EP1712335A2 - Portable work bench - Google Patents
Portable work bench Download PDFInfo
- Publication number
- EP1712335A2 EP1712335A2 EP06118238A EP06118238A EP1712335A2 EP 1712335 A2 EP1712335 A2 EP 1712335A2 EP 06118238 A EP06118238 A EP 06118238A EP 06118238 A EP06118238 A EP 06118238A EP 1712335 A2 EP1712335 A2 EP 1712335A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- work bench
- disposed
- work
- bracket
- extension arm
- 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.)
- Granted
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25H—WORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
- B25H1/00—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby
- B25H1/10—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby with provision for adjusting holders for tool or work
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25H—WORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
- B25H1/00—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby
- B25H1/02—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby of table type
- B25H1/04—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby of table type portable
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25H—WORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
- B25H1/00—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby
- B25H1/06—Work benches; Portable stands or supports for positioning portable tools or work to be operated on thereby of trestle type
Definitions
- This invention relates generally to work benches and more particularly to a portable work bench that can support a power tool and a workpiece.
- the users require a work surface at the work site to support the power tools for use.
- the work surface is at a certain height so that the user can comfortably use the power tool.
- the work surface should also be sufficiently portable to be easily moved around a work site.
- an improved portable work bench may include a beam, legs for supporting the beam, and at least one bracket having first and second surfaces for contacting respective first and second sides of the beam, wherein the second surface is movable between a first position contacting the second side of the beam, and a second position not contacting the second side of the beam.
- a portable work bench 10 of the present invention is designed to carry a chop saw 100 and/or a workpiece (not shown).
- the work bench 10 can support any power tool, such as a sliding compound miter saw, a drill press, a table saw, etc., any hand tools, or anything else that may need to be supported.
- the work bench 10 has a structural body 11 and at least one mounting bracket 20 disposed on the structural body 11.
- the structural body 11 supports two mounting brackets 20.
- the structural body 11 is preferably elongated and tubular, and may have a thin wall which substantially defines the outer perimeter thereof. Such body 11 can withstand substantial amounts of torsional and lateral loads applied thereto. Body 11 can be made of extruded aluminum, bent metal, fabricated sheet metal, etc.
- Body 11 may have rails 11 R and/or channels 11TC, 11SC, 11BC to connect elements thereto, as explained below.
- body 11 may have two chambers 11C for wholly or partially receiving extension arm assemblies 70, as discussed below.
- Body 11 may also have a central wall 11 W to divide the chambers 11C and/or increase the rigidity of body 11.
- the work bench 10 may have leg assemblies 30 for supporting the structural body 11 and mounting brackets 20 (and thus the chop saw 100 and/or workpiece).
- the leg assemblies 30 may include a leg 31 pivotally connected to the body 11 via brackets 32, 33.
- leg 31 is made of metal, such as extruded aluminum.
- the cross-section of leg 31 may be round or ob-round (with two opposing substantially flat sides), such as shown in FIG. 4.
- Leg 31 may have an end 31 R, which may be made of an elastomeric material, a plastic or rubber.
- the end 31 R is made of a material that prevents slippage of the leg 31 along a floor or other supporting surface.
- Bracket 32 may wrap around the end of body 11.
- bracket 32 is made of metal, such as sheet steel.
- Bracket 32 may also be shaped so that it matches the upper profile of body 11.
- bracket 32 is attached to body 11 via screws 32S, which may extend through bracket 32 and into channels 11SC of body 11, and threadingly engage nuts 32N disposed in channels 11SC.
- screws 32S may be disposed in channels 11SC, extend through bracket 32 and threadingly engage nuts 32N disposed on bracket 32.
- washers may be provided between screws 32S, bracket 32, body 11 and nuts 32N as necessary.
- bracket 33 may be made of metal, such as sheet steel.
- bracket 32 is attached to body 11 via screws 33S, which may extend through bracket 33 and into channel 11BC of body 11, and threadingly engage nuts 33N disposed in channels 11SC.
- screws 33S may be disposed in channels 11BC, extend through bracket 33 and threadingly engage nuts 33N disposed on bracket 33.
- washers may be provided between screws 33S, bracket 33, body 11 and nuts 33N as necessary.
- leg 31 may be pivotally connected to brackets 32, 33 via screws 31 S, which may extend through bracket 32, leg 31 and bracket 33, and threadingly engage nuts 31 N disposed on bracket 33, or vice versa.
- screws 31 S which may extend through bracket 32, leg 31 and bracket 33, and threadingly engage nuts 31 N disposed on bracket 33, or vice versa.
- washers may be provided between screws 31 S, brackets 32, 33, leg 31 and nuts 31 N as necessary.
- detent mechanism 35 includes a detent pin 35P, which engages a hole 32H in bracket 32.
- Detent pin 35P may be spring-biased towards engagement with hole 32H via a spring 35S.
- a retainer 35R such as a C- or E-clip, may be disposed between pin 35P and leg 31, to prevent escape of the pin 35P.
- the pin 35P and hole 32H may be disposed alternatively on bracket 32 and leg 31, respectively.
- a power tool 100 may be mounted to workbench 10 via mounting brackets 20.
- Mounting brackets 20 may mount onto beam 11.
- the mounting brackets 20 engage the top and/or outside of rails 11 R.
- the mounting brackets 20 could engage the insides of rails 11 R, i.e., channel 11TC.
- Mounting bracket 20 may have a body 21, which may be made of a metal, such as extruded aluminum, sheet steel, etc.
- Body 21 may have slots 22 for mounting the power tool 100.
- the power tool 100 may be mounted onto body 21 with nuts 100N and bolts 100B.
- Bolt 100B may extend upwardly through slot 22 and through a hole in power tool 100, and threadingly engage nut 100N.
- bolt 100B may extend downwardly through a hole in power tool 100 and slot 22, and threadingly engage nut 100N.
- mounting bracket 20 preferably engages rails 11 R between a glide strip 25 and a lever 24.
- both the glide strip 25 and the lever 24 are made of plastic, such as nylon.
- Glide strip 25 is preferably attached to body 21 via a bolt 25B, and an undercut 21 U.
- lever 24 is pivotally attached to body 21 via a bolt 24B, or a boss.
- lever 24 is biased towards contact with rail 11 R.
- This may be achieved with a spring 27, 27'.
- a spring 27 may be captured between a bent tab 23 and a lever boss 24BB.
- a leaf spring 27' may be captured by a bolt 28 and washer 28W threadingly engaging the lever 24' (see FIG. 8).
- Spring 27' may be fixed or riveted to body 21 at the other end. Alternatively, if the bend on spring 27' is deep enough, the upper end of spring 27' may stay in place without requiring any fixing means.
- the user can easily dispose the power tool 100 on beam 11. All the user needs to do is pull on levers 24, and put mounting brackets 20 (and power tool 100) on beam 11. To remove the power tool 100 from beam 11, the user needs only to pull on levers 24, and lift mounting brackets 20 (and power tool 100) from beam 11.
- the manufacturer can use a stronger spring 27, 27'.
- the manufacturer can change the shape of lever 24, 24' so that tab 24T (FIG. 8) does not contact body 21, allowing lever 24 to contact beam 11 with full spring force.
- the manufacturer can change the composition of glide strip 25 and/or lever 24, 24' so that they are "grippier” and less prone to sliding. Accordingly, the user can slide the mounting brackets 20 (and thus power tool 100) only when the user pivots levers 24. When the user releases levers 24, however, the mounting brackets 20 in effect lock in place.
- the manufacturer can use a weaker spring 27, 27'.
- the manufacturer can change the shape of lever 24, 24' so that tab 24T (FIG. 8) contacts body 21, preventing lever 24 to contact beam 11 with full spring force.
- the manufacturer can change the composition of glide strip 25 and/or lever 24, 24' so that they are more slippery and more prone to sliding. Accordingly, the user can slide the mounting brackets 20 (and thus power tool 100) longitudinally at any time.
- locating mechanism 15 may include a clip 15C, which is preferably made of metal, such as sheet steel, or plastic.
- the clip 15C may be held in place by a screw 15S, which may extend through clip 15C and into channel 11SC, and threadingly engage a nut 15N.
- a screw 15S may extend through clip 15C and into channel 11SC, and threadingly engage a nut 15N.
- the head of screw 15S may be disposed within channel 11SC, so that the screw 15S extends outwardly through clip 15C and threadingly engage nut 15N.
- Clip 15C may have wings 15CW extending therefrom.
- wings 15CW extend from both sides of clip 15C. Accordingly, a user can locate bracket 20 on clip 15C by disposing bracket 20 between the two wings 15CW.
- Wings 15CW may be inclined at an acute angle from the longitudinal axis of beam 11.
- Intermediate wings 15CW' may also be disposed between clip 15C and wings 15CW.
- Intermediate wings 15CW' may be disposed at an angle steeper than the acute angle of wings 15CW.
- intermediate wings 15CW' are substantially perpendicular to the longitudinal axis of beam 11, whereas wings 15CW may be inclined at an angle of about 45°. Having such difference in angles may assist the user in locating clip 15C with bracket 20.
- the distance between intermediate wings 15CW' is about or larger than the width of bracket 20. Accordingly, if a bracket 20 is disposed on clip 15C between intermediate wings 15CW', the bracket 20 will have a small range of movement. Therefore, the bracket 20 is effectively limited in travel.
- a power tool 100 may be slidably disposed at any position on beam 11.
- the movement of power tool 100 (and mounting brackets 20) will be limited only when one bracket 20 is disposed on a clip 15C.
- bracket 20 is preferably covered by bracket 20 when bracket 20 is installed on clip 15C.
- Brackets 20 may also have feet 26 attached thereto, so that, when power tool 100 and brackets 20 are removed from beam 11, the user can disposed the power tool 100 and brackets 20 on a surface for further cutting, etc.
- Feet 26 may be made of rubber or other elastomeric material.
- feet 26 may be attached to body 21 via bolts 26B.
- bracket 32 may have a portion 32P, which may match the upper profile of beam 11. However, portion 32P may have tabs 32T extending below the rails 11 R. Such tabs 32T prevent brackets 20 from being moved beyond the end of beam 11.
- beam 11 may also have a handle 16.
- the handle 16 is bolted onto beam 11.
- handle 16 may be bolted directly onto beam 11, or via a screw/nut assembly in combination with channel 11BC, such as the one used for attaching bracket 33.
- channel 11BC such as the one used for attaching bracket 33.
- providing handle 16 on the underside of beam 11 will not inconvenience work being conducted on or above beam 11.
- workbench 10 may have extension arm assemblies 70 on both ends thereof.
- An extension arm assembly 70 may include an extension arm 71, which telescopes within channel 11C in a retracted position and extends beyond the end of beam 11 in an extended position.
- Extension arm 71 may be made of a composite material, or a metal, such as steel or aluminum.
- An end cap 71C may be disposed at one end of extension arm 71.
- end cap 71C is attached to arm 71 via bolt 71 CB.
- End cap 71C may be made of plastic to facilitate movement of arm 71 along channel 11C.
- sliding buttons or glides can be disposed instead of end cap 71C. These glides may be made of plastic, such as nylon or UHMW.
- an end cap 72 may be disposed at the other end of arm 71.
- End cap 72 is preferably made of metal, such as cast aluminum. End cap 72 may be attached to arm 71 via bolt 72B.
- end cap 72 has upper surfaces 72U which are substantially coplanar to the corresponding upper surfaces of rails 11 R.
- end cap 72 may have bottom surfaces 72B which are substantially coplanar with the corresponding surfaces of channel 11TC.
- work support assembly 80 FIG. 1
- the length of each arm 71 is preferably more than half of length A. Accordingly, when both arms 71 are retracted, a portion of one arm 71 will overlap a portion of the other. However, when both arms 71 are expanded, the total length A' of beam 11 and caps 72 would be at least about twice length A. Persons skilled in the art will recognize that, if the lengths of arms 71 is maximized for maximum length without being longer than beam 11, the total length A' will be between about 2-3 times length A.
- arm locking mechanism 90 is discussed below. Referring to FIGS. 1-2, 12 and 15-17, arm locking mechanism 90 is preferably disposed on bracket 32. A first embodiment of locking mechanism 90 is shown in FIGS. 15-16, whereas a second embodiment of the mechanism is shown in FIGS. 1-2, 12 and 17.
- arm locking mechanism 90 may include a housing 92, which is preferably bolted onto bracket 32 via bolts 92B.
- Housing 92 may be made of plastic, and may have an opening 920 for allowing arm 71 to extend therethrough.
- housing 92 may have bearing surfaces 92BS for supporting arm 71 and facilitating the sliding motion of arm 71 relative to channel 11C (and thus beam 11).
- Bearing surfaces 92BS are preferably made of plastic or nylon, and can be made integral to housing 92.
- a plate 98 may be disposed between bracket 32 and housing 92.
- Plate 98 may be integral to bracket 32, or it may be a separate piece that is preferably connected to bracket 32 via bolts 92B.
- Plate 98 may have an opening 980 for allowing arm 71 to extend therethrough.
- a cam 95 may be captured between plate 98 and housing 92.
- cam 95 is pivotally connected to housing 92 and/or plate 98 to allow rotation of cam 95 about an axis substantially parallel to the longitudinal axis of beam 11.
- Cam 95 may have a handle 95H to enable the user to rotate cam 95.
- Cam 95 may have a cam surface 95C which contacts a sliding lock 96.
- Lock 96 is preferably captured between plate 98 and housing so that it can slide towards and away from cam 95.
- Lock 96 may be made of plastic or rubber.
- Springs 97 may be disposed between lock 96 and plate 98 and/or housing 97 to bias lock 96 towards cam 95.
- cam handle 95H As handle 95H is rotated, cam 95 (and thus cam surface 95C) is rotated, pushing lock 96 towards openings 920, 980 (and thus towards arm 71), locking arm 71 in place.
- the user needs only to move handle 95H in the opposite direction, releasing the camming force, and allowing springs 97 to move lock 96 away from arm 71.
- FIGS. 1-2, 12 and 17 illustrate the second embodiment of arm locking mechanism 90, where like numerals refer to like parts. All the teachings of the first embodiment are incorporated herein by reference. Unlike in the first embodiment, the user rotates a knob 93, which is connected to bracket 32. Knob 93 may have an eccentric cam surface 93C, which is received within an opening 960 in lock 96.
- cam surface 93C is rotated, causing a translational movement of lock 96, thus locking arm 71 in place.
- the user need only rotate knob 93 in the opposite direction.
- the second embodiment has the advantage that, since cam surface 93C is captured within opening 960, springs 97 are not necessary. This is because the interaction between cam surface 93C and opening 960 retracts lock 96.
- a work support assembly 80 may be provided on end cap 78 and/or beam 11. As discussed above, work support assembly 80 may engage upper and bottom surfaces 72U, 72B and channel 11TC when disposed on end cap 72 and beam 11, respectively. This would allow work support assembly 80 to be movable between end cap 72 and beam 11, and vice versa, without removal therefrom when end cap 72 and beam 11 are located adjacent to each other, such as is shown in FIG. 12.
- Work support assembly 80 may include a lower body 81, which may be made of bent sheet metal, such as steel.
- Lower body 81 may have at least one slot 81 S, which is preferably substantially vertical.
- Lower body 81 may slidingly receive middle body 82, which may also be made of bent sheet metal, such as steel.
- Middle body 82 may also have at least one slot 82S, which is preferably substantially vertical and/or aligned with slot 81 S.
- the lower and middle bodies 81,82 may be held in place relative to each other by screws 81 B, which extend through slots 81 S, 82S and engage a nut 81 N or wingnut 81 W on the other side. Persons skilled in the art will recognize that such construction will allow a user to move lower and middle bodies 81,82 vertically relative to each other.
- An upper body 83 is preferably disposed on middle body 82.
- Upper body 83 may be made of bent sheet metal, such as steel.
- Upper body 83 may have slots 83S, which are preferably substantially horizontal.
- Middle and upper bodies 82,83 may be held in place relative to each other by screws 83B, which extend through slots 83S and holes 82H on middle body 82.
- Screws 83B may be held in place by nuts (not shown), which may be integral to middle body 82 or upper body 83, or may be separate therefrom.
- Upper body 83 may have an upper support surface 83SS for supporting a workpiece.
- support surface 83SS is substantially horizontal.
- An end stop 84 may be pivotally attached to upper body 83.
- screws 84B extend through stop 84, washers 84W (which may be made of nylon, plastic or metal), and upper body 83, and threadingly engage nuts (not shown).
- End stop 84 may have a substantially planar surface 84E.
- Surface 84E may be pivoted between first and second positions. In the first position, surface 84E will preferably be substantially vertical. In addition, surface 84E may face the power tool 100, so that it can contact the workpiece and act as an end stop. In the second position (shown in broken lines in FIG. 20C), surface 84E is below support surface 83SS (and thus below the workpiece). In other words, surface 84E is effectively bypassed, so that the workpiece contacts only support surface 83SS.
- support surface 83SS and/or surface 84E can be adjusted vertically and/or horizontally.
- Lower body 81 may have a lower plate 81 LP fixedly attached to lower body 81.
- Lower plate 81 LP may be welded or riveted to lower body 81.
- Lower plate 81 LP and/or lower body 81 may carry sliding pads 81 P and/or sliding rivets 81 SR for facilitating sliding of lower plate 81 LP and/or lower body 81 along beam 11.
- sliding pads 81 P and/or sliding rivets 81 SR are made of plastic, nylon, UHMW, etc.
- Lower body 81 may carry a screw, which extends into a cavity 81 PC formed by lower plate 81 LP, and threadingly engage a retaining nut 85N.
- Nut 85N may have flanges 85NF, which may extend through openings 81 NO and contact the underside of rails 11 R.
- Such screw may be a standard screw or thumbscrew. Accordingly, the user can rotate the screw, moving nut 85N (and flanges 85NF) upwardly into contact with the underside of rails 11 R, thus locking support assembly 80 in place.
- such screw may be an adjustable screw assembly 85, as shown in FIGS. 20B and 21.
- Adjustable screw assembly 85 may have a lower screw 85S for threadingly engaging nut 85N and an inner pistil 851 fixedly connected to screw 85S.
- Pistil 851 may be molded over screw 85S.
- Pistil 85 may have outer grooves 85IG formed thereon.
- an outer shell 850 may be slidably disposed on pistil 85I. Outer shell 850 preferably slides relative to pistil 851. Outer shell 850 may have protrusions 85OP which engage the grooves 85IG, for fixing the axial location of outer shell 850 relative to pistil 851. Outer shell 850 may also have a handle for rotating outer shell 850 with or without pistil 851.
- a spring 85OS may be disposed between pistil 851 and a washer 85W and/or outer shell 850 for biasing the outer shell 850 downwardly.
- spring 85OS may bias protrusions 85OP into engagement with grooves 85IG.
- the user may rotate screw assembly 85, moving nut 85N (and flanges 85NF) upwardly into contact with the underside of rails 11 R, thus locking support assembly 80 in place. If the user wants to adjust the axial position of handle 85H to obtain better leverage, the user needs to lift handle 85H and/or outer shell 850, rotate outer shell 850 relative to pistil 851, and release outer shell 850. Spring 85OS will then push outer shell 850 back into engagement with grooves 85IG of pistil 851.
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Abstract
Description
- The present application derives priority under 35 USC § 119(e) from
US Application Serial No. 60/304,556, filed July 11, 2001 - This invention relates generally to work benches and more particularly to a portable work bench that can support a power tool and a workpiece.
- It is common in the construction industry for users to bring their power tools to the work site. Thus, the users require a work surface at the work site to support the power tools for use. Preferably the work surface is at a certain height so that the user can comfortably use the power tool. In addition, the work surface should also be sufficiently portable to be easily moved around a work site.
- In the past, users have disposed their power tools on sheets of wood which are in turn supported by two or more sawhorses. This arrangement, however, lacks the strength and stability for efficient operation, as well as being difficult to set up and move around the work site.
- Accordingly, different support stands or work benches have been proposed in order to provide a portable work surface that can support a power tool. Some of these prior art solutions have been described in
U.S. Patents Nos. 1,864,840 ,4860,807 ,4,874,025 ,4,974,651 ,5,193,598 , and5,421,231 . However, these prior art solutions do not provide a platform supporting the power tool which can be moved horizontally so that the power tool can be moved without moving the workpiece. - Other prior art solutions, such as the one described in
U.S. Patent No. 5,592,981 , provide a platform supporting the power tool which can be moved horizontally so that the power tool can be moved without moving the workpiece. However, they require that the user insert and slide the platform from the end of the workbench towards the desired position on the workbench. - In accordance with the present invention, an improved portable work bench is employed. The workbench may include a beam, legs for supporting the beam, and at least one bracket having first and second surfaces for contacting respective first and second sides of the beam, wherein the second surface is movable between a first position contacting the second side of the beam, and a second position not contacting the second side of the beam.
- Additional features and benefits of the present invention are described, and will be apparent from, the accompanying drawings and the detailed description below.
- The accompanying drawings illustrate preferred embodiments of the invention according to the practical application of the principles thereof, and in which:
- FIG. 1 is a perspective view of a portable work bench of the present invention;
- FIG. 2 is a side view of the work bench of FIG. 1;
- FIG. 3 is a cross-sectional view of the work bench along line III-III of FIG. 2;
- FIG. 4 is a cross-sectional view along line IV-IV of FIG. 3;
- FIG. 5 is a top perspective view of a mounting bracket according to the present invention;
- FIG. 6 is a bottom perspective view of the first embodiment of FIG. 5;
- FIG. 7 is a partial cross-sectional view of a first embodiment of the mounting bracket of FIG. 5;
- FIG. 8 is a partial cross-sectional view of a second embodiment of the mounting bracket of FIG. 5;
- FIG. 9 is a close-up view of the area IX of FIG. 2;
- FIG. 10 is a cross-sectional view along line X-X of FIG. 9;
- FIG. 11 illustrates the stop tabs according to the present invention;
- FIG. 12 is a partial perspective view of the assemblies disposed on the end of the portable work bench;
- FIG. 13 is a partial side view of the assemblies disposed on the end of the portable work bench;
- FIG. 14 is a top view of the portable work bench;
- FIG. 15 illustrates a first embodiment of an extension arm lock assembly according to the invention;
- FIG. 16 illustrates the lock assembly of FIG. 15 without a cover;
- FIG. 17 illustrates a second embodiment of an extension arm lock assembly, where FIGS 17A-17B show the lock assembly with and without a cover, respectively;
- FIG. 18 is an exploded view of an extension arm assembly;
- FIG. 19 is a partial cross-sectional view along line XIX-XIX of FIG. 18;
- FIG. 20 illustrates a workpiece support assembly, where FIGS. 20A, 20B and 20C are exploded, front and side views of the assembly, respectively; and
- FIG. 21 is a cross-sectional view along line XXI-XXI of FIG. 20B.
- The invention is now described with reference to the accompanying figures, wherein like numerals designate like parts. Referring to FIGS. 1 and 8, a
portable work bench 10 of the present invention is designed to carry achop saw 100 and/or a workpiece (not shown). However, persons skilled in the art will recognize that thework bench 10 can support any power tool, such as a sliding compound miter saw, a drill press, a table saw, etc., any hand tools, or anything else that may need to be supported. - The
work bench 10 has a structural body 11 and at least onemounting bracket 20 disposed on the structural body 11. Preferably, the structural body 11 supports twomounting brackets 20. - Referring to FIG. 3, the structural body 11 is preferably elongated and tubular, and may have a thin wall which substantially defines the outer perimeter thereof. Such body 11 can withstand substantial amounts of torsional and lateral loads applied thereto. Body 11 can be made of extruded aluminum, bent metal, fabricated sheet metal, etc.
- Body 11 may have
rails 11 R and/or channels 11TC, 11SC, 11BC to connect elements thereto, as explained below. In addition, body 11 may have two chambers 11C for wholly or partially receivingextension arm assemblies 70, as discussed below. Body 11 may also have a central wall 11 W to divide the chambers 11C and/or increase the rigidity of body 11. - In addition, the
work bench 10 may have leg assemblies 30 for supporting the structural body 11 and mounting brackets 20 (and thus the chop saw 100 and/or workpiece). Referring to FIGS. 1-4, theleg assemblies 30 may include aleg 31 pivotally connected to the body 11 viabrackets - Preferably,
leg 31 is made of metal, such as extruded aluminum. The cross-section ofleg 31 may be round or ob-round (with two opposing substantially flat sides), such as shown in FIG. 4. -
Leg 31 may have anend 31 R, which may be made of an elastomeric material, a plastic or rubber. Preferably, theend 31 R is made of a material that prevents slippage of theleg 31 along a floor or other supporting surface. -
Bracket 32 may wrap around the end of body 11. Preferably,bracket 32 is made of metal, such as sheet steel.Bracket 32 may also be shaped so that it matches the upper profile of body 11. Preferably,bracket 32 is attached to body 11 viascrews 32S, which may extend throughbracket 32 and into channels 11SC of body 11, and threadingly engagenuts 32N disposed in channels 11SC. Persons skilled in the art should recognize thatscrews 32S may be disposed in channels 11SC, extend throughbracket 32 and threadingly engagenuts 32N disposed onbracket 32. Persons skilled in the art should also recognize that washers may be provided betweenscrews 32S,bracket 32, body 11 andnuts 32N as necessary. - Similarly,
bracket 33 may be made of metal, such as sheet steel. Preferably,bracket 32 is attached to body 11 viascrews 33S, which may extend throughbracket 33 and into channel 11BC of body 11, and threadingly engagenuts 33N disposed in channels 11SC. Persons skilled in the art should recognize thatscrews 33S may be disposed in channels 11BC, extend throughbracket 33 and threadingly engage nuts 33N disposed onbracket 33. Persons skilled in the art should also recognize that washers may be provided betweenscrews 33S,bracket 33, body 11 andnuts 33N as necessary. - As mentioned above,
leg 31 may be pivotally connected tobrackets bracket 32,leg 31 andbracket 33, and threadingly engage nuts 31 N disposed onbracket 33, or vice versa. Persons skilled in the art should also recognize that washers may be provided between screws 31 S,brackets leg 31 and nuts 31 N as necessary. - It is preferable to provide
leg assembly 30 with adetent mechanism 35 to maintain theleg 31 in predetermined positions.Different detent mechanisms 35 may be found inUS Patents Nos. 4,605,099 and5,592,981 , which are hereby incorporated by reference. Preferably,detent mechanism 35 includes adetent pin 35P, which engages ahole 32H inbracket 32.Detent pin 35P may be spring-biased towards engagement withhole 32H via aspring 35S. Aretainer 35R, such as a C- or E-clip, may be disposed betweenpin 35P andleg 31, to prevent escape of thepin 35P. Persons skilled in the art should recognize that thepin 35P andhole 32H may be disposed alternatively onbracket 32 andleg 31, respectively. - Referring to FIGS. 1 and 5-8, a
power tool 100 may be mounted toworkbench 10 via mountingbrackets 20. Mountingbrackets 20 may mount onto beam 11. Preferably, the mountingbrackets 20 engage the top and/or outside of rails 11 R. Alternatively, the mountingbrackets 20 could engage the insides ofrails 11 R, i.e., channel 11TC. - Mounting
bracket 20 may have abody 21, which may be made of a metal, such as extruded aluminum, sheet steel, etc.Body 21 may haveslots 22 for mounting thepower tool 100. As shown in FIG. 8, thepower tool 100 may be mounted ontobody 21 with nuts 100N and bolts 100B. Bolt 100B may extend upwardly throughslot 22 and through a hole inpower tool 100, and threadingly engage nut 100N. Alternatively, bolt 100B may extend downwardly through a hole inpower tool 100 andslot 22, and threadingly engage nut 100N. - Referring to FIGS. 5-8, mounting
bracket 20 preferably engagesrails 11 R between aglide strip 25 and alever 24. Preferably, both theglide strip 25 and thelever 24 are made of plastic, such as nylon.Glide strip 25 is preferably attached tobody 21 via a bolt 25B, and an undercut 21 U. On the other hand,lever 24 is pivotally attached tobody 21 via abolt 24B, or a boss. - Preferably,
lever 24 is biased towards contact withrail 11 R. This may be achieved with aspring 27, 27'. Referring to FIG. 7, aspring 27 may be captured between abent tab 23 and a lever boss 24BB. Alternatively, a leaf spring 27' may be captured by abolt 28 andwasher 28W threadingly engaging the lever 24' (see FIG. 8). Spring 27' may be fixed or riveted tobody 21 at the other end. Alternatively, if the bend on spring 27' is deep enough, the upper end of spring 27' may stay in place without requiring any fixing means. - With such construction, the user can easily dispose the
power tool 100 on beam 11. All the user needs to do is pull onlevers 24, and put mounting brackets 20 (and power tool 100) on beam 11. To remove thepower tool 100 from beam 11, the user needs only to pull onlevers 24, and lift mounting brackets 20 (and power tool 100) from beam 11. - Persons skilled in the art should recognize that such arrangement can be tuned by the manufacturer between a
slidable bracket 20 or a lockingbracket 20. In other words, by changing the strength ofspring 27, 27', the shape oflever 24, 24', the composition ofglide strip 25 and/orlever 24,24', etc., the manufacturer can "program" thebracket 20. - For example, if the user desires a mounting bracket that locks onto beam 11 so that it cannot be pushed along beam 11 unless a large force parallel to the longitudinal axis of beam 11 is provided onto
bracket 20 and/orpower tool 100, the manufacturer can use astronger spring 27, 27'. Alternatively, the manufacturer can change the shape oflever 24, 24' so thattab 24T (FIG. 8) does not contactbody 21, allowinglever 24 to contact beam 11 with full spring force. Furthermore, the manufacturer can change the composition ofglide strip 25 and/orlever 24, 24' so that they are "grippier" and less prone to sliding. Accordingly, the user can slide the mounting brackets 20 (and thus power tool 100) only when the user pivots levers 24. When the user releaseslevers 24, however, the mountingbrackets 20 in effect lock in place. - On the other hand, if the user desires a mounting bracket that does not lock onto beam 11 so that it can be pushed along beam 11 with a small force parallel to the longitudinal axis of beam 11 provided onto
bracket 20 and/orpower tool 100, the manufacturer can use aweaker spring 27, 27'. Alternatively, the manufacturer can change the shape oflever 24, 24' so thattab 24T (FIG. 8)contacts body 21, preventinglever 24 to contact beam 11 with full spring force. Furthermore, the manufacturer can change the composition ofglide strip 25 and/orlever 24, 24' so that they are more slippery and more prone to sliding. Accordingly, the user can slide the mounting brackets 20 (and thus power tool 100) longitudinally at any time. - With such arrangement, if the user wants to lock the mounting
brackets 20 in place, alocating mechanism 15 is required. Referring to FIGS. 1-2 and 9-10, locatingmechanism 15 may include aclip 15C, which is preferably made of metal, such as sheet steel, or plastic. Theclip 15C may be held in place by ascrew 15S, which may extend throughclip 15C and into channel 11SC, and threadingly engage anut 15N. Persons skilled in the art should recognize that the head ofscrew 15S may be disposed within channel 11SC, so that thescrew 15S extends outwardly throughclip 15C and threadingly engagenut 15N. -
Clip 15C may have wings 15CW extending therefrom. Preferably, wings 15CW extend from both sides ofclip 15C. Accordingly, a user can locatebracket 20 onclip 15C by disposingbracket 20 between the two wings 15CW. Wings 15CW may be inclined at an acute angle from the longitudinal axis of beam 11. Intermediate wings 15CW' may also be disposed betweenclip 15C and wings 15CW. Intermediate wings 15CW' may be disposed at an angle steeper than the acute angle of wings 15CW. Preferably, intermediate wings 15CW' are substantially perpendicular to the longitudinal axis of beam 11, whereas wings 15CW may be inclined at an angle of about 45°. Having such difference in angles may assist the user in locatingclip 15C withbracket 20. - Preferably, the distance between intermediate wings 15CW' is about or larger than the width of
bracket 20. Accordingly, if abracket 20 is disposed onclip 15C between intermediate wings 15CW', thebracket 20 will have a small range of movement. Therefore, thebracket 20 is effectively limited in travel. - With such construction, a
power tool 100 may be slidably disposed at any position on beam 11. However, the movement of power tool 100 (and mounting brackets 20) will be limited only when onebracket 20 is disposed on aclip 15C. - Persons skilled in the art will recognize the
screw 15S is preferably covered bybracket 20 whenbracket 20 is installed onclip 15C. -
Brackets 20 may also havefeet 26 attached thereto, so that, whenpower tool 100 andbrackets 20 are removed from beam 11, the user can disposed thepower tool 100 andbrackets 20 on a surface for further cutting, etc.Feet 26 may be made of rubber or other elastomeric material. In addition,feet 26 may be attached tobody 21 via bolts 26B. - Referring to FIGS. 3 and 11,
bracket 32 may have aportion 32P, which may match the upper profile of beam 11. However,portion 32P may havetabs 32T extending below the rails 11 R.Such tabs 32T preventbrackets 20 from being moved beyond the end of beam 11. - Referring to FIGS. 1-2, beam 11 may also have a
handle 16. Preferably, thehandle 16 is bolted onto beam 11. Persons skilled in the art will recognize that handle 16 may be bolted directly onto beam 11, or via a screw/nut assembly in combination with channel 11BC, such as the one used for attachingbracket 33. Persons skilled in the art will recognize that providinghandle 16 on the underside of beam 11 will not inconvenience work being conducted on or above beam 11. - Referring to FIGS. 1-3 and 12-14,
workbench 10 may haveextension arm assemblies 70 on both ends thereof. Anextension arm assembly 70 may include anextension arm 71, which telescopes within channel 11C in a retracted position and extends beyond the end of beam 11 in an extended position.Extension arm 71 may be made of a composite material, or a metal, such as steel or aluminum. - An
end cap 71C may be disposed at one end ofextension arm 71. Preferably,end cap 71C is attached toarm 71 viabolt 71 CB.End cap 71C may be made of plastic to facilitate movement ofarm 71 along channel 11C. Alternatively, sliding buttons or glides can be disposed instead ofend cap 71C. These glides may be made of plastic, such as nylon or UHMW. - Referring to FIGS. 1-3, 12-14 and 18-19, an
end cap 72 may be disposed at the other end ofarm 71.End cap 72 is preferably made of metal, such as cast aluminum.End cap 72 may be attached toarm 71 viabolt 72B. - Preferably,
end cap 72 hasupper surfaces 72U which are substantially coplanar to the corresponding upper surfaces of rails 11 R. Similarly,end cap 72 may havebottom surfaces 72B which are substantially coplanar with the corresponding surfaces of channel 11TC. This would allow an assembly, such as work support assembly 80 (FIG. 1), which engages upper andbottom surfaces end cap 72 and beam 11, respectively, to be movable betweenend cap 72 and beam 11, and vice versa, without removal therefrom whenend cap 72 and beam 11 are located adjacent to each other, such as is shown in FIG. 12. - If the combined length of beam 11 and caps 72 (with retracted arms) is A (see FIG. 14), the length of each
arm 71 is preferably more than half of length A. Accordingly, when botharms 71 are retracted, a portion of onearm 71 will overlap a portion of the other. However, when botharms 71 are expanded, the total length A' of beam 11 and caps 72 would be at least about twice length A. Persons skilled in the art will recognize that, if the lengths ofarms 71 is maximized for maximum length without being longer than beam 11, the total length A' will be between about 2-3 times length A. - It is desirable to lock
arms 71 in any position relative to beam 11. Accordingly, anarm locking mechanism 90 is discussed below. Referring to FIGS. 1-2, 12 and 15-17,arm locking mechanism 90 is preferably disposed onbracket 32. A first embodiment of lockingmechanism 90 is shown in FIGS. 15-16, whereas a second embodiment of the mechanism is shown in FIGS. 1-2, 12 and 17. - Referring to FIGS. 15-16,
arm locking mechanism 90 may include ahousing 92, which is preferably bolted ontobracket 32 viabolts 92B.Housing 92 may be made of plastic, and may have an opening 920 for allowingarm 71 to extend therethrough. - In addition,
housing 92 may have bearing surfaces 92BS for supportingarm 71 and facilitating the sliding motion ofarm 71 relative to channel 11C (and thus beam 11). Bearing surfaces 92BS are preferably made of plastic or nylon, and can be made integral tohousing 92. - A
plate 98 may be disposed betweenbracket 32 andhousing 92.Plate 98 may be integral tobracket 32, or it may be a separate piece that is preferably connected tobracket 32 viabolts 92B.Plate 98 may have an opening 980 for allowingarm 71 to extend therethrough. - A
cam 95 may be captured betweenplate 98 andhousing 92. Preferably,cam 95 is pivotally connected tohousing 92 and/orplate 98 to allow rotation ofcam 95 about an axis substantially parallel to the longitudinal axis of beam 11.Cam 95 may have ahandle 95H to enable the user to rotatecam 95. -
Cam 95 may have a cam surface 95C which contacts a slidinglock 96.Lock 96 is preferably captured betweenplate 98 and housing so that it can slide towards and away fromcam 95.Lock 96 may be made of plastic or rubber.Springs 97 may be disposed betweenlock 96 andplate 98 and/orhousing 97 to biaslock 96 towardscam 95. - With such arrangement, the user can lock
arm 71 at a desired position by rotatingcam handle 95H. Ashandle 95H is rotated, cam 95 (and thus cam surface 95C) is rotated, pushinglock 96 towards openings 920, 980 (and thus towards arm 71), lockingarm 71 in place. To unlockarm 71, the user needs only to movehandle 95H in the opposite direction, releasing the camming force, and allowingsprings 97 to movelock 96 away fromarm 71. - FIGS. 1-2, 12 and 17 illustrate the second embodiment of
arm locking mechanism 90, where like numerals refer to like parts. All the teachings of the first embodiment are incorporated herein by reference. Unlike in the first embodiment, the user rotates aknob 93, which is connected tobracket 32.Knob 93 may have aneccentric cam surface 93C, which is received within anopening 960 inlock 96. - Accordingly, when the user rotates
knob 93,cam surface 93C is rotated, causing a translational movement oflock 96, thus lockingarm 71 in place. To unlock, the user need only rotateknob 93 in the opposite direction. The second embodiment has the advantage that, since cam surface 93C is captured withinopening 960, springs 97 are not necessary. This is because the interaction betweencam surface 93C andopening 960 retracts lock 96. - Referring to FIG. 20, a
work support assembly 80 may be provided on end cap 78 and/or beam 11. As discussed above, worksupport assembly 80 may engage upper andbottom surfaces end cap 72 and beam 11, respectively. This would allowwork support assembly 80 to be movable betweenend cap 72 and beam 11, and vice versa, without removal therefrom whenend cap 72 and beam 11 are located adjacent to each other, such as is shown in FIG. 12. -
Work support assembly 80 may include alower body 81, which may be made of bent sheet metal, such as steel.Lower body 81 may have at least one slot 81 S, which is preferably substantially vertical.Lower body 81 may slidingly receivemiddle body 82, which may also be made of bent sheet metal, such as steel.Middle body 82 may also have at least one slot 82S, which is preferably substantially vertical and/or aligned with slot 81 S. - The lower and
middle bodies screws 81 B, which extend through slots 81 S, 82S and engage a nut 81 N or wingnut 81 W on the other side. Persons skilled in the art will recognize that such construction will allow a user to move lower andmiddle bodies - An
upper body 83 is preferably disposed onmiddle body 82.Upper body 83 may be made of bent sheet metal, such as steel.Upper body 83 may haveslots 83S, which are preferably substantially horizontal. Middle andupper bodies screws 83B, which extend throughslots 83S and holes 82H onmiddle body 82.Screws 83B may be held in place by nuts (not shown), which may be integral tomiddle body 82 orupper body 83, or may be separate therefrom. -
Upper body 83 may have an upper support surface 83SS for supporting a workpiece. Preferably, support surface 83SS is substantially horizontal. - An
end stop 84 may be pivotally attached toupper body 83. Preferably, screws 84B extend throughstop 84,washers 84W (which may be made of nylon, plastic or metal), andupper body 83, and threadingly engage nuts (not shown). -
End stop 84 may have a substantiallyplanar surface 84E.Surface 84E may be pivoted between first and second positions. In the first position,surface 84E will preferably be substantially vertical. In addition,surface 84E may face thepower tool 100, so that it can contact the workpiece and act as an end stop. In the second position (shown in broken lines in FIG. 20C),surface 84E is below support surface 83SS (and thus below the workpiece). In other words,surface 84E is effectively bypassed, so that the workpiece contacts only support surface 83SS. - Persons skilled in the art will recognize that, with the arrangement described above, support surface 83SS and/or
surface 84E can be adjusted vertically and/or horizontally. - As mentioned above, work
support assembly 80 may be disposed in channel 11TC of beam 11. Accordingly, it is preferable to provideassembly 80 with the means for attachment thereon.Lower body 81 may have alower plate 81 LP fixedly attached tolower body 81.Lower plate 81 LP may be welded or riveted tolower body 81.Lower plate 81 LP and/orlower body 81 may carry slidingpads 81 P and/or slidingrivets 81 SR for facilitating sliding oflower plate 81 LP and/orlower body 81 along beam 11. Preferably, slidingpads 81 P and/or slidingrivets 81 SR are made of plastic, nylon, UHMW, etc. -
Lower body 81 may carry a screw, which extends into acavity 81 PC formed bylower plate 81 LP, and threadingly engage a retainingnut 85N.Nut 85N may have flanges 85NF, which may extend throughopenings 81 NO and contact the underside of rails 11 R. Such screw may be a standard screw or thumbscrew. Accordingly, the user can rotate the screw, movingnut 85N (and flanges 85NF) upwardly into contact with the underside ofrails 11 R, thus lockingsupport assembly 80 in place. - Alternatively, such screw may be an
adjustable screw assembly 85, as shown in FIGS. 20B and 21.Adjustable screw assembly 85 may have alower screw 85S for threadingly engagingnut 85N and aninner pistil 851 fixedly connected to screw 85S.Pistil 851 may be molded overscrew 85S.Pistil 85 may have outer grooves 85IG formed thereon. - In addition, an outer shell 850 may be slidably disposed on pistil 85I. Outer shell 850 preferably slides relative to
pistil 851. Outer shell 850 may have protrusions 85OP which engage the grooves 85IG, for fixing the axial location of outer shell 850 relative topistil 851. Outer shell 850 may also have a handle for rotating outer shell 850 with or withoutpistil 851. - A spring 85OS may be disposed between
pistil 851 and a washer 85W and/or outer shell 850 for biasing the outer shell 850 downwardly. In other words, spring 85OS may bias protrusions 85OP into engagement with grooves 85IG. - With such construction, the user may rotate
screw assembly 85, movingnut 85N (and flanges 85NF) upwardly into contact with the underside ofrails 11 R, thus lockingsupport assembly 80 in place. If the user wants to adjust the axial position ofhandle 85H to obtain better leverage, the user needs to lifthandle 85H and/or outer shell 850, rotate outer shell 850 relative topistil 851, and release outer shell 850. Spring 85OS will then push outer shell 850 back into engagement with grooves 85IG ofpistil 851. - Persons skilled in the art may recognize other additions or alternatives to the means disclosed herein. However, all these additions and/or alterations are considered to be equivalents of the present invention.
Claims (23)
- A work bench comprising:a beam;legs for supporting the beam;at least one bracket disposed on the beam for supporting a tool;a first extension arm connected to the beam; anda locking mechanism for locking the position of the first extension arm relative to the beam.
- The work bench of Claim 1, wherein the locking mechanism comprises a locking surface being movable between a first position contacting one of the first extension arm and the beam, and a second position not contacting the one of the first extension arm and the beam, and a cam for moving the locking surface between the second and first positions.
- The work bench of Claim 2, wherein the locking mechanism further comprises a spring for biasing the locking surface towards the second position.
- The work bench of Claim 2, wherein the locking mechanism further comprises a spring for biasing the locking surface towards the cam.
- The work bench of Claim 2, wherein the locking mechanism is disposed on the beam.
- The work bench of Claim 1, wherein the first extension arm telescopes within the beam.
- The work bench of Claim 1, further comprising a second extension arm slidably connected to the beam.
- The work bench of Claim 7, wherein the second extension arm telescopes within the beam.
- A work bench comprising:a beam;legs for supporting the beam;at least one bracket disposed on the beam for supporting a tool; anda work support mechanism disposed on the beam for supporting a workpiece, the work support having a body with a substantially horizontal surface and a substantially vertical surface, wherein the vertical surface is movable between a first position where the workpiece is supported by both the horizontal and vertical surfaces, and a second position where the workpiece is supported only by the horizontal surface.
- The work bench of Claim 9, wherein the height of the horizontal surface is adjustable.
- The work bench of Claim 9, wherein the vertical surface is a stop surface.
- The work bench of Claim 9, wherein the vertical surface is a stop surface in the first position, but not in the second position.
- The work bench of Claim 9, wherein the vertical surface is pivotally attached to the body.
- The work bench of Claim 9, further comprising an extension arm connected to the beam.
- The work bench of Claim 14, wherein the work support mechanism can be disposed on the extension arm.
- The work bench of Claim 14, wherein the work support mechanism is slidably disposed on the beam.
- A work bench comprising:a beam having a longitudinal axis;legs for supporting the beam;at least one bracket disposed on the beam for supporting a tool; anda work support mechanism disposed on the beam for supporting a workpiece, the work support having a body with a substantially horizontal surface and a substantially vertical surface, wherein the vertical surface is movable between a first position substantially perpendicular to the longitudinal axis, and a second position not substantially perpendicular to the longitudinal axis.
- The work bench of Claim 17, wherein the height of the horizontal surface is adjustable.
- The work bench of Claim 17, wherein the vertical surface is a stop surface.
- The work bench of Claim 17, wherein the vertical surface is pivotally attached to the body.
- The work bench of Claim 17, further comprising an extension arm connected to the beam.
- The work bench of Claim 21, wherein the work support mechanism can be disposed on the extension arm.
- The work bench of Claim 17, wherein the work support mechanism is slidably disposed on the beam.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US30455601P | 2001-07-11 | 2001-07-11 | |
EP02015385A EP1275476B1 (en) | 2001-07-11 | 2002-07-10 | Portable work bench |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP02015385A Division EP1275476B1 (en) | 2001-07-11 | 2002-07-10 | Portable work bench |
Publications (3)
Publication Number | Publication Date |
---|---|
EP1712335A2 true EP1712335A2 (en) | 2006-10-18 |
EP1712335A3 EP1712335A3 (en) | 2007-05-16 |
EP1712335B1 EP1712335B1 (en) | 2008-09-17 |
Family
ID=36968445
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP08103154A Ceased EP1930128A3 (en) | 2001-07-11 | 2002-07-10 | Portable work bench |
EP06118238A Expired - Lifetime EP1712335B1 (en) | 2001-07-11 | 2002-07-10 | Portable work bench |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP08103154A Ceased EP1930128A3 (en) | 2001-07-11 | 2002-07-10 | Portable work bench |
Country Status (1)
Country | Link |
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EP (2) | EP1930128A3 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2008076069A1 (en) * | 2006-12-19 | 2008-06-26 | Lindab Ab | Work bench for cutting a tube and method using such work bench |
CN110978108A (en) * | 2019-12-27 | 2020-04-10 | 金华市亚虎工具有限公司 | Sawtooth bracket for cutting machine support |
CN111002277A (en) * | 2019-12-27 | 2020-04-14 | 金华市亚虎工具有限公司 | Cutting machine support |
US10792834B2 (en) | 2017-06-05 | 2020-10-06 | Milwaukee Electric Tool Corporation | Table saw |
CN114012680A (en) * | 2021-10-26 | 2022-02-08 | 成都飞机工业(集团)有限责任公司 | Turnover device for machining airplane stringer parts |
US11883945B2 (en) | 2022-04-12 | 2024-01-30 | Michael H Panosian | Foldable workbench |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104959842A (en) * | 2015-05-26 | 2015-10-07 | 苏州市新大地五金制品有限公司 | Extension pipe locking mechanism |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2008076069A1 (en) * | 2006-12-19 | 2008-06-26 | Lindab Ab | Work bench for cutting a tube and method using such work bench |
US10792834B2 (en) | 2017-06-05 | 2020-10-06 | Milwaukee Electric Tool Corporation | Table saw |
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CN110978108A (en) * | 2019-12-27 | 2020-04-10 | 金华市亚虎工具有限公司 | Sawtooth bracket for cutting machine support |
CN111002277A (en) * | 2019-12-27 | 2020-04-14 | 金华市亚虎工具有限公司 | Cutting machine support |
CN111002277B (en) * | 2019-12-27 | 2024-01-23 | 金华市亚虎工具有限公司 | Cutting machine support |
CN110978108B (en) * | 2019-12-27 | 2024-03-29 | 金华市亚虎工具有限公司 | Sawtooth bracket for cutting machine support |
CN114012680A (en) * | 2021-10-26 | 2022-02-08 | 成都飞机工业(集团)有限责任公司 | Turnover device for machining airplane stringer parts |
US11883945B2 (en) | 2022-04-12 | 2024-01-30 | Michael H Panosian | Foldable workbench |
Also Published As
Publication number | Publication date |
---|---|
EP1930128A2 (en) | 2008-06-11 |
EP1712335A3 (en) | 2007-05-16 |
EP1930128A3 (en) | 2008-08-20 |
EP1712335B1 (en) | 2008-09-17 |
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