, 22b), without manifold, has at least one power supply interface (46a, 46b). ) to be coupled to a power conversion unit (16a, 16b) and at least one suction interface (48a, 48b) for coupling to a suction unit (28a, 28b) of the accessory 'tool. Machine tool system according to Claim 9, characterized in that the power supply interface (46b) of the portable machine tool (20b, 22b) is integrated in the suction interface ( 48b) of the portable machine tool (20b, 22b). 10 15 35