This application is a continuation of International Application No. PCT/DE2007/000233 having an international filing date of Feb. 6, 2007, which designated the United States, and claims the benefit under 35 USC §119(a)-(d) of German Application No. 10 2006 006 119.5 filed Feb. 10, 2006 and German Application No. 10 2006 006 120.9 filed Feb. 10, 2006, the entireties of which are incorporated herein by reference.
The invention relates to an electrical switch.
Switches such as these are primarily used as mains switches for electrical appliances, in particular for electrical hand held tools. An electrical tool such as this may be a drill, a grinder, a saw, a plane, an angle grinder or the like.
DE 40 11 875 A1 discloses an electrical switch having a housing in which a contact system is located which has fixed contact and a switching contact. The switch also has an operating member for switching action on the contact system, with the switching contact being at a distance from the fixed contact in a first position, and with the switching contact resting on the fixed contact in a second position. The contact system in the known switch has a complex design.
Furthermore, the switch has electrical connections which are electrically connected to the contact system. The electrical supply lines for supplying the electrical voltage to the contact system can be fitted to the electrical connections.
In the known switch, the electrical connections are arranged in a largely freely accessible form on the housing. The connections are therefore subject to dirt, with water, dust or other hazardous substances being able to penetrate via the connections into the interior of the housing, which in turn can lead to premature failure of the contact system. Finally, in the case of angle grinders, for example single-handed angle grinders, which are used for machining metals, voltage flashovers can occur from one pole to another as a result of metallic grinding dust accumulating on the external live parts of the connections. This frequently results in premature failure of the machine. In addition, there is a risk of voltage flashovers on the switch occurring to areas of the angle grinder which can be touched from the outside, which in the worst case can lead to a state representing a lethal danger to the user.
The invention is based on the object of further developing the electrical switch such that it is largely protected against the influence of hazardous substances. In particular, no live parts of the switch should be accessible for metal dust to accumulate on in the state in which the electrical supply lines are connected to the switch. If appropriate, the electrical switch should be further developed such that the contact system is of simple design. In particular, the contact system should be equally suitable for direct current and/or alternating current, and it should be possible to use the switch in single-handed angle grinders.
In accordance with the configuration of the switch according to the invention, the electrical connection has a seal and/or a seal is associated to the electrical connection. The seal expediently surrounds the supply line in the form of encapsulation. This results in a protective embodiment of a switch, therefore largely avoiding premature failure of the switch. The life of the switch is therefore advantageously increased. Further embodiments of the invention are disclosed in subsequent paragraphs of this specification.
The electrical connection can be arranged on the switch such that it leads into the housing and/or is located in the housing. Expediently, the seal has an essentially round cross section, in particular in the form of a sleeve, with the seal being designed such that it essentially corresponds to the electrical supply line. The seal can be produced from a flexible elastic material, such as a thermoplastic elastomer, a foam in the form of a foam seal, or the like. In consequence, the seal rests on the respective supply line for the connection with a certain contact pressure, which in turn further improves the sealing effect. This advantageously also allows different conductor cross sections for the electrical supply line, for example for an electrical tool operated at 120 V or at 230 V, to be held by the same seal, thus reducing the cost of the switch.
The electrical connection can be associated with an aperture into the interior of the housing and/or can be arranged on the aperture, with the seal cladding the aperture, forming a seal. The seal can be inserted in the aperture, can be placed on a corresponding attachment on the surface of the housing in the area of the aperture, can be injection molded in the aperture, or the like, in a simple manner, which is convenient for assembly.
The electrical connections may be arranged in the housing in a separate connecting area which, for example, is in the form of a chamber. The connecting area is provided with a first cover, which is located on the lower face of the housing, so that the connecting area is protected against the influence of hazardous substances. The first cover can be designed such that it can be folded up, therefore making it easier to fit the supply lines to the connections, and/or to remove them. A cover such as this which can be folded also, of course, offers other access to the interior of the switch when necessary. For the sake of simple fitting, the first cover can be fitted to the housing by means of a film hinge, or the like. Furthermore, a pivoting hinge may be provided in order to lock the cover to the housing, therefore effectively counteracting the housing which has been closed by the first cover from gaping open. Closing the cover is made easier by the capability to attach the first cover to the housing by means of latching and/or snap-hooks, locking hooks and latching studs or the like, which, for example, are located on the side of the housing. A good seal is achieved on the first cover by the first cover closing the housing, forming a seal, by means of a tongue and groove geometry, by means of an elastomer insert, or the like.
The switch may contain an electronic/electrical circuit arrangement which, for example, is used for open-loop and/or closed loop control of an electric motor in the electrical appliance or the electrical tool, and is normally arranged on a printed circuit board. This allows these electronics to be accommodated in a space-saving, manner, in the separate connecting area. The electronics are preferably inserted into the first cover, and, to be precise, the printed circuit board can easily be mounted in the first cover, by being latched in.
The housing of the switch may have an approximately cuboid shape. In order to allow the contact system as well as other parts of the switch to be fitted easily, the housing is designed to be open on the side facing the operating member. In order to close the open side of the housing, an integral, second cover which is composed at least partially of elastic material is arranged there. The second cover is, in the area of the operating member, in the form of a thin-walled, elastic and approximately bell-shaped bellows, with the bellows surrounding the operating member, on a groove which is located in the operating member, in an interlocking and/or force-fitting manner by means of an opening. This allows the user to move the operating member while nevertheless also ensuring secure sealing into the interior of the housing in this area. That edge of the housing which is associated with the open side has a circumferential groove, in which a circumferential web on the second cover engages in an interlocking and/or force-fitting manner, in order to provide a good seal.
Furthermore, a capacitor can also be arranged in the housing, and is used for example to provide suppression for the electric motor in the electric tool. All the electrical connection elements and the suppression capacitor are therefore accommodated in the switch housing, such that they are protected against dust or the like. Furthermore, there are no live parts on the outside of the switch, therefore effectively preventing corresponding hazards. For the sake of simple assembly, the capacitor may be located in a holding compartment in the housing, with the holding compartment being closed by means of the second cover.
In order to make it easier to fit the electrical supply lines to the switch, the electrical connection can be in the form of a push-in connection for simple insertion of the electrical supply line. In one preferred refinement, the electrical push-in connection has a stationary contact spring and/or a stationary contact web, as well as an elastically moving contact spring, such that the electrical supply line is plugged in and held by means of contact pressure between the two contact springs and, respectively, between the contact web and the contact spring.
In order to allow the switch to be replaced easily when necessary, the electrical supply lines can be detached again from the push-in connections. For this purpose, the electrical supply line can be detached in the electrical connection by means of a control cam which acts on the moving contact spring for the electrical connection. In one preferred refinement, the control cam comprises a wheel which can rotate and has an eccentric, with the eccentric moving the moving contact spring against its spring force during rotation of the wheel. The wheel can be mounted in the first cover such that it can rotate and/or can be injection molded in the first cover during its production, such that it can move, such that the wheel is accessible in order to detach the electrical supply line when the housing has been closed by means of the first cover.
Furthermore, in the switch according to the invention, the switching contact can be mounted such that it can move with respect to the operating member, with the switching contact being operatively connected to the operating member by means of an elastic element. The switching contact can therefore be switched between the two positions during movement of the operating member, in particular in the form of a snap-action movement. The contact system therefore has an acceleration area for the switching contact, such that the mode and direction of operation for the switch comply in particular with requirements for single-handed angle grinders.
Normally, the contact system is located in a housing of the switch. For particular suitability for single-handed angle grinders, the switching contact may be in the form of a contact link in order to bridge two fixed contacts.
A contact lug expediently leads from the fixed contact to an electrical connection, which is located in and/or on the housing, for an electrical supply line, which is used in particular to supply the electrical voltage to the contact system. In order to ensure that the supply line can be fitted to the switch easily, the electrical connection may be in the form of a push-in connection.
The operating member has a pusher which projects out of the housing for manual movement by the user. In one particular refinement of the acceleration area for the switching contact, the operating member has a carriage in the form of a frame, with the pusher being fitted to the carriage. The frame for the carriage is expediently approximately U-shaped with a base and two side limbs. A slide is mounted on the carriage such that it can move, and the slide can be guided on the base of the U of the carriage. For its part, the switching contact is arranged on the slide, to be precise in particular by means of a system spring which is used to make elastic contact with the fixed contact in the second position.
In one cost-effective embodiment, the elastic element is in the form of a leaf spring, for example, a plastic leaf spring. One end of the elastic element is attached to the carriage. Both ends of the elastic element are each expediently injection molded on one side limb. At the same time, this saves a conventional mechanical component, by using an injection molded plastic spring instead of an additional mechanical acceleration spring. The elastic element can be held in a simple form on the slide in an eye-like holder, for example. In one embodiment of the present invention, the plastic leaf spring is held in the holder approximately centrally between the two injection molded ends.
In a further embodiment, the slide is coupled to the carriage. For this purpose, an elongated hole is located on each side limb of the U-shaped carriage, with a pin on the slide engaging in the elongated hole for coupling purposes. Two opposite pins expediently engage on both sides on the slide, in a respective elongated hole on the two mutually opposite side limbs of the U-shaped carriage, in order to ensure interference-free movement of the slide. In order to assist in production of the snap-action effect, the end of the pin can be provided with a spherical catch which interacts with the housing during movement of the carriage.
Finally, a spark shield can also be fitted to the slide, and can be moved between the two fixed contacts during switching between the two positions. This interrupts any arc which may occur during switching, thus protecting the contact system against premature failure.
The advantages achieved by the invention are, in particular, that this switch effectively avoids dangerous voltage flashovers, and ensures safe operation of the electrical tool. The switch can be electrically connected in the electrical tool particularly easily from one side and quickly, because of the push-in connections. An electronics board which, for example, includes restarting protection for the electrical tool, can optionally be integrated in and made contact with in the lower closure cover of the switch, with little effort.
The advantages achieved by the invention are also that this results in a relatively physically small switch which is nevertheless suitable for switching heavy currents in the DC and/or AC voltage range. Furthermore, the number of components for the contact system is less than in previous switches, as a result of which the switch costs less, despite the advantages of the disclosed snap-action electric switch system.
Exemplary embodiments of the invention together with various embodiments will be described in more detail in the following text and are illustrated in the drawings.
In order to supply the electrical voltage to the contact system 3, the switch 1 has electrical connections 7 which lead into the housing 2 and/or are located in the housing 2, as shown in
The seal 9 is in the form of a sleeve and has an essentially round cross section. In order to ensure a particularly good seal effect, the seal 9 is composed of a flexible elastic material. This material may be a thermoplastic elastomer, a foam for a type of foam seal, or the like. In consequence, the seal 9 rests on the respective supply line 8 for the connection 7 with a certain contact pressure. An aperture 10 leads into the interior of the housing 2 for the electrical connection 7. The seal 9 clads the aperture 10, forming a seal. The seal 9 is expediently inserted in the aperture 10. The seal 9 can also be fitted on a corresponding attachment, which is not shown in any more detail, on the surface of the housing 2 in the area of the aperture 10, or can be composed of elastic plastic and injection molded or the like in the aperture 10. In particular, all of the seals 9 may be in the form of a common, integral sealing part, as shown in
The electrical connections 7 are arranged in a separate connecting area 11 in the housing 2. The connecting area 11 is in the form of a chamber, as can be seen in
As can be seen in
As can be seen from
A capacitor 27, which is shown in
As can be seen from
The electrical supply line 8 in the electrical connection 7 can be detached by means of a control cam 31, since the control cam 31 can act on the moving contact spring 30 of the electrical connection 7. As can be seen from
In order to mount the switching contact 5 such that it can move, the operating member 6 has a carriage 37 in the form of a frame, with the frame of the carriage 37 being approximately U-shaped with a base 38 and two side limbs 39, 39′. The pusher 36 is fitted to the carriage 37. A slide 40 is mounted on the carriage 37 such that it can move, with the slide 40 being guided, as required, on the base 38 of the U-shaped carriage 37. The switching contact 5 is arranged on the slide 40 by means of a system spring 42, which is used to make elastic contact with the fixed contact 4, 4′ in the second position.
The elastic element 34 is in the form of a leaf spring, for example, a plastic leaf spring, and is held centrally on the slide 40 in an eye-like holder 43. Furthermore, at least one end of the elastic element 34 is attached to the carriage 37. Preferably, both ends of the elastic element 34 are attached to carriage 37, as shown in
Furthermore, a spark shield 46 is located on the slide 40, as can be seen in
The invention is not restricted to the described and illustrated exemplary embodiments. In fact, it also covers all specialist developments within the scope of the invention as defined by the patent claims. For example, the invention can be used not only for electrical tool switches but can also be used for other switches, for example those for controllers, domestic electrical appliances, electrical garden appliances, cookers, machine tools or the like. Furthermore, the switch may also be provided without an operating member in the form of a relay. Finally, the seal according to the invention for the electrical supply line to the electrical connections can also advantageously be used for other electrical appliances supplied from a voltage source, such as controllers, distribution boxes, or the like.
Number | Date | Country | Kind |
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10 2006 006 119.5 | Feb 2006 | DE | national |
10 2006 006 120.9 | Feb 2006 | DE | national |
Number | Date | Country | |
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Parent | PCT/DE2007/000233 | Feb 2007 | US |
Child | 12188372 | US |