EP3922416A1 - Dispositif de réception d'un outil d'une machine-outil portative - Google Patents

Dispositif de réception d'un outil d'une machine-outil portative Download PDF

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Publication number
EP3922416A1
EP3922416A1 EP20178884.1A EP20178884A EP3922416A1 EP 3922416 A1 EP3922416 A1 EP 3922416A1 EP 20178884 A EP20178884 A EP 20178884A EP 3922416 A1 EP3922416 A1 EP 3922416A1
Authority
EP
European Patent Office
Prior art keywords
power tool
handheld power
interface
fastening means
designed
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP20178884.1A
Other languages
German (de)
English (en)
Inventor
Simon Käsmann
Michael Lanzinger
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hilti AG
Original Assignee
Hilti AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hilti AG filed Critical Hilti AG
Priority to EP20178884.1A priority Critical patent/EP3922416A1/fr
Priority to US17/925,945 priority patent/US20230330830A1/en
Priority to PCT/EP2021/064369 priority patent/WO2021249791A1/fr
Priority to CN202180040068.0A priority patent/CN115666868A/zh
Priority to JP2022570096A priority patent/JP2023527513A/ja
Priority to EP21727189.9A priority patent/EP4161738B1/fr
Publication of EP3922416A1 publication Critical patent/EP3922416A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25HWORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
    • B25H1/00Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby
    • B25H1/0021Stands, supports or guiding devices for positioning portable tools or for securing them to the work
    • B25H1/0028Tool balancers

Definitions

  • the present invention relates to a device for receiving a handheld power tool.
  • the device can serve as an interface between the handheld power tool and a support or carrying structure and comprises a first and a second fastening means and a counter structure.
  • the interface can be adapted to different handheld power tools or types of handheld power tools by an adjustable distance between the first fastening means and the counter structure or an adjustable diameter of the counter structure.
  • the invention relates to a use of the proposed interface for fastening a handheld power tool to a support structure, as well as a corresponding method.
  • Heavy power tools such as drill, chisel or combination hammers, as well as core drilling devices, are often used in serial or long-term applications.
  • the user In order to compensate for the forces that occur, in particular weight forces, the user is exposed to high physical stress, which can cause rapid fatigue or even physical damage. Therefore, many users endeavor to reduce the physical stress to use support structures in which the hand-held power tools can be suspended or latched.
  • These body-borne and / or external support structures can at least partially absorb the forces that occur and thus enable the user to work longer with the hand-held power tool. Possible configurations of known support structures are shown in Fig. 1 shown.
  • the DE 10 2016 013 145 A discloses a mounting bracket for a work implement, such as a brushcutter.
  • the receiving clip is designed to be flexible and to run transversely to a slot, so that the slot can be widened.
  • elastic properties of a receiving clip are thus used to connect the clip to an implement.
  • a disadvantage of the suspension solutions for handheld power tools known from the prior art is that the elastic properties of materials, ropes or mounting clips are often used to establish a connection between a handheld power tool and a support structure.
  • Such connections based on the elasticity of a material are hardly suitable for use in connection with hammering and / or rotating handheld power tools, since they absorb the vibrations that can occur when working with the handheld power tools and, for example, can come into resonance. The absorption of the vibrations can also lead to a weakening of the connection between the handheld power tool and the support structure, which in the worst case can lead to the connection being broken.
  • the technical solution to be provided should enable optimal balancing of the handheld power tool in relation to the support structure in order to further facilitate working with the handheld power tool.
  • the technical solution to be provided could be used as universally as possible for a large number of different handheld power tools or types of handheld power tools.
  • the object of the present invention is to provide solutions for the technical requirements described above and to provide a fastening solution for connecting a handheld power tool to a support structure which overcomes the deficiencies and disadvantages of the prior art.
  • the invention is advantageously a particularly universally applicable receiving device for handling various handheld power tools, such as rotary hammers, combination hammers or chisel hammers, and for example core drilling devices.
  • the devices that are to be connected to a support structure in the context of the present invention are preferably hand-held machine tools which each have a first and a second handle. It is preferred in the context of the invention that the first handle of the machine tool can preferably also be referred to as the front handle or side handle of the machine tool. If the user who works with the handheld power tool is right-handed, the first handle of the handheld power tool is usually held in the user's left hand.
  • the first handle can be attached to the handheld power tool with a tightening strap; it is preferably arranged on a front area of the handheld power tool.
  • the second handle can be C-shaped or D-shaped, for example, and is usually enclosed in the right hand of a right-handed person.
  • the second handle is preferably arranged in a rear area of the handheld power tool.
  • the handheld power tool can furthermore have a housing which surrounds the internal components of the handheld power tool in a manner known to a person skilled in the art and shapes the external shape of the handheld power tool.
  • the exterior of the handheld power tool can be shaped by its device neck. In the context of the invention, this means that the handheld power tool can have different large diameters in the area of the first handle.
  • a particular advantage of the proposed invention is that the proposed interface is suitable for use with handheld power tools with different diameters or housing shapes.
  • This advantage is brought about in particular by the provision of the counter structure, which can be designed either as a receiving device for a rear area of the handheld power tool or as a retaining ring that can be exchanged or is designed to be adjustable in size.
  • the retaining ring is preferably located in a front area of the interface and in particular in spatial proximity to the first fastening means.
  • different retaining rings can be used, the diameter of which corresponds to the diameter of the neck of the handheld power tool.
  • a size-adjustable retaining ring is used as a counter structure, the size or the diameter of the retaining ring can be adapted to the diameter of the device neck.
  • a setting means can in particular be provided.
  • the counter structure is set up in particular to form a second contact area between the handheld power tool and the device.
  • the term "contact area” preferably means that the handheld power tool and the proposed interface are in contact with one another in these areas, ie touch one another, the contact areas being arranged in particular on an underside of the interface. This underside of the interface can in particular face an upper side of the handheld power tool. It has been found to be particularly expedient for the system comprising the handheld power tool and the device to have at least two contact areas.
  • a first contact area between the handheld power tool and the interface is preferably formed by the first fastening means, while a second contact area between the handheld power tool and the interface is formed by the counter structure.
  • the first contact area is present in a front area of the interface
  • the second contact area can also be present in a front area of the interface if the counter structure is designed as a retaining ring.
  • the counter structure is designed as a receiving area
  • the second contact area is present in a rear area of the interface.
  • the use of a receiving area as a counter structure advantageously makes it possible to ensure a large distance between the first and second contact areas can be. This enables particularly stable mounting and holding of the handheld power tool within the interface.
  • the advantage of using the retaining ring is, in particular, the great flexibility of the counter-structure created in this way.
  • the proposed interface is set up to accommodate a handheld power tool.
  • a handheld power tool can also be referred to as a receiving device.
  • the proposed device can also be used to connect the handheld power tool to a support structure.
  • it functions as an interface or adapter.
  • the interface comprises a second fastening means that is designed to be movable or displaceable with respect to a longitudinal axis of the device.
  • the second fastening means can be moved along an axis running centrally through the interface.
  • the interface comprises a grid with various receiving recesses for the second fastening means.
  • the second fastening means can be moved over the grid and, depending on the center of gravity of the handheld power tool, snap into one of the depressions and be fastened.
  • the second fastening means not only allows a handheld power tool to be connected to a support structure, but also allows the attachment or suspension of the handheld power tool to be adapted in relation to the support structure.
  • the second fastening means is constructed in a particularly simple manner and therefore requires little maintenance.
  • the handling of the second fastening means for adapting the suspension of the hand-held power tool is particularly intuitive and easy to learn as a function of its center of gravity.
  • the provision and configuration of the second fastening means provides a particularly user-friendly option for balancing the hand-held power tool when the hand-held power tool is to be fastened to a support or carrying structure.
  • Another advantage of the invention is that the proposed interface enables a mechanical connection between the interface, the handheld power tool and the support structure.
  • this overcomes the disadvantage that elastic properties of materials or the like are used to connect the components of a work system that includes an interface, a handheld power tool and a support structure to one another.
  • a connection is used of the system components proposed, in which mechanical methods, such as bracing, jamming, clamping or clamping, are used to connect the interface, the handheld power tool and the support structure to one another in a particularly secure, stable and insensitive manner to vibrations.
  • the interface can be adapted to different handheld power tools or types of handheld power tools by an adjustable distance between the first fastening means and the counter structure or by an adjustable diameter of the counter structure.
  • the proposed interface can therefore be used particularly universally and can be used for a large number of different devices and product classes. This leads to cost savings for the user, since he only needs an interface as an adapter for suspending various handheld power tools on a support structure.
  • the distance between the first fastening means and the counter-structure designed as a receiving area can in particular be adjusted by an adjustment means, the adjustment means preferably being arranged in a front region of the interface.
  • this setting means can preferably be referred to as the first setting means and bear the reference symbol 13a.
  • the setting means can be designed as a knurled screw.
  • the distance between the first fastening means and the receiving area can be changed, so that the distance can be optimally set for larger and smaller handheld power tools.
  • the handheld power tool with the interface can be braced safely and robustly against shocks or vibrations.
  • the setting means is designed as a knurled screw, the distance between the first fastening means and the receiving area can be adjusted by turning the knurled screw.
  • the distance can preferably be set continuously so that a particularly precise adaptation of the distance to the handheld power tool to be fastened or clamped can be achieved.
  • the interface can comprise an adjustment means, which in the context of the invention is preferably referred to as a second adjustment means and which bears the reference symbol 13b.
  • the retaining ring can have a slot or be configured to be slotted.
  • the size of the slot and thus the diameter of the retaining ring can be set with the second setting means and, in particular, can be adapted to the diameter of a handheld power tool that is to be received by the receiving device.
  • the diameter of the counter-structure designed as a retaining ring can be adapted to the diameter of a neck of the hand-held power tool by the second setting means.
  • a kit with several retaining rings can be provided, the retaining rings each having different diameters.
  • Such a retaining ring can then be used as a counter-structure for each hand-held power tool that is to be picked up by the receiving device, the diameter of which corresponds to the diameter of the device neck of the desired hand-held power tool.
  • the proposed interface manages without setting means.
  • a kit with several retaining rings can be provided, the individual retaining rings of the kit having different diameters.
  • the first fastening means is set up to come into engagement with a tensioning strap of the handheld power tool and thus to connect the interface to a front region of the handheld power tool.
  • the first fastening means forms a first contact area with the handheld power tool.
  • the tightening strap is used to attach a lateral handle, which is referred to as the first handle of the handheld power tool in the context of the invention, to the handheld power tool.
  • the first handle of the handheld power tool is in a front area of the handheld power tool.
  • the first fastening means can be designed as a hook or hook-shaped, for example, so that it can be guided or pushed between the tensioning strap and the handheld power tool.
  • a stable connection between the handheld power tool and the interface can be provided. Tests have shown that this connection is particularly stable against shocks or vibrations and is therefore particularly well suited for use on construction sites.
  • the receiving area of the interface is set up to receive at least part of the handheld power tool, so that a connection is created between the interface and the rear area of the handheld power tool or its housing.
  • the receiving area can preferably also be referred to as a handle receiving area because the receiving area can be particularly suitable for receiving the second handle or a part of the housing of the handheld power tool that is arranged in the area of the second handle of the handheld power tool.
  • the second handle is located in the rear area of the handheld power tool and is usually held in the right hand of a right-handed user.
  • the handheld power tool can comprise a housing, the receiving area of the interface preferably comprising a cavity into which a part of the housing of the handheld power tool can be inserted.
  • This introduction or pushing in can be achieved, for example, by the adjustment means or the shortening of the distance between the receiving area and the first fastening means.
  • the hand-held power tool can be pushed into the receiving area by actuating the setting means.
  • the distance between the receiving area and the first fastening means is shortened and the hand-held power tool is braced or wedged within the interface.
  • This tensioning leads to a particularly stable, mechanical connection between the interface and the handheld power tool.
  • the proposed device can be used to connect a handheld power tool to a support structure.
  • Such body-worn or external support structures usually absorb the forces or vibrations that occur when working with a handheld power tool and support or facilitate the work of a user.
  • Various conventional support structures as are known from the prior art are shown in FIG Fig. 1 shown. For example, they can be attached to a user with a torso belt or a harness and / or be constructed like a gallows. Stirrup-like constructions that are guided over the user's shoulder are also known in the prior art, as well as free-standing and stand-alone constructions. It is not the object of the present invention to specify a specific configuration of the support structure.
  • the present invention relates to an interface as an adapter between a handheld power tool and a support structure.
  • a system is also disclosed that comprises a handheld power tool, an interface and a support structure, the interface being set up to connect the handheld power tool to the support structure.
  • the first fastening means is designed as a hook, the hook being designed to be pushed under the tensioning strap of the handheld power tool.
  • the use of the existing tensioning strap with which a first handle is attached to the handheld power tool leads to synergistic effects and, surprisingly, also to a particularly stable mechanical connection between the first fastening means and the handheld power tool.
  • the tensioning band is preferably stretched tightly around a front part of the handheld power tool.
  • the first fastening means forms a first contact area between the handheld power tool and the interface. Tests have shown that the first fastening means can nevertheless be pushed under the tensioning strap without great effort in order to achieve a fastening effect.
  • the hook which can be used as the first fastening means, is fastened in a front part of the interface. It is preferably in spatial proximity to the setting means and is located on the underside of the interface, which preferably faces the handheld power tool when the interface is connected to the handheld power tool.
  • the hook preferably has a flat underside which is designed to be pushed under the tensioning strap. This flat underside of the hook is preferably formed essentially parallel to a preferably planar area of the upper side of the handheld power tool, so that the hook, tensioning strap and handheld power tool can come into good engagement with one another in order to establish a stable connection between the components.
  • the second fastening means is designed as a retaining eyelet, the retaining eyelet being able to be displaced axially along a virtual central axis that runs through the interface by means of a grid.
  • the second fastening means is designed to be movable, in particular displaceable, with respect to the interface. It can preferably be moved via a grid of the interface. Because the second fastening means can be displaced, its position in relation to the handheld power tool can be adapted to the center of gravity of the handheld power tool. For example, the second fastening means can be locked in the grid directly above the center of gravity of the handheld power tool.
  • the handheld power tool can be optimally balanced, as a result of which working with the handheld power tool can be made considerably easier for the user.
  • the second fastening means is designed to be movable along a central axis of the interface so that the position of the second fastening means can be adapted to a center of gravity of the handheld power tool.
  • the second fastening means is provided in particular for fastening the handheld power tool or the interface to the support structure.
  • a rope or another fastening component, for example, which can be connected to the support structure, can be passed through the holding eyelet.
  • the second fastening means can also be designed differently than as a retaining eyelet, as long as it is suitable for connecting the interface to a support structure.
  • the second fastening means is preferably moved along an axis which runs centrally or centrally through the interface.
  • the central axis is preferably also referred to as the longitudinal axis of the interface. The position of this central axis is in the Fig. 4 and 5 shown.
  • the second fastening means is preferably arranged movably between the front and rear regions of the interface. In the attached figures, the second fastening means is located essentially in the middle between the front and rear areas of the interface.
  • the interface has a front area and a rear area, the first fastening means and the optional adjustment means being arranged in the front area of the interface.
  • the counter structure is designed as a receiving area, it is preferably arranged in the rear region of the interface, while the counter structure is present in a front region of the interface if it is designed as a retaining ring.
  • the front area of the handheld power tool is preferably that part of the device on which the tool holder, a first handle, is located and the tightening strap securing the first handle are located.
  • the handheld power tool extends over a housing as far as a final rear area in which, for example, the second handle of the handheld power tool is arranged.
  • the front part of the handheld power tool and the front part of the interface, as well as the rear part of the handheld power tool and the rear part of the interface, preferably correspond to one another.
  • the term “correspond to one another” preferably means that these areas are in spatial proximity to one another when the handheld power tool is connected to the interface.
  • the reference clarifies the type of handheld power tool for which the proposed interface can be used, namely preferably those handheld power tools that have a first and a second handle, wherein the first handle can be designed as a side handle and fastened to the handheld power tool with a tensioning strap .
  • the reference specifies the features of the proposed interface and explains to the person skilled in the art about possible uses of the invention.
  • the setting means is designed as a knurled screw.
  • the specialist knows what a knurled screw is.
  • the knurled screw is used in the context of the present invention to adjust a distance between the first fastening means and the receiving area.
  • the knurled screw can alternatively be used to set a diameter of the retaining ring if the counter structure of the interface is designed as a size-adjustable retaining ring. This advantageously makes it possible for the interface to be used for many different handheld power tools or types of handheld power tools.
  • the interface can also have a knurled screw in order to set a distance between the hook and the counter structure, so that the interface can advantageously be used for various handheld power tools.
  • the counter structure can preferably be designed as a receiving area in order to receive part of the housing of the handheld power tool and to connect the interface to a rear area of the handheld power tool.
  • the counter structure can alternatively be designed as an exchangeable or size-adjustable retaining ring. It is preferred in the context of the invention that the retaining ring is arranged in a front region of the interface, preferably in spatial proximity to the first fastening means.
  • the setting means can be used to set a diameter of the retaining ring and thus to adapt it to the dimensions of the hand power tool that is to be connected to a support structure.
  • the invention represents an interface between a handheld power tool and a support structure or device.
  • the handheld power tool can be a drill, chisel or combination hammer or a hand-held core drilling device.
  • the first fastening means of the interface which can be designed as a front hook, for example, is clamped under the tensioning strap of the side handle of the handheld power tool.
  • Tension straps can preferably be used to attach handles or side handles to handheld power tools or to attach them to them.
  • a distance between the hook and the handle receptacle can be shortened or a diameter of the retaining ring can be set, as a result of which the tool is clamped in the receptacle device.
  • the adjustment means can be actuated in particular by turning the knurled screw, which can be used as an adjustment means.
  • the proposed interface can advantageously be used for different devices with different housing sizes. Since the various devices can have very different center of gravity, the retaining eyelet, which preferably forms the second fastening means, can be shifted in the axial direction using a grid.
  • This functionality of the invention is particularly user-friendly, because the center of gravity of the hand machine tool can change considerably, for example when using different tools such as drills, chisels or drill bits.
  • the movable second fastening means allows the user to easily and easily adjust the position of the holding eyelet to the possibly changed center of gravity of the handheld power tool when changing the tool of the handheld power tool and thus continue to work comfortably without a great deal of loss of time.
  • the handheld power tool can be easily balanced at any time by the displaceable second fastening means, as a result of which the handling of the handheld power tool is further significantly facilitated by the invention.
  • the invention in a second aspect, relates to a use of the proposed interface for fastening a handheld power tool to a support structure.
  • the use is characterized in that the interface has a second fastening means with which the interface can be fastened to a support structure.
  • the interface can in particular have a retaining eyelet in order to fasten the interface to the support structure.
  • Figure 1 shows views of various support structures (10) as they are known from the prior art.
  • the support structures (10) can be connected to handheld power tools (2), although so far technically satisfactory solutions have hardly been known to ensure a stable, secure and robust connection between the support structure (10) and the handheld power tool (2).
  • Such a technical solution which is also easy to use, allows adaptability of the position of the handheld power tool (2) in relation to the support structure (10) to the center of gravity of the handheld power tool (2) and is universal, i.e. for a particularly large number of different handheld power tools (2 ) or types of handheld power tools (2), can be used, is provided with the present invention.
  • This invention is shown in the Figures 2 to 5 shown.
  • the Figures 2 to 5 show a first embodiment of the invention in which a counter structure (11) is designed as a receiving area and is present in the rear area (17) of the interface (1).
  • a counter structure (11) is designed as a receiving area and is present in the rear area (17) of the interface (1).
  • Fig. 2 a side view of an exemplary hand machine tool (2) which is connected to a preferred embodiment of the proposed interface (1) (“connected state”).
  • the hand-held power tool (2) can be a power-operated device or a device with a mains connection.
  • the illustrated embodiment of the invention is the interface (1) on an upper side of the handheld power tool (2).
  • the handheld power tool (2) has a housing (3), a first handle (4) and a second handle (5), the first handle (4) being in a front area (8) of the handheld power tool (2) and with a
  • the tensioning band (6) is attached to the handheld power tool (2).
  • the tensioning strap (6) can be arranged circumferentially around the front area (8) of the handheld power tool (2), it usually being clamped firmly or tightly.
  • the first fastening means (7) of the interface (1) can be pushed between the tensioning strap (6) and the handheld power tool (2).
  • the first fastening means (7) can in particular be designed as a hook, so that a flat underside of the first fastening means (7) rests on a preferably flat section of the upper side of the handheld power tool (2). This creates a connection between the first fastening means (7) of the interface (1) and the handheld power tool (2).
  • the adjusting means (13a) which can be designed as a knurled screw, is also located in the front area (16) of the interface (1). With him / her, a distance between the first fastening means (7) and a receiving area of the interface (1) can be changed, wherein the receiving area can represent a counter structure (11) within the meaning of the invention.
  • the receiving area is preferably in a rear area (17) of the interface (1). If the interface (1) is to be connected to a hand machine tool (2), the distance between the first fastening means (7) and the receiving area can be shortened with the setting means (13a), so that the hand machine tool (2) is in the interface (1 ) is jammed or clamped.
  • the receiving area of the interface (1) can, for example, be at least partially hollow or have a cavity, the receiving area in this cavity being able to receive part of the machine tool (2) or the housing (3) of the handheld power tool (2).
  • the receiving area of the interface (1) can, for example, be at least partially hollow or have a cavity, the receiving area in this cavity being able to receive part of the machine tool (2) or the housing (3) of the handheld power tool (2).
  • the second handle (5) of the handheld power tool (2) is preferably located in a rear area (12) of the handheld power tool (2).
  • Fig. 3 shows an oblique front view of an exemplary handheld power tool (2), which is connected to the first preferred embodiment of the interface (1).
  • the contact areas (18, 19) are shown in Fig. 3 in particular the contact areas (18, 19).
  • the first contact area (18) is in the area of the tensioning strap (6) of the handheld power tool (2) or the first fastening means (7) of the interface (1), while the second contact area (19) is in the area of the receiving area trained basic structure (11) is present.
  • the contact areas (18, 19) there is preferably a contact between the interface (1) and the handheld power tool (2), ie in these areas (18, 19) the interface (1) and the handheld power tool (2) touch each other.
  • the first contact area (18) is preferably formed by the first fastening means (7), which is preferably designed as a hook, and the tensioning strap (6) or the handheld power tool (2), while the second contact area (19) is formed by the receiving area and the rear area (12 ) of the housing of the hand machine tool (2) is formed.
  • Fig. 4 shows a side view of the first preferred embodiment of the interface (1), the interface (1) in the in Fig. 4
  • the view shown is not connected to a handheld power tool (2) (“disconnected state”).
  • the left half of the image shows the front area (16) of the interface (1) and the right half of the image shows the rear area (17) of the interface (1).
  • the adjusting means (13a) and the first fastening means (7) are located in the front area (16) of the interface (1). In a particularly preferred embodiment of the invention, these can be formed by a knurled screw (13) and a hook (7).
  • the hook (7) is designed to come into engagement with a tensioning strap (6) of the handheld power tool (2).
  • the hook (7) in particular forms a first contact area (18) with the handheld power tool (2).
  • the setting means (13a) can be used to set a distance between the first fastening means (7) and the receiving area of the interface (1), the receiving area being in the rear area (17) of the interface (1).
  • the receiving area forms the counter structure (11) and is preferably set up to receive part of the handheld power tool (2) or a connection between the interface (1) and the rear area (12) of the handheld power tool (2) ) to produce.
  • the receiving area can preferably also be referred to as a “handle receptacle”.
  • the interface (1) In the upper area of the interface (1) there is a grid (14) which enables the second fastening means (9) to move axially along a central axis (15) of the interface (1).
  • the central axis (15) preferably runs essentially parallel to the grid (14) of the interface (1). Due to the movable design of the second fastening means (9), which can in particular be designed as a retaining eyelet, the position of the second fastening means (9) can be adapted to the center of gravity of the handheld power tool (2).
  • the second fastening means (9) is provided in particular to connect the handheld power tool (2) to a support structure (10).
  • Fig. 5 shows a top view of the first preferred embodiment of the interface (1).
  • the interface (1) shown in particular, clearly shows the position and the course of the central axis (15) of the interface (1).
  • FIGS. 6 to 8 show a second embodiment of the invention, in which a counter structure (11) is designed as a retaining ring and is present in the front area (16) of the interface (1).
  • the retaining ring can be placed around the device neck of a handheld power tool (2) and adapted to the size or circumference of the handheld power tool neck using an adjusting means (13b).
  • the first fastening means (7) which is preferably designed as a hook is, forms a first contact area (18) and is in spatial proximity to the counter structure designed as a retaining ring (11).
  • Fig. 7 shows an oblique front view of the second preferred embodiment of the interface (1).
  • the counter structure (11) which forms the second contact area (19) with the handheld power tool (2, not shown), is arranged in the front area (16) of the interface (1).
  • the contact is formed in particular by placing the retaining ring around the neck of the handheld power tool (2).
  • the retaining ring has a slot in its upper area, and the size of this slot-shaped opening can be adjusted. This is preferably done with the setting means (13b), which can in particular be designed as a knurled screw.
  • the setting means (13b) is set up to set a diameter of the basic structure (11) designed as a retaining ring, whereby the basic structure (11) or the device (1) can be adapted to different handheld power tools (2 ) or their dimensions can be adjusted.
  • the two contact areas (18, 19) are preferably used to provide stability to the system comprising handheld power tool (2) and interface (1).
  • the provision of two contact areas (18, 19) enables the hand-held power tool (2) to be suspended in the device (1) with little vibration.
  • the retaining ring of the basic structure (11) advantageously surrounds the neck of the handheld power tool (2), so that a particularly stable connection between the handheld power tool (2) and the device (1) can be achieved in this way.
  • Fig. 8 shows a side view of the second preferred embodiment of the interface (1).
  • the first fastening means (7) and the basic structure (11) can be clearly seen in the front area (16) of the interface (1), the first fastening means (7), which is preferably designed as a hook, having a first contact area (18) between the handheld power tool (2) and the device (1) forms, while the base structure (11), which is preferably designed as a retaining ring, forms a second contact area (19) between the handheld power tool (2) and the device (1).
EP20178884.1A 2020-06-09 2020-06-09 Dispositif de réception d'un outil d'une machine-outil portative Withdrawn EP3922416A1 (fr)

Priority Applications (6)

Application Number Priority Date Filing Date Title
EP20178884.1A EP3922416A1 (fr) 2020-06-09 2020-06-09 Dispositif de réception d'un outil d'une machine-outil portative
US17/925,945 US20230330830A1 (en) 2020-06-09 2021-05-28 Device for receiving a hand-held power tool
PCT/EP2021/064369 WO2021249791A1 (fr) 2020-06-09 2021-05-28 Dispositif pour recevoir un outil électrique portatif
CN202180040068.0A CN115666868A (zh) 2020-06-09 2021-05-28 用于接纳手持式动力工具的设备
JP2022570096A JP2023527513A (ja) 2020-06-09 2021-05-28 手持ち式動力工具受入装置
EP21727189.9A EP4161738B1 (fr) 2020-06-09 2021-05-28 Dispositif de réception d'un outil d'une machine-outil portative

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP20178884.1A EP3922416A1 (fr) 2020-06-09 2020-06-09 Dispositif de réception d'un outil d'une machine-outil portative

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EP3922416A1 true EP3922416A1 (fr) 2021-12-15

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EP20178884.1A Withdrawn EP3922416A1 (fr) 2020-06-09 2020-06-09 Dispositif de réception d'un outil d'une machine-outil portative
EP21727189.9A Active EP4161738B1 (fr) 2020-06-09 2021-05-28 Dispositif de réception d'un outil d'une machine-outil portative

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US (1) US20230330830A1 (fr)
EP (2) EP3922416A1 (fr)
JP (1) JP2023527513A (fr)
CN (1) CN115666868A (fr)
WO (1) WO2021249791A1 (fr)

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19902206A1 (de) * 1999-01-21 2000-08-03 Audi Ag Aufhängevorrichtung für ein Werkzeug
EP2439024A1 (fr) * 2010-10-07 2012-04-11 Makita Corporation Attachement de suspension pour un outil électrique et outil électrique équipé du même
US20170042314A1 (en) * 2015-08-12 2017-02-16 Tim Helton Cordless screwdriver assembly with arm stock having shoulder rest and sling
US20180084895A1 (en) * 2016-09-23 2018-03-29 Ty-Flot, Inc. Drop-prevention tool harness and method for pistol-grip hand tools
DE102016013145A1 (de) 2016-10-31 2018-05-03 Andreas Stihl Ag & Co. Kg Aufnahmeklammer für ein Arbeitsgerät, Anordnung aus Tragesystem für ein Arbeitsgerät und Aufnahmeklammer und Anordnung eines Tragesystems, einer Aufnahmeklammer und eines Arbeitsgerätes
US20190134806A1 (en) * 2017-11-07 2019-05-09 The Boeing Company Guide assembly and tool system for rotatably balancing a tool and a method for operating the same
EP3560660A1 (fr) * 2018-04-25 2019-10-30 HILTI Aktiengesellschaft Dispositif pour une machine-outil portative et machine-outil portative

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102004061522A1 (de) * 2004-12-21 2006-06-29 Hilti Ag Seitenhandgriff

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19902206A1 (de) * 1999-01-21 2000-08-03 Audi Ag Aufhängevorrichtung für ein Werkzeug
EP2439024A1 (fr) * 2010-10-07 2012-04-11 Makita Corporation Attachement de suspension pour un outil électrique et outil électrique équipé du même
US20170042314A1 (en) * 2015-08-12 2017-02-16 Tim Helton Cordless screwdriver assembly with arm stock having shoulder rest and sling
US20180084895A1 (en) * 2016-09-23 2018-03-29 Ty-Flot, Inc. Drop-prevention tool harness and method for pistol-grip hand tools
DE102016013145A1 (de) 2016-10-31 2018-05-03 Andreas Stihl Ag & Co. Kg Aufnahmeklammer für ein Arbeitsgerät, Anordnung aus Tragesystem für ein Arbeitsgerät und Aufnahmeklammer und Anordnung eines Tragesystems, einer Aufnahmeklammer und eines Arbeitsgerätes
US20190134806A1 (en) * 2017-11-07 2019-05-09 The Boeing Company Guide assembly and tool system for rotatably balancing a tool and a method for operating the same
EP3560660A1 (fr) * 2018-04-25 2019-10-30 HILTI Aktiengesellschaft Dispositif pour une machine-outil portative et machine-outil portative

Also Published As

Publication number Publication date
EP4161738B1 (fr) 2024-04-17
US20230330830A1 (en) 2023-10-19
JP2023527513A (ja) 2023-06-29
CN115666868A (zh) 2023-01-31
EP4161738A1 (fr) 2023-04-12
WO2021249791A1 (fr) 2021-12-16

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