Patent Grant
11440160
The present disclosure relates generally to guards and, in particular, relates to guards for use with power tools and power tools including such guards.
Hand-guided electrical tools, such as angle grinders, are often used in metal fabrication. To this end, angle grinders may utilize various abrasives. In some cases, angle grinders may utilize a fiber pad to flatten and polish welds and to clean and prepare metal surfaces for other operations. The fiber pad typically resembles a circle of sandpaper and may be held on the angle grinder by a flat rubber fixture that supports the back surface of the fiber pad.
In accordance with a first example, a guard for use with a power tool includes a collar structured to be removably coupled to the power tool. A hood is coupled to the collar. A guard ring coupled to the collar via the hood. The guard ring extends entirely around the collar.
In accordance with a second example, a guard includes a collar structured to be removably coupled to a power tool having a rotatable component. A hood is coupled to the collar. A guard ring is coupled to the hood and at least partially surrounds the collar. The guard ring is structured to enable a first amount of the rotatable component to be exposed at a first end of the rotatable component and for a second amount of the rotatable component to be exposed at a second end of the rotatable component. The first amount being greater than the second amount. The second end is opposite the first end. The guard is structured to surround at least a portion of the rotatable component adjacent the first end and to surround at least a portion of the rotatable component adjacent the second end.
In accordance with a third example, a power tool includes a body and a guard. The guard includes a collar structured to be removably coupled to the body. A hood is coupled to the collar. A guard ring is coupled to the collar via the hood. The guard ring extends entirely around the collar.
In further accordance with the foregoing first, second and/or third examples, an apparatus and/or method may further include any one or more of the following:
In accordance with one example, the hood is structured to cover a portion of a rotatable component of the power tool when the guard is coupled to the power tool.
In accordance with another example, the guard includes a support coupled between the guard ring and the hood adjacent the collar.
In accordance with another example, the support is a first support, further including a second support coupled between the guard ring and the hood. A window is defined between the first and second supports to enable visibility of a rotatable component of the power tool when the guard is coupled to the power tool.
In accordance with another example, the window is a first window and the guard includes a second window and a third window. The second window is defined between the first support and the hood. The third window is defined between the second support and the hood. The second window is disposed between the first and third windows.
In accordance with another example, the hood includes a first portion extending from the collar and a second portion extending from the first portion and tapering toward the guard ring.
In accordance with another example, the guard ring is structured to enable a rotatable component of the power tool to extend past the guard ring to enable the rotatable component to contact a working surface.
In accordance with another example, the guard ring is structured to deter a rotatable component of the power tool from contacting a working surface when the guard is coupled to the power tool and when a relative angle between the rotatable component and the working surface satisfies a threshold.
In accordance with another example, a first surface of the guard ring is non-parallel relative to a second surface of the collar to enable a rotatable component of the power tool to extend past the first surface. The first surface opposite the second surface.
In accordance with another example. The guard ring is angled relative to a horizontal plane extending through the guard.
In accordance with another example, the guard further includes a support extending between the hood and the guard ring. The support is structured to increase structural rigidity of the guard ring.
In accordance with another example, the guard includes a window defined between the guard ring and the hood to enable visibility of the rotatable component of the power tool when the guard is coupled to the power tool.
In accordance with another example, the guard is structured to deter the rotatable component from contacting a working surface when a relative angle between the rotatable component and the working surface satisfies a threshold.
In accordance with another example, the guard ring is non-parallel relative to an exterior facing surface of the collar.
In accordance with another example, the collar includes a first surface and the guard ring includes a second surface. The first and second surfaces are non-parallel relative to one another.
In accordance with another example, the power tool includes a window defined between the guard ring and the collar to enable visibility of a rotatable component of the power tool.
In accordance with another example, the power tool includes first and second supports extending between the hood and the guard ring. The first and second supports configured to increase structural rigidity of the hood.
In accordance with another example, the guard ring is structured to enable a rotatable component of the power tool to extend past the guard ring to enable the rotatable component to contact a working surface.
Although the following text discloses a detailed description of example methods, apparatus and/or articles of manufacture, it should be understood that the legal scope of the property right is defined by the words of the claims set forth at the end of this patent. Accordingly, the following detailed description is to be construed as examples only and does not describe every possible example, as describing every possible example would be impractical, if not impossible. Numerous alternative examples could be implemented, using either current technology or technology developed after the filing date of this patent. It is envisioned that such alternative examples would still fall within the scope of the claims.
It is known to equip angle grinders with a guard for protecting an operator of the tool against injury from, for example, the fiber pad or other abrasive. However, known guards protect only a portion of the circumference of the abrasive, such that these known guards only protect against some types of hazards associated with the use of the abrasive. Specifically, some known guards extend around 180° or less of the abrasive of an angle grinder and/or extend below a bottom plane of the abrasive, covering a portion of the bottom surface of the abrasive. As a result, the guarded edge of the abrasive used in association with some known guards is raised higher than the height of the guards, limiting how flat, or how low an angle, the unguarded portion of the abrasive can be held against the surface being polished and/or worked. To enable particular types of work be accomplished, in some instances, an operator may choose to remove the known guard from the angle grinder against manufacturer safety instructions, thereby creating a safety hazard and defeating the purpose of equipping the angle grinder with a guard all together.
To address some of the problems encountered with known guards used with angle grinders or other power tools, the examples disclosed herein relate to guards that are structured to deter damage to the surface being worked, enable operations using the tools to be performed at relatively low angles and increase the safety associated with operating such tools. The tools may be electric-powered tools, hydraulic-powered tools, pneumatic-powered tools, gas-powered tools, etc.
To deter the guard ring from interfering with an ability of the abrasive to come into contact with a work surface, in some examples, the guard ring extends close to, but not below, a plane defined by a bottom surface of the abrasive of the grinder. Specifically, to enable the abrasive (which may also be referred to as the polishing wheel or the grinding wheel) to be accessible to work a surface, in some examples, the guard ring is angled relative to a horizontal plane of the abrasive such that a portion of the guard ring (e.g., the back of the guard ring) is located below another opposite portion of the guard ring (e.g., the front of the guard ring). In turn, in some examples, guards as disclosed herein do not interfere with using grinders or other hand-guided electrical tools at low angles while also surrounding more of the abrasive as compared to some known guards that cover 180° of the abrasive or less than 180° of the abrasive.
In some examples, the guard includes a hood, a clamp and a guard ring that extends entirely around the clamp. In some examples, the guard includes at least one stiffener arranged between the hood and a portion of the guard ring. For example, the guard may include two stiffeners extending between the guard ring and the hood. However, in other examples, the guard does not include a stiffener extending between the hood and the guard ring and/or includes any other number of stiffeners. Regardless of the number of stiffeners included, the stiffeners may be coupled to the hood and the guard ring in any suitable way. For example, the stiffeners may be coupled to the hood and/or the guard ring using a weld or adhesive, or the components of the guard may be integrally formed. In such examples, the guard may be formed using additive manufacturing processes, extruding processes, 3D-printing methods, forging processes, casting processes, etc. using materials such as, for example, metal, plastic, etc.
As shown, the hood 110 angles away from the collar 106 to enable a rotatable component of the tool 104 in the form of an abrasive disk 114 to be at least partially disposed within a dimensional envelope of the guard 100 and to enable the guard ring 112 to be coupled to a lower facing surface 116 of the hood 110. In this example, the guard ring 112 is integrally formed with the hood 110, though in other examples, the hood 110 and the guard ring 112 can be separately manufactured and coupled to one another via any known manner (e.g., welding, adhesive). While the example of
In the illustrated example, the hood 110 is structured to cover a first portion or half 118 of the disk 114 and is structured not to cover a second portion or half 120 of the disk 114. To further increase the safety of operating the tool 104, in this example, the guard ring 112 is structured to surround the first half 118 of the disk 114 and the second half 120 of the disk 114, where the first half 118 is disposed opposite the second half 120. To enable the disk 114 to engage a working surface, a lower surface 121 of the guard ring 112 is angled in a direction generally indicated by arrow 122, such that the guard ring 112 is angled relative to the horizontal (and the disk 114), thereby enabling at least a portion of the disk 114 to be uncovered (e.g., exposed). Thus, in the illustrated example, the disk 114 protrudes from the guard 100 in a direction generally opposite that of the arrow 122 relative to the lower surface 121.
To support the portion of the guard ring 112 surrounding the second half 120 of the disk 114, example first and second supports in the form of stiffeners 123, 124 are coupled between the guard ring 112 and an edge 125 of the hood 110. To enable an operator of the tool 104 to have visibility of the working surface and the disk 114 itself, in this example, the hood 110, the guard ring 112 and the stiffeners 123, 124 are structured to define example first, second and third windows 206, 208, 210, where the second window 208 is disposed between the first and third windows 206, 200.
As shown, at least in this example, the first and third windows 206, 210 are approximately the same size and are approximately mirror images of one another, and the second window 206 is a different size than the first and third windows 206, 210. As set forth herein, the phrase “approximately the same size” means that the sizes of the windows are within 5% of each other to account for manufacturing tolerances. As set forth herein, the phrase “approximately mirror images of one another” accounts for manufacturing tolerances.
Further, while the example of
To accommodate different sized tool mounts, in this example, the clamp 108 includes an adjuster 412. As shown, the adjuster 412 includes a threaded fastener 414 that threadably engages the link 408 and a bracket 415 at the end 406 of the open ring 402. To increase the diameter of the clamp 108, the threaded fastener 414 is rotated in a first direction and to decrease the diameter of the clamp 108, the threaded fastener 414 is rotated in a second direction opposite the first direction.
The examples disclosed herein relate to example guards that are structured to protect an abrasive (e.g., a fiber pad) of a hand-guided electrical tool around its entire circumference but also to protect an operator of the hand-guided electrical tool by deterring debris from impacting the operator using a hand-guided electrical tool implemented with the teachings of this disclosure. Moreover, the examples disclosed herein deter an object (e.g., clothing, etc.) from becoming ensnared by the rotating abrasive carried by the hand-guided electrical tool. At the same time, the guards are structured to enable the hand-guided electrical tool to be used at relatively low angles while providing visibility of the working surface to the operator of the hand-guided electrical tool. Thus, the example guards enable the hand-guided electrical tool to work a surface when a threshold angle (e.g., a relatively low angle) is satisfied. To deter damage of the work surface associated with using angle grinders at a relatively high, i.e., steep, angle, in some examples, the guard is structured to engage the work surface if a threshold angle is satisfied. Put another way, the example guard prevents the abrasive from grabbing and/or biting into the metal surface, which may cause an operator to have reduced control of the angle grinder.
An example guard as disclosed herein includes an example collar having a clamp, an example guard ring and an example hood that extends between and is coupled to the collar and the guard ring. In some examples, the guard ring may surround 360° of the clamp or the guard ring may surround greater than 180° and less than 360° of the clamp. In some examples, the hood is a semi-annular hood and is structured to extend around approximately 180° of the guard ring. In other examples, the hood extends around less than 180° of the guard ring or extends around greater than 180° of the guard ring. To increase the structural rigidity of the guard ring, in some examples, one or more supports extend between the hood adjacent the collar and the guard ring.
To enable access to the disk for grinding and/or polishing purposes, the guard ring is angled relative to the horizontal to enable the abrasive to extend from a dimensional envelope of the guard. Put another way, a first portion of the guard including the hood covers more of a lateral edge of the abrasive as compared to a second portion of the guard. When coupled to an angle grinder, the first portion of the guard is typically positioned toward the rear of the grinder, i.e., adjacent the handle of the grinder, and the second portion of the guard is typically positioned toward the front of the grinder, sometimes referred to as the business end of the grinder.
While the hood, the guard ring, the stiffeners and/or the guard itself may be made of any suitable material including plastics, in some examples, the hood is made using 12 gauge steel and the guard ring and/or the stiffeners are made of Stainless Steel (e.g., 304 Stainless Steel). In other examples, however, the hood, the guard ring and/or at least one stiffener is made of a different material. As an example, the hood, the guard ring and/or the at least one stiffener can be made of the same material such as, for example, 304 Stainless Steel.
The guards disclosed herein are structured to be coupled to hand-guided electrical tools such as, for example, a right angle grinder equipped with an abrasive in the form of a fiber pad for polishing a metal surface. In some examples, when the guard is coupled to a right angle grinder (e.g., via an example clamp), the guard ring extends around an entire circumference of the abrasive, thereby protecting the full circumference of the abrasive. In other examples, the guard ring partially extends around the circumference of the abrasive. For example, the guard ring may extend around the circumference of the guard ring greater than 180° of the abrasive but less than 360° of the abrasive.
The figures are not to scale and the same reference numbers may be used to describe like or similar parts. Further, while several examples have been disclosed herein, any features from any examples may be combined with or replaced by other features from other examples. Moreover, while several examples have been disclosed herein, changes may be made to the disclosed examples within departing from the scope of the claims.
This patent claims priority to U.S. Provisional Patent Application No. 62/647,312, which was filed Mar. 23, 2018 and is hereby incorporated herein by reference in its entirety.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3068620 | Tocci-Guilbert | Dec 1962 | A |
| 4059930 | Alessio | Nov 1977 | A |
| 6699114 | Booeshaghi | Mar 2004 | B1 |
| 6896605 | Ohlendorf | May 2005 | B2 |
| 6988939 | Hofmann et al. | Jan 2006 | B2 |
| 20030119435 | Ohlendorf | Jun 2003 | A1 |
| 20130000935 | Kelleher | Jan 2013 | A1 |
| 20150104998 | Fuller | Apr 2015 | A1 |
| 20160039068 | Morris et al. | Feb 2016 | A1 |
| 20180264622 | Arthur | Sep 2018 | A1 |
| Number | Date | Country | |
|---|---|---|---|
| 20190291241 A1 | Sep 2019 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62647312 | Mar 2018 | US |
