EP2855093A1 - Pneumatic percussion mechanism apparatus - Google Patents

Abstract

The invention concerns a pneumatic percussion mechanism apparatus, in particular for a rotary and/or percussion hammer, having a striker (12a) and at least one venting unit (14a-c) which is provided to influence a movement of the striker. It is proposed that the venting unit (14a-c) has an adjusting unit (16a-c).

Description

 description

Pneumatic percussion device prior art

There are already pneumatic Schlagwerkvorrichtungen, especially for drilling and / or impact hammers, with a racket and at least one venting unit, which is provided for influencing a movement of the racket known.

Disclosure of the invention

The invention relates to a pneumatic percussion device, in particular for a drill and / or percussion hammer, with a racket and at least one venting unit, which is provided for influencing a movement of the racket.

It is proposed that the venting unit has a setting unit. In this context, a pneumatic "percussion device" should be understood to mean, in particular, a device which is at least essentially intended to transmit at least one impulse, in particular in an operating state, to an insert tool, preferably in the direction of impact, and to drive the insert tool, preferably by striking "should be understood in particular specially designed and / or specially equipped. In this context, the term "at least essentially" is to be understood in particular as meaning that a deviation from a predetermined value is in particular less than 25%, preferably less than 10% and particularly preferably less than 5% of the predetermined value be understood in this context, in particular a movably mounted component that provided for this purpose is to generate a pulse in the direction of impact by an impact. The racket may generate the impact pulse by a direct impact on the insert tool or preferably by an impact on a firing pin. The firing pin can pass the impulse to the insert tool. The beater may in particular be movably mounted in the direction of impact in a guide tube. Preferably, the racket can be accelerated in the direction of impact by applying pressure on the side of the racket opposite to the impact direction. The pressurization can be effected by a movement of a likewise movably mounted in the guide tube, on the direction of impact opposite side of the racket arranged piston in the direction of impact. The piston can compress a volume of air forming a pressure cushion between the piston and the racket and enclosed by the piston and racket with the guide tube. A pressurization of the racket can take place. In this context, a "venting unit" is to be understood as a unit which at least partially forms part of it

Venting of an adjacent to the racket pressure pad is provided. In this context, a "venting" is to be understood as an at least partial equalization of an air pressure of a room with an ambient pressure of an environment connected to the room via the venting unit. should be understood in this context, in particular a limited piston and rack space in the guide tube. Preferably, the venting unit may be provided for venting a striking space. In this context, a "whipping room" is to be understood to mean, in particular, a space adjacent to the bat in the direction of impact

Space in the guide tube to be understood. The venting unit may contain at least one of the guide tube. The venting unit may include venting channels. The venting unit can allow escaping air to escape into a space surrounding the guide tube or adjacent to the guide tube, such as a striking mechanism chamber and / or preferably a gear compartment. In this context, a "striking mechanism space" is to be understood as meaning, in particular, a space which at least partially surrounds the guide tube and which is in communication with the striking space via at least one ventilation opening of the guide tube Room understood to be for receiving devices for driving the percussion device and / or the Insert tool is provided, in particular an eccentric and / or a connecting rod for driving the piston of the percussion device and / or a transmission to transmit a rotational movement to the insert tool. The gear compartment may include a pressure compensation unit provided for equalizing pressure with an environment of the gear compartment.

The venting unit and / or the pressure equalizing unit can preferably allow air to escape into an environment of the hammer mechanism, in particular into an environment of a hammer and / or percussion hammer having the hammer mechanism. In this context, an "influencing" of the movement of the racket is to be understood in particular as meaning that an acceleration of the racket by the ventilation unit can be increased and / or reduced In particular, the ventilation unit can be provided to reduce a pressure acting on the racket. In this context, a "setting unit" is to be understood as meaning a unit of the venting unit which is intended to set an effectiveness of the venting. In particular, the setting unit may be provided to change an amount of air flowing through the venting unit due to a pressure difference. The adjustment unit may be adjustable by a user. Preferably, an adjustment unit that is clearly visible from the outside is provided for the adjustment by the user. The adjustment can for

Example be designed as a dial and / or as an adjustment ring. The adjustment unit can be particularly preferably adjustable by a control unit. In this context, a "control unit" is to be understood as meaning, in particular, a device which is provided for controlling and / or regulating, in particular, a drive unit of the pneumatic impact mechanism and / or the pneumatic percussion mechanism The adjustment unit can be optimally adjusted by the control unit depending on operating parameters. A movement of the racket can be influenced by adjusting the adjustment unit of the ventilation unit.

It is proposed that the adjustment unit be provided to set a flow cross section at at least one throttle point of the ventilation unit. In this context, a "throttle point" is intended in particular to mean a region of an air duct of the venting unit with a reduced flow rate

Flow cross section are understood. Preferably, the setting unit can be provided to reduce the flow area at the at least one throttle point and / or completely close. A simple and efficient setting unit can be formed. Preferably, the setting unit is provided to set the flow cross sections a plurality of throttle bodies. Particularly preferably, the setting unit can be provided in several

Stages to open a part of the throttle bodies in whole or in part and / or close. It can be achieved a particularly well-defined adjustability of the setting. It is further proposed that at least one throttle point is arranged at a transition between a striking mechanism chamber and gear compartment. The striking mechanism is preferably in pressure communication with a striking room. Preferably, the venting unit is provided in at least one setting to vent the beating space in the gear chamber. Venting openings in the guide tube preferably form a transition between the striking space and striking mechanism space. Air ducts of the ventilation unit may preferably be formed by parts of the transmission housing. Preferably, the gear housing includes bearings for supporting the guide tube. Preferably, gaps between the bearings form air ducts. Particularly preferably, the spaces between the bearing points on different flow cross-sections. In particular, intermediate spaces with a larger flow cross section can alternate with interspaces with a smaller flow cross section. Preferably, the setting unit is provided to close gaps with larger and / or spaces with a smaller flow cross-section. The adjustment unit can completely or partially close the air ducts axially or radially. Preferably, the adjustment can be provided to close the air ducts infinitely. A multi-stage adjustment of the ventilation unit may be possible. Preferably, the setting unit may be provided for, in at least one setting, a flow cross section of the throttling points starting from 100% with fully opened throttling points to a cross section of 30-50%, preferably 35-45%, particularly preferably 40% + / - 1%. to reduce. An effective influence on the movement of the racket may be possible. Preferably, the setting unit can be provided to reduce the flow cross-section in further stages. The adjusting unit preferably has latching positions and / or markings which it make it easier for the user to set settings defined by the detent positions and / or markings.

It is further proposed that the setting unit is intended to influence a venting of the space arranged in a direction of impact in front of the racket during a striking process. A differential pressure between batting room and compression space can be effectively influenced. The differential pressure can assist the return movement of the racket. It is also proposed that the setting unit be used to set a

Impact strength is provided. In this context, a "striking strength" is to be understood in particular as meaning the average strength of the impact pulses which the racket exerts on the firing pin in a hammering operation Acceleration and / or velocity of the striker in the direction of impact may be reduced, the resulting impact momentum may be reduced, and the adjustment unit may counteract the movement of the striker by increasing venting of the striking space during impact movement of the striker Reduce pressure Acceleration and / or speed of the striker in the direction of impact may increase The resulting impact momentum may be greater A propulsion unit causing acceleration in the impact direction of the striker can be operated for different levels of impact with a constant power. A power control and / or adjustment of the percussion device can be done by the adjustment of the ventilation unit. A cooling unit additionally driven by the drive unit for cooling the drive unit and / or the impact mechanism device can be unaffected by power control and / or adjustment of the impact mechanism device.

It is further proposed that the setting unit has a setting for a fine-tuning operation. In this context, a "fine impact operation" is to be understood as meaning, in particular, impact operation with reduced impact strength, preferably with an impact strength of less than 50% and particularly preferably less than 70% of the impact strength in a normal impact mode. drove. In this context, a "normal impact operation" is to be understood as meaning, in particular, impact operation with open throttling points, and / or impact operation in which a maximum impact strength is set on the setting unit Fine-indexing operation may be particularly suitable for processing sensitive materials, in particular tiles, Preferably, the setting unit has settings for further advantageous impact strengths The person skilled in the art will specify advantageous impact strengths for various applications.

It is further proposed that the setting unit has at least one setting for operation at a reduced ambient pressure. Under a reduced ambient pressure in this context, in particular an ambient pressure at high altitude, as in 2000 m above sea level. NN, preferably over 3000 m above sea level. NN and more preferably over 4000 m above sea level. NN be understood. The performance of the percussion device can be increased at reduced ambient pressure with a reduced ventilation of the whipping room. The adjustment unit preferably contains detents and / or markings for adjustments, in particular for a normal impact operation and / or a fine impact operation for reduced ambient pressure. In these settings, the setting unit preferably reduces flow cross sections of the ventilation unit more than in settings for a normal ambient pressure, in particular an ambient pressure on NN.

It is further proposed that the control unit has an operating condition sensor unit which is provided to set the setting unit in at least one operating state depending on operating conditions. In this context, a "operating condition sensor unit" is to be understood as meaning, in particular, a measuring device which is intended to detect operating conditions of the percussion mechanism Under "operating conditions", in particular physical variables which exert an influence on the operation of the striking mechanism are to be understood. Operating conditions may in particular be environmental conditions of an environment of the percussion device, in particular an ambient air pressure and / or a temperature. An "influence" in this be understood that a performance of the percussion device can change by the operating conditions, such as in particular an efficiency and / or a startup behavior. The operating condition sensor unit may include one or more sensors. A sensor may be arranged on a circuit board of the control unit. In particular, a pressure sensor for the

Ambient air pressure to be arranged on a circuit board of the control unit. The sensor arrangement can be particularly inexpensive. A sensor may be arranged on a hand-held power tool housing on an inner or an outer side. The sensor can record measured values particularly accurately within the hand-held power tool or outside the hand-held power tool.

The pressure sensor may preferably have a temperature sensor for detecting a temperature, in particular a temperature of an environment of the impact mechanism. The setting unit can be optimally adjusted for the operating conditions. In particular, the setting unit can be adjusted at a reduced ambient air pressure so that a vent of the in

Impact direction is reduced to the racket adjacent space and / or the throttle points of the venting unit are at least substantially closed. Performance of the percussion device at low air pressure may be increased. In particular, the setting unit can be set at a normal ambient air pressure so that a venting of the in

Impact direction of the racket adjacent space is particularly high and / or the throttle points of the venting unit are at least substantially open. The term "at least essentially" should be understood to mean in this context in particular more than half open or closed performance of the percussion mechanism at high air pressure can be increased Furthermore, a portable power tool with a pneumatic percussion device with the venting unit with the setting unit is proposed, The handheld power tool may have the stated advantages of the pneumatic percussion mechanism.

Furthermore, a method for operating a pneumatic percussion device with a venting unit with a setting unit is proposed. The pneumatic percussion device can have the advantages mentioned in operation.

drawing

Further advantages emerge from the following description of the drawing. In the drawings, embodiments of the invention are shown. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Show it:

1 is a schematic representation of a detail of a pneumatic percussion device with a ventilation unit with a setting unit,

 2 shows a further schematic representation of the venting unit with the setting unit and an adjusting ring,

 3 shows a further schematic representation of the venting unit with the setting unit and the adjusting ring,

 4 shows a map with ambient pressure-dependent settings of the setting unit,

 Fig. 5 is a schematic representation of a detail of a pneumatic percussion device with a venting unit with a setting unit in a second embodiment and

Fig. 6 is a schematic representation of a detail of a pneumatic percussion device with a venting unit with a setting unit in a third embodiment. Description of the embodiments

Figure 1 shows a section of a pneumatic percussion device 10a of a hammer and percussion hammer 36a, with a bat 12a and a

Venting unit 14a, which is provided for influencing a movement of the racket 12a. Such percussion devices are known to the person skilled in the art. A drive unit (not shown here) moves an eccentric 38a and a connecting rod 40a back and forth in a direction of impact 26a, a piston 44a guided in a guide tube. The beater 12a and the piston 44a include with a guide tube 42a a pressure pad 46a in a compression space 48a. The movement of the piston 44a causes in the pressure pad 46a alternately an over- and a negative pressure against a pressure in a whipping space 28a in the direction of impact 26a in front of the beater 12a in the guide tube 42a, which alternately provides the beater 12a in the direction of impact 26a and in a return movement moved against the direction of impact 26a. In the direction of impact 26a in front of the racket 12a, a firing pin 50a is arranged. If the racket 12a strikes the firing pin 50a, it exerts a percussion pulse, which is passed on by the firing pin 50a to a tool (not shown). The hammer mechanism 10a is shown above a striking axis 96a in an idling mode and below the striking axis 96a in a striking mode. In the impact mode, idling openings 98a are closed by a control sleeve 100a. The control sleeve 100a is displaced by the pressure of the tool against a workpiece so that it closes the idling openings 98a. The venting unit 14a has in the guide tube 42a vent openings 52a. The vent openings 52a make a connection between the hammer room 28a and a hammer room 22a ago. The venting unit 14a serves to equalize the pressure of the striking space 28a with an environment of the hammer mechanism 10a. The venting unit 14a has an adjusting unit 16a. The adjustment unit 16a is intended to influence a venting of the striking space 28a during a striking operation. The guide tube 42a of the percussion device 10a is mounted in a hammer mechanism housing 72a of the hammer and percussion hammer 36a. Impactor housing 72a has ribs 56a, which are arranged in a star shape and face outer side of guide tube 42a (FIG. 3). be- see guide tube 42a and striking mechanism housing 72a is in a the eccentric 38a facing portion 64a a bearing bush 60a pressed, which supports the guide tube 42a on percussion gear 72a. The bushing 60a forms with the ribs 56a of the percussion gear housing 72a air channels 58a, which communicate with the vent openings 52a. The air channels 58a form a

Part of the venting unit 14a. The striking space 28a is connected via the air ducts 58a to a gear chamber 24a, which is arranged behind the guide tube 42a and is arranged counter to the direction of impact 26a. The gear housing 54a and the percussion gear housing 72a are parts of a portable power tool housing 74a. The air channels 58a form at one

Transition between striking mechanism housing 72a and gear housing 54a throttle bodies 20a. The throttle points 20a influence a flow cross-section 18a of the connection of the striking space 28a with the gear space 24a. The adjustment unit 16a has an adjustment ring 76a surrounding the bearing bush 60a. The adjusting unit 16a is provided to adjust the flow area 18a of the throttle bodies 20a. The adjusting ring 76a has star-shaped inwardly directed valve extensions 62a. Depending on a rotational position of the adjusting ring 76a, the valve extensions 62a may completely or partially cover the air passages 58a. By adjusting the adjusting ring 76 a, the

Flow cross section 18a can be adjusted. The user can turn the adjusting ring 76a on a handle member 90a. The user can thus adjust the adjustment ring 76a and thus the adjustment unit 16a. In particular, by adjusting the adjusting ring 76a, the user can partially close the throttling points 20a and thus generate a back pressure braking the racket 12a when moving in the direction of impact 26a. An impact strength can be adjusted by the user. The adjusting ring 76a includes a fine-striking operation setting 68a. In this setting, the flow cross-section 18a of the throttle bodies 20a is reduced by 60%. The impact strength is reduced to a fine impact strength, which is suitable for editing tiles. The adjustment ring 76a further includes a reduced ambient pressure setting 70a. In this setting, the flow cross-section 18a of the throttle bodies 20a is reduced by 20%. The performance of percussion device 10 at reduced air pressure is increased. The adjusting ring 76a further includes a setting 102a in which the throttle bodies 20a are completely closed. The settings 68a, 70a, 102a are formed as markings. Further, a servo drive 78a is arranged on the adjusting ring 76a. A control unit 30a can adjust the adjusting ring 76a by means of the servo drive 78a in an automatic operating mode for the setting unit 16a. A characteristic field 80a is stored on the control unit 30a. An operating condition sensor unit 32b includes an ambient pressure sensor 66a for measuring an ambient pressure P and an ambient temperature T. The map 80a contains advantageous settings E of the setting unit 16a depending on the ambient pressure P and the temperature T. The control unit 30a sets the setting unit 16a depending on the ambient pressure P and the temperature T on the favorable settings. In particular, the flow cross-section 18a is reduced at the throttle points 20a at a low ambient pressure P. The advantageous settings can be determined by the expert by a simulation or by experiments. The user can continue to preselect the fine-tuning operation via a control unit (not shown here) of the control unit 30a. The control unit 30a provides for the

Feinschlagbetrieb the setting unit 16 a depending on temperature T and ambient pressure P a.

The following description and the drawings of further exemplary embodiments are essentially limited to the differences between the

Embodiments, with respect to the same designated components, in particular with respect to components with the same reference numerals, in principle, reference may also be made to the drawings and / or the description of the other embodiment. In order to distinguish the exemplary embodiments, instead of the letter a of the first exemplary embodiment, the letters b and c are followed by the reference symbols of the further exemplary embodiments.

FIG. 5 shows a section of a ventilation unit 14b of a pneumatic percussion device 10b with an adjustment unit 16b in a second exemplary embodiment. The second embodiment differs from the first in particular in that an adjusting ring 76b is mounted axially displaceably on the bearing bush 60b in a direction of impact 26b. The bearing bush 60b includes a valve recess 82b having a smaller outer diameter 84b than an inner diameter 86b of the adjusting ring 76b. If the adjusting ring 76b is displaced over the valve recess 82b, a distance between see the adjusting ring 76b with the bearing bush 60b a flow cross-section 18b of the venting unit 14b. In a sealing region 88b, the inner diameter 86b of the bearing bush 60b closes tightly with the adjusting ring 76b. The venting unit 14b can be adjusted by sliding the adjusting ring 76b. The adjustment ring 76b can be adjusted by a user via a grip member 90b or by a linear actuator 92b driven by a control unit 30b.

FIG. 6 shows a detail of a ventilation unit 14c of a pneumatic percussion device 10c with an adjustment unit 16c in a third exemplary embodiment. The third embodiment differs from the second in particular in that an adjusting ring 76c mounted so as to be axially displaceable in a direction of impact 26c is provided to close, depending on its position, a flow cross section 18c between a bearing bush 60c and a hammer mechanism housing 72c. When the adjusting ring 76c is moved away from the bearing bush 60c counter to the direction of impact 26c, it releases the flow cross section 18c. If it is moved against sealing surfaces 94c of the bearing bush 60c and striking mechanism housing 72c, it closes the flow cross section 18c. The venting unit 14c can thus be adjusted by moving the adjusting ring 76c. The adjustment ring 76c can be adjusted by a user via a grip member 90c or by a linear actuator 92c driven by a control unit 30c.

Claims

claims

1 . Pneumatic percussion device, in particular for a drilling and / or percussion hammer (36a), comprising a beater (12a) and at least one venting unit (14a-c) for influencing a movement of the beater (12a), characterized in that the Venting unit (14a-c) has a setting unit (16a-c).

2. Pneumatic impact mechanism according to claim 1, characterized in that the adjusting unit (16a-c) is provided to adjust a flow cross-section (18a-c) at least one throttle point (20a) of the venting unit (14a-c).

3. Pneumatic impact mechanism according to claim 2, characterized in that at least one throttle point (20a) at a transition between a striking mechanism chamber (22a) and a gear chamber (24a-c) is arranged.

4. Pneumatic percussion device according to one of the preceding claims, characterized in that the adjusting unit (16a-c) is provided for venting a in a direction of impact (26a-c) in front of the racket (12a) arranged whipping room (28a) during a beating operation to influence.

5. Pneumatic percussion device according to one of the preceding claims, characterized in that the adjusting unit (16a-c) is provided for setting an impact strength.

6. Pneumatic percussion mechanism according to claim 5, characterized in that the adjustment unit (16a-c) has an adjustment (68a) for a fine strike operation.

7. Pneumatic impact mechanism according to one of the preceding claims, characterized in that the adjustment unit (16a-c) has at least one setting (70a) for operation at a reduced ambient pressure.

8. Pneumatic impact mechanism according to one of the preceding claims, characterized by a control unit (30 a) with a Betriebsbedingungssensoreinheit (32 a), which is arranged to adjust the setting unit (16 a) in at least one operating state depending on operating conditions.

9. Hand tool with a pneumatic percussion device (10a-c) according to any one of the preceding claims.

10. A method for operating a pneumatic percussion device (10) according to any one of claims 1-8.