Source: http://www.google.com/patents/US20030188877?ie=ISO-8859-1
Timestamp: 2015-08-01 04:43:17
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Matched Legal Cases: ['art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 16', 'art 18']

Patent US20030188877 - Hand machine tool with a removeable tool holder - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsThe invention is based on a hand power tool comprising a striking element via which a tool (10) in a tool holder (12) can be driven in striking fashion, which said tool holder can be detachably secured—via its body (14)—to a drive part (16) via at least one locking element (18), which said locking...http://www.google.com/patents/US20030188877?utm_source=gb-gplus-sharePatent US20030188877 - Hand machine tool with a removeable tool holderAdvanced Patent SearchPublication numberUS20030188877 A1Publication typeApplicationApplication numberUS 10/343,365PCT numberPCT/DE2001/003415Publication dateOct 9, 2003Filing dateSep 6, 2001Priority dateSep 22, 2000Also published asCN1241714C, CN1461249A, DE10047021A1, EP1370389A1, EP1370389B1, US7360606, WO2002024403A1Publication number10343365, 343365, PCT/2001/3415, PCT/DE/1/003415, PCT/DE/1/03415, PCT/DE/2001/003415, PCT/DE/2001/03415, PCT/DE1/003415, PCT/DE1/03415, PCT/DE1003415, PCT/DE103415, PCT/DE2001/003415, PCT/DE2001/03415, PCT/DE2001003415, PCT/DE200103415, US 2003/0188877 A1, US 2003/188877 A1, US 20030188877 A1, US 20030188877A1, US 2003188877 A1, US 2003188877A1, US-A1-20030188877, US-A1-2003188877, US2003/0188877A1, US2003/188877A1, US20030188877 A1, US20030188877A1, US2003188877 A1, US2003188877A1InventorsDietmar Saur, Axel Kuhnle, Helmut WanekOriginal AssigneeDietmar Saur, Axel Kuhnle, Helmut WanekExport CitationBiBTeX, EndNote, RefManPatent Citations (5), Referenced by (5), Classifications (15), Legal Events (2) External Links: USPTO, USPTO Assignment, EspacenetHand machine tool with a removeable tool holder
US 20030188877 A1Abstract
The invention is based on a hand power tool comprising a striking element via which a tool (10) in a tool holder (12) can be driven in striking fashion, which said tool holder can be detachably secured—via its body (14)—to a drive part (16) via at least one locking element (18), which said locking element, in its engaged position, is capable of being fixed in position radially by a retaining element (20), which said retaining element is capable of being guided by means of an operating element (22) out of its locked position into a release position that radially releases the locking element (18) in order to release the tool holder (12), whereby the retaining element (20) is capable of being moved by a corresponding component (14) into its release position against a spring force of a spring element (24) when the tool holder (12) is pushed onto the drive part (18). It is proposed that the retaining element (20) is captively held on the drive part (16) and is capable of being guided into its release position by the operating element (22) in the push-on direction (26) of the tool holder (12) against a spring force of a spring element (24). Images(4) Claims(5)
What is claimed is: 1. A hand power tool, in particular a drilling and/or chipping hammer, comprising a striking element via which a tool (10) in a tool holder (12) can be driven in striking fashion, which said tool holder can be detachably secured—via its body (14)—to a drive part (16) via at least one locking element (18), which said locking element, in its engaged position, is capable of being fixed in position radially by a retaining element (20), which said retaining element is capable of being guided by means of an operating element (22) out of its locked position into a release position that radially releases the locking element (18) in order to release the tool holder (12), whereby the retaining element (20) is capable of being moved by a corresponding component (14) into its release position against a spring force of a spring element (24) when the tool holder (12) is pushed onto the drive part (18), wherein the retaining element (20) is captively held on the drive part (16) and is capable of being guided into its release position by the operating element (22) in the push-on direction (26) of the tool holder (12) against a spring force of a spring element (24). 2. The hand power tool according to claim 1, wherein the body (14) of the tool holder (12)—when fastened in place—surrounds at least a portion of the drive part (16). 3. The hand power tool according to claim 2, wherein the locking element (18) is captively held on the body (14) of the tool holder (12). 4. The hand power tool according to claim 3, wherein a component that is actively connected at least with the drive part (16) moves the locking element (18) radially outwardly when the tool holder (12) is pushed on, and the locking element (18) moves the retaining element (20) out of its locked position into its release position. 5. The hand power tool according to claim 4, wherein, when the tool holder (12) is pushed on, a toothing (28) integrally molded on the drive part (16) moves the locking element (18) radially outwardly. Description
BACKGROUND OF THE INVENTION [0001] The invention is based on a hand power tool with a removable tool holder according to the preamble of claim 1. [0002] A hand power tool with a removable tool holder was made known in DE 196 21 610 A1. The hand power tool comprises a spindle sleeve into which a body of the tool holder can be inserted and that can be locked in position by means of locking elements. The locking elements are captively held in the spindle housing and, in a locked position, they are covered radially by a retaining element. To remove the tool holder, the retaining element is capable of being moved axially via an operating sleeve into a position that radially releases the locking elements. ADVANTAGES OF THE INVENTION [0003] The invention is based on a hand power tool, in particular a drilling and/or chipping hammer, comprising a striking element via which a tool in a tool holder can be driven in striking fashion, which said tool holder can be detachably secured—via its body—to a drive part via at least one locking element, which said locking element, in its engaged position, is capable of being fixed in position radially by a retaining element, which said retaining element is capable of being guided by means of an operating element out of its locked position into a release position that radially releases the locking element in order to release the tool holder, whereby the retaining element is capable of being moved by a corresponding component into its release position against a spring force of a spring element when the tool holder is pushed onto the drive part. [0004] It is proposed that the retaining element is captively held on the drive part and is capable of being guided into its release position by the operating element in the push-on direction of the tool holder against a spring force of a spring element. The direction of operation of the operating element to release the retaining element of the tool holder is advantageously directed against a no-load operation impulse acting in the direction of operation; as a result of this, the tool holder can be reliably prevented from becoming detached on its own, and—in the case of powerful drilling and chipper hammers in particular—a secure fastening of the removable tool holder can be obtained. [0005] By being arranged on the drive part, the retaining element can be advantageously moved automatically into its release position by a component on the tool holder when the tool holder is fastened in place. With automatic release, a release motion of the retaining element to secure the tool mount to the drive part, and, with manual release, a release motion of the retaining element to remove the tool holder from the drive part can be advantageously carried out in the same direction and against the same compression spring. [0006] If the body of the tool holder—when fastened in place—surrounds at least a portion of the drive part, a particularly robust and structurally simple embodiment can be obtained. A gap seal can be formed between a punch dolly of the striking element and the drive part that protects a drive unit of the hand power tool against contamination. Wear can be minimized, and any damage caused when the tool is inserted can be prevented. Moreover, the locking element can be advantageously secured to the body of the tool holder; this allows the locking element to be replaced easily, as necessary, or it can be replaced with the tool holder. [0007] In a further embodiment of the invention, it is proposed that a component that is actively connected at least with the drive part, and, particularly advantageously, a toothing integrally molded on the drive part move the locking element radially outwardly when the tool holder is pushed on, and the locking element moves the retaining element out of its locked position into its release position. Additional components, space, weight, and assembly expense can be spared. It is also feasible, however, that, when the tool holder is pushed on, the retaining element is guided out of its locked position and into its release position by a component that is separate from the locking element.
SUMMARY OF THE DRAWINGS [0008] Further advantages result from the following description of the drawings. An exemplary embodiment of the invention is shown in the drawings. The drawings, the description, and the claims contain numerous features in combination. One skilled in the art will advantageously consider them individually as well and combine them into reasonable further combinations. [0009]FIG. 1 is a schematic view of a drilling hammer, [0010]FIG. 2 is a sectional detail view of Section II of the drilling hammer in FIG. 1 with a removable tool holder, [0011]FIG. 3 shows the tool holder in FIG. 2 in the manually released state, [0012]FIG. 4 shows the tool holder in FIG. 2 being removed from a drive part, and [0013]FIG. 5 shows the tool mount in FIG. 2 being pushed onto the drive part.
DESCRIPTION OF THE PREFERRED EMBODIMENTS [0014]FIG. 1 shows a drilling hammer comprising an electric motor (not shown) in a housing 30, and comprising a gearbox and a striking element via which a tool 10 or a drill bit mounted in a tool holder 12 is capable of being driven in rotating and striking fashion. A first handle 34 extending perpendicularly to the direction of operation 32 is secured to the housing 30 away from a direction of operation 32 after the tool holder 12. Located on a side of the housing 30 furthest away from the tool 10 is a second, U-shaped handle 36 extending perpendicularly to the direction of operation 32 that is interconnected—at a first end furthest away from a tool axis—with the housing 30 via a hinge 60 having a pivot axis extending transversely to the direction of operation 32. At a second end, the handle 36 is interconnected with the housing 30 via an insulating device 38. An operating switch 62 formed by a rocker is located on the handle 36. [0015] The tool holder 12 is detachably secured—with its body 14—to a drive part 16 formed by a spindle tube via three locking elements 18 distributed evenly around the circumference (FIG. 2). In the direction toward the drive part 16, the body 14 has a larger diameter than the drive part 16, and it surrounds said drive part. A punch dolly 44 of the not-shown striking element is located radially inside the drive part 16, and a gap seal 46 is formed between the punch dolly 44 and the drive part 16. [0016] Each of the locking elements 18 designed as balls are located in recesses 40 in the body 14 of the tool holder 12 and engage radially inwardly in hemispherical recesses 42 formed in the drive part 16. It would be feasible, in principle, to replace the hemispherical recesses with a full-perimeter groove. The hemispherical recesses 42 are located in the push-on direction 26 of the tool holder 12 after an outer toothing 28 integrally molded on the drive part 16. [0017] The motion of the locking elements 18 is blocked radially outwardly by an annular retaining element 20, and they are fixed in position in their engaged position, which said retaining element radially covers the locking element 18. The body 14 of the tool holder 12 is firmly interconnected in the axial direction and in the direction of rotation with the body 14 of the tool holder 12 via the locking element 18. Moreover, the body 14 is firmly interconnected in the direction of rotation with the drive part 16 via an inner toothing 64 integrally molded on the body 14, which said inner toothing engages in the outer toothing 28 integrally molded on the drive part 16. [0018] The retaining element 20 is captively held against the drive part 16 and, in fact, inside a movably supported operating sleeve 22, and, to release the tool holder 12, it is capable of being guided out of its locked position and into its release position by the operating sleeve 22 in the push-on direction 26 of the tool holder 12 against a spring force of a helical compression spring 24 (FIG. 3). The helical compression spring 24 bears with one end against a projection 50 of the drive part 16 via a disk 48 in the push-on direction 26. The disk 48 is secured in the direction of operation 32 via a retainer 52 on the drive part 16. With a second end, the helical compression spring 24 acts in the direction of operation 32 on the retaining element 20, which—on the side closest to the tool 10 on its outer circumference—acts via a circlip 54 on the operating sleeve 22 that—when the tool holder 12 has been attached (FIG. 1)—bears against the drive part 16 in the direction of operation 32 with a radially inwardly pointing collar 56 via the disk 48 and the retainer 52. [0019] When the operating sleeve 22 is moved manually in the push-on direction 26 to release the tool holder 12, the retaining element 20 is carried with the operating sleeve 22 via the circlip 54 and it is moved into its release position against the helical compression spring 24 (FIG. 3). Finally, when the tool holder 12 is pulled off of the drive part 16, the locking elements 18 can be displaced radially outwardly out of the recesses 42 in the direction of operation 32 (FIG. 4). The locking elements 18 are captively held in the recesses 40 in the body 14 of the tool holder 12 and, in fact, radially inwardly by means of integral constrictions in the recesses 40 and, radially outwardly, by means of a circlip 58 attached to the body 14. [0020] When the body 14 of the tool holder 12 is pushed onto the drive part 16 in the push-on direction 26, the tool holder 12 is turned until the inner toothing 64 integrally molded on the body 14 can mesh with the outer toothing 28 integrally molded on the drive part 16. During the push-on motion, the locking elements 18 are displaced radially outwardly by the outer toothing 28 of the drive part 16, and they come to bear against the retaining element 20. When the push-on motion continues, the retaining element 20 is moved by the locking element 18 into its release position and, in fact, automatically and/or without operating the operating sleeve 22 manually (FIG. 5). If the locking elements 18 come to rest in the drive part 16 via the hemispherical recesses 42, they are displaced radially inwardly into the hemispherical recesses 42 by the helical compression spring 24 via the retaining element 20. The helical compression spring 24 then moves the retaining element 20 radially into its locked position via the locking elements 18, and the tool holder 12 is fixed in position on the drive part 16. Reference Numerals 10 Tool 12 Tool holder 14 Body 16 Drive part 18 Locking element 20 Retaining element 22 Operating element 24 Spring element 26 Push-on direction 28 Toothing 30 Housing 32 Direction of operation 34 Handle 36 Handle 38 Insulating device 40 Recess 42 Recess 44 Punch dolly 46 Gap seal 48 Disk 50 Projection 52 Retainer 54 Circlip 56 Collar 58 Circlip 60 Hinge 62 Operating switch 64 Inner teeth Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS2151733May 4, 1936Mar 28, 1939American Box Board CoContainerCH283612A * Title not availableFR1392029A * Title not availableFR2166276A1 * Title not availableGB533718A Title not available* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS7258349 *May 11, 2004Aug 21, 2007Robert Bosch GmbhHand power toolUS7644929Jul 1, 2005Jan 12, 2010Robert Bosch GmbhHand-held power tool with a replaceable tool fittingUS7931667 *Dec 6, 2004Apr 26, 2011Richard Wolf GmbhMedical instrumentUS8813868May 8, 2009Aug 26, 2014Milwaukee Electric Tool CorporationAuxiliary handle for use with a power toolUS20040245731 *May 11, 2004Dec 9, 2004Karl FrauhammerHand power tool* Cited by examinerClassifications U.S. Classification173/13, 173/15International ClassificationB23B45/16, B23Q3/12, B25D17/08Cooperative ClassificationY10T279/17042, Y10T279/17145, B25D17/088, Y10T408/95, B23Q3/12, Y10T279/17085, Y10T408/94, Y10T279/17076European ClassificationB25D17/08R4, B23Q3/12Legal EventsDateCodeEventDescriptionJan 30, 2003ASAssignmentOwner name: ROBERT BOSCH GMBH, GERMANYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:SAUR, DIETMAR;KUHNLE, AXEL;WANEK, HELMUT;REEL/FRAME:014092/0104;SIGNING DATES FROM 20021211 TO 20021213Oct 13, 2011FPAYFee paymentYear of fee payment: 4RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services