The present invention relates to roof shingle peelers and, more specifically, to a method and apparatus for systematically removing shingles and nails from a roof deck.
There are generally two categories of roof shingle peelers. The first category is the roof shingle peeler that is operated manually. This manual roof shingle peeler is typically the approximate size of a shovel and has serrations at the leading edge of the shovel for prying the roofing nails from the plywood boards, thereby, detaching the shingles from the roof. Such manual roof shingle peelers include U.S. Pat. No. 5,001,946 entitled “Roof Shingle Stripping Apparatus”; U.S. Pat. No. 5,819,603 entitled “Roof Shingle Remover”; and U.S. Pat. No. 6,257,094 entitled “Roofing Shingle And Tar Paper Stripper”. There is even U.S. Pat. No. 5,918,439 entitled “Roof Shingle Replacement Tool and Method” which discloses a device to install shingles on generally flat roof surfaces. The problem with these manual shingle peelers is that removing all the shingles and nails from a roof deck (e.g. for a condominium, town home, house, etc.) to install a new roof becomes a laborious, physically demanding effort that can span the course of many hours or days while further increasing the opportunity for fatigue and injury to the workers.
Recognizing this problem created the need for a more automated roof shingle peeler. This formed the second category of motor driven roof shingle peelers. These motor driven roof shingle peelers are larger than their manual counterparts and typically powered to simulate the manual operation or include vibrating or oscillating front teeth with shearing type drives to remove the shingle and nails from the roof. Such motor driven roof shingle peelers include U.S. Pat. No. 4,091,535 entitled “Shingle Stripper”; U.S. Pat. No. 4,691,439 entitled “Powered Roof Shingle Detacher And Stripper”; U.S. Pat. No. 5,009,131 entitled “Roof Shingle Stripper Apparatus”; U.S. Pat. No. 5,098,165 to Jacobs entitled “Guided Roofing Materials Removal Apparatus”; U.S. Pat. No. 5,218,766 entitled “Roofing Removal Apparatus”; and U.S. Pat. No. 5,800,021 entitled “Shingle Remover And Method Of Removing”.
The most relevant is U.S. Pat. No. 4,091,535 to Lehrter entitled “Shingle Stripper.” This patent discloses a guide device removably affixed to a roof that includes a cable extending between the ridge and the gutter edge of the roof. An internal combustion engine is mounted in a housing having an open forward end and a closed rear end. The engine is coupled to two drive shafts and a cable for moving the housing up the roof along the guide device from the gutter to the ridge. As the housing moves up the roof, cutters in the forward end of the housing, consisting of a first and second plurality of spaced reciprocating teeth, cut the nails of the shingles such that the shingles severed from the roof fall into and accumulate in the rear of the housing for later removal.
This device, however, has several inherent shortcomings. First, the entire system uses complex moving parts which are expensive and provide maintenance problems. This is exemplified by the gears, dual pulley, cable, and shaft arrangement, the reciprocating plurality of cutters, and the use of the internal combustion engine to move the pulleys and cables and turn the shafts. Second, due to the complexity of the system, the use of the system is limited as it is bulky, slow and too heavy. Third, although the cutters cut the nails to sever the shingles from the roof, the shingles themselves remain intact. As the device moves up the roof, this creates problems as a portion of the shingle may be severed from the roof in front of the device while the remaining portion of the shingle, not located within the front of the device, may still remain affixed to the roof causing pressure or other tension upon the system. It also requires a larger housing to collect the shingles which may likewise impede the use of the device on steep and long roofs due to the increased weight of the full shingles. Lastly, this patent does not disclose or teach the method and apparatus for removing shingles using Applicant's invention.
Likewise U.S. Pat. No. 5,098,165 to Jacobs entitled “Guided Roofing Materials Removal Apparatus” discloses a guide system which secures the shingle removal device and the operator in position on an inclined roof so that the roof can be traversed at various positions along different travel paths while being supported. The problem with this device is that it: (a) is designed solely as a guide and support member for the operator and the shingle removal device, and (b) continues to require an operator to operate the shingle removal device.
Thus, there is a need and there has never been disclosed Applicant's unique method and apparatus for removing shingles from a roof deck.
It is the primary object of the present invention to systematically remove shingles from a roof deck using a roof shingle peeler device. A related object of the present invention is to provide a saw blade operated by a motor and a wedge coacting to remove nails and shingles from the roof deck.
Another object of the present invention is to provide a horizontal arm and skiis to regulate the depth of the wedge and saw blade for removing and cutting the shingles.
Another object of the present invention is to provide a duct to transport the shingles into a bag for receiving and collecting all the shingles removed from the roof deck.
Another object of the present invention is to provide a hoist and return hoist enabling the roof shingle peeler device to traverse the roof deck from the base to the crest of the roof deck.
Still another object of the invention is to provide a roof shingle device that is safe and easy to use.
Other objects of the present invention will become more apparent to persons having ordinary skill in the art to which the present invention pertains from the following description taken in conjunction with the accompanying drawings.
The present invention is a roof shingle peeler device which comprises a saw blade, a motor to operate the saw blade, a horizontal arm and skiis to regulate the depth of the wedge, the wedge removing the nails and shingles from the roof deck and enabling the saw blade to cut the shingles into a predefined section, and a frame to facilitate the transportation of the predefined section of shingles for being received and collected into a bag for disposal. A hoist and return hoist are used to pull the roof shingle peeler device up and down the roof deck from the base to the crest while removing shingles.
The Description of the Preferred Embodiment will be better understood with reference to the following figures:
Turning first to
A hoist 38, operated by a roofer 40 standing on a platform 42, pulls the roof shingle peeler device 30 up the roof deck 32 from the base 44 to the crest 46. Preferably, the hoist 38 uses a cable 48 to pull the roof shingle peeler device 30 up the roof deck 32. As the roof shingle peeler device 30 is being pulled up the roof deck 32, the roof shingle peeler device 30 removes the nails 50 and cuts the shingles 34 on the roof deck 32 into a predefined section of shingles 34. The removed nails 50 and the predefined section of shingles 34 removed from the roof deck 32 are then collected in a bag 52. After the roof shingle peeler device 30 reaches the crest 46 of the roof deck 32, a return hoist 54 uses a return cable 56 to pull the roof shingle peeler device 30 back down to the base 44 of the roof deck 32 where the roof shingle peeler device 30 originally started. This is referred to as a“strip run.” The roof shingle peeler device 30 is then repositioned lengthwise along the base 44 of the roof deck 32, below another portion of shingles 34, and the process is repeated. This process continues until all of the shingles 34 and the nails 50 are removed from the roof deck 32. During this process, the hoist 38 is provided with a shield 58 to protect the roofer 40 from any loose debris or other material that may be projected from the roof deck 32 while the roof shingle peeler device 30 is in use. Preferably, the shield 58 is a transparent, plastic protective shield capable of resisting .22 caliber bullets. Such a transparent, plastic protective shield is made by Lexan.
Applicant's four embodiments for its roof shingle peeler device 30 and how each embodiment removes the shingles and nails from the roof is described in further detail below.
Turning to
The saw blade 60 is operated by a motor 61. In the preferred embodiment, the motor 61 is an off the shelf, direct drive, three and one-half horsepower, fifteen amp motor. Alternatively, the motor 61 may be any size or horsepower provided there is sufficient power generated by the motor to permit the saw blade 60 to cut through the shingles 34.
The saw blade 60 is aligned and positioned between two parallel supporting brackets 62. The supporting brackets 62 are attached to a wedge 66 and a frame 68, at one end, and to a horizontal arm 64, at the other.
The wedge 66 is an elongated member that extends a width 86 in front of the frame 68 and continues a width 88 beyond the front of the frame 68 (see also
The wedge 66 has a leading edge 78 and a trailing edge 80 which are separated by teeth 82. The teeth 82 are equally spaced from one another and form channels 84 between them. At the leading edge 78, the wedge 66, when in use, is inserted under the shingles 34 such that the teeth 82 abut against the roof deck 32. The teeth 82 then gradually taper, along the vertical axis, upwardly or at an incline from the roof deck 32 to the trailing edge 80 and, along the horizontal axis, the teeth 82 extend equi-distant from one another from the leading edge 78 to the trailing edge 80 as further illustrated in
The purpose of the wedge 66 is to remove the nails 50 from the roof deck 32 and lift the shingles 34 into a position to be cut by the saw blade 60. To accomplish this, the leading edge 78 of the wedge 66 traverses the roof deck 32 from the base 44 to the crest 46. With respect to the nails 50, while traversing the roof deck 32, either: the leading edge 78 of the teeth 82 engages and forces the nails 50 into the channels 84 to be removed from the roof deck 32, and/or the nails 50 are directly received into the channels 84 and lifted from the roof deck 32 by the adjoining teeth 82 as the teeth 82 extend from the leading edge 78 to the trailing edge 80.
With respect to the shingles 34, the leading edge 78 of the wedge 66, while in use, is burrowed between the roof deck 32 and the shingles 34. As the wedge 66 proceeds up the roof deck 32, the shingles 34 traverse over the top surface of the teeth 82. As the teeth 82 incline or taper upwardly from the leading edge 78 to the trailing edge 80, the shingles 34 are lifted by the wedge 66 from the roof deck 32. Additionally, nails 50 that remain attached to the shingles 34 are removed from the roof deck 32 along with the shingles 34. The lifted shingles 34 are then cut into the predefined section 76 by the saw blade 60 and received into the frame 68.
The frame 68 is preferably a hollow, rectangular member that has a frame height 90 and a frame width 92 (see also
The bag 52 is securely attached around the exterior circumference of the frame 68 by latches 96. The purpose of the bag 52 is to receive, collect, and facilitate the easy disposal of the predefined sections 76 of shingles 34 and nails 50 removed from the roof deck 32. To accomplish this, the bag 52 must be of sufficient strength and durability to avoid tearing due to the generally rigid nature of the shingles 34, the sharp edges of the shingles 34, and/or the full weight of the predefined section 76 of shingles 34 collected. In the preferred embodiment, the bag 52 is a standard grade, three milliliter (3 mil.), forty-two gallon (42 gal.) contractor bag. Alternatively, the roof shingle peeler device 30 may be used without the frame 68 and the bag 52. In this instance, the roof shingle peeler device 30 will operate as described herein except that the predefined sections 76 of shingles 34 cut from the roof deck 32 will remain loose on the roof deck 32 until manually bagged and discarded by the users.
The horizontal arm 64 extends outwardly a distance 98 from the supporting brackets 62 terminating in skiis 70. The purpose of the horizontal arm 64 is twofold: (1) to provide appropriate leverage in pulling the roof shingle peeler device 30 up the roof deck 32, and (2) enable the wedge 66 and the saw blade 60 to be positioned relative to the roof deck 32 and shingles 34 such that the saw blade 60 can cut and separate the predefined section 76 from the remaining shingles 34 and do so without damaging the roof deck 32. The appropriate leverage is accomplished by providing the proper distance 98. In the preferred embodiment, the distance 98 is substantially twenty inches (20″). The horizontal arm 64 is also positioned such that the vertical centerline of the horizontal arm 64 corresponds to the vertical centerline of the saw blade 60. The positioning of the saw blade 60 relative to the roof deck 32 and shingles 34 is accomplished by the combination of distance 98 of the horizontal arm 64 and the skiis 70. The horizontal arm 64 and the skiis 70 are preferably made of steel or metal.
The skiis 70 are attached to the horizontal arm 64 by threaded screws 72 and corresponding fasteners 74 located on both sides of the horizontal arm 64. In this manner, if the horizontal arm 64 is desired to be raised higher (i.e., raise the saw blade 60 in relation to the shingles 34 and roof deck 32), the fasteners 74 on the top side of the horizontal arm 64 are raised to the desired height, the horizontal arm 64 is correspondingly lifted to that height, and the fasteners 74 located on the underside of the horizontal arm 64 are likewise raised to secure the horizontal arm 64 into that desired height. If, on the other hand, the horizontal arm 64 is desired to be lowered (i.e., lower the saw blade 60 more into the shingles 34 and closer to the roof deck 32), the opposite occurs. The fasteners 74 located on the underside of the horizontal arm 64 are lowered to the desired height, the horizontal arm 64 is correspondingly lowered to that height, and the fasteners 74 located on the top side of the horizontal arm 64 are then lowered to secure the horizontal arm 64 into that desired height.
The purpose of the skiis 70 is to control and stabilize the cable 48 located between them thereby reducing the yaw of the cable 48. The fasteners 74 are each provided with sleeves (not illustrated) to assist in securing the cable 48 between the skiis 70. Preferably, the sleeves are made of brass which is less abrasive on the cable 48.
The skiis 70 also have ski tips 116 which permit the skiis 70 to easily traverse over the roof deck 32 without getting hooked or caught in the shingles 34 or in any other manner inhibiting the forward motion of the device.
Alternatively, in lieu of using the skiis 70, it is contemplated that wheels or any other adjustable means may be used. The adjustable means should also sufficiently support the horizontal arm 64 and traverse the roof deck with minimal friction or difficulty.
The return hoist 54 enables the roof shingle peeler device 30 to be pulled back down the roof deck 32, from the crest 46 to the base 44, to where the roof shingle peeler device 30 originally started. The roof shingle peeler device 30 and the return hoist 54 are then correspondingly repositioned along the roof deck 32 to the right. Alternatively, if the unit was affixed to the left side of the frame 68, the roof shingle peeler device 30 would remove the shingles 34 from the roof deck 32 in the opposite direction starting on the right edge of the roof deck 32 and repositioning left along the roof deck 32 until all the shingles 34 have been removed.
As more clearly illustrated in
Turning to
The horizontal arm 64 and the skiis 70 remain the same as disclosed in the original embodiment. The square frame 114, illustrated in more detail in
The wedge 66 is the same wedge as disclosed in the original embodiment. In the second embodiment, the entire width 86 and 88 of the wedge 66 is located along the frame width 92. With the wedge 66 as positioned, the roof shingle peeler device 30 will remove the shingles 34 into a larger predefined section 76 than in the original embodiment. Preferably, the second embodiment, in operation as illustrated in
The square frame 114 is also provided with an L-shaped support member 124 (
The wedge 66, the frame 68, duct 94, and bag 52 are the same, in this second embodiment, as that disclosed in the original embodiment.
In
The return cable 56 also has a loop 148 formed into its end. The loop 148 is attached to a handle 150. Preferably, the handle 150 forms a ring 154 and utilizes a latch 156 for opening and closing the ring 154 to receive the loop 148 of the return cable 56. The ring 154 also receives a finger loop 152 on the wedge 66. In this manner, the return cable 56 is secured to the roof shingle peeler device 30. Alternatively, it is contemplated that any other means may be used to secure the return cable 56 to the roof shingle peeler device 30 provided that this alternate securing means is of sufficient strength for the return hoist 54 to pull the roof shingle peeler device 30 back down the roof deck 32 from the crest 46 to the base 44.
Turning to
The roof shingle peeler device 30 does, however, comprise a belt drive or pulley motor assembly 160 to operate the saw blade 60. In the preferred embodiment, the pulley motor assembly 160 includes a motor 162 that is a 15 amp, 3½ horsepower electric alternating current (AC) or gas motor. The motor 162 is also energized by 110 volts. As this is the same voltage that is provided by a typical house electrical outlet, the pulley motor assembly 160 is ideal for use with the roof shingle peeler device 30 as it eliminates the necessity of having to provide a portable electrical generator to run the motor 61 of the original and second embodiments. As illustrated in
A supporting bracket 169 having a vertical plate 170 is attached to a horizontal plate 172 of the wedge 66. The vertical plate 170 is positioned directly behind the saw blade 60 and the wedge 66. In use, the nails 50 and shingles 34 of the roof deck 32 are removed and cut, as described previously, by the combination of the wedge 66 and saw blade 60. As the shingles 34 proceed beyond the wedge 66 and saw blade 60, the shingles 34 cut by the saw blade 60 are divided or separated by the vertical plate 170 with the shingles 34 on the left side of the saw blade 60 being directed by the vertical plate 170 to the left side of the saw blade 60 and the shingles 34 on the right side of the saw blade 60 being directed by the vertical plate 170 to the right side of the saw blade 60. The portion of the shingles 34 that do not engage the vertical plate 170 will otherwise pass over the top of the horizontal plate 172. As a result, the vertical plate 170 facilitates the division or separation of the cut or removed shingles from the shingles that remain attached to the roof deck and enables the roof shingle peeler device to continue to traverse the roof deck uninhibited by the shingles still attached to the roof deck.
The benefits of this third embodiment are that: (1) the motor 162 provides a more convenient and efficient motor; (2) in the original and second embodiments, the roof shingle peeler device started to remove shingles from the roof deck from either the left or right side of the roof deck depending upon whether the saw blade was located on the right or left side of the device, respectively. With the motor 162, saw blade 60, wedge 66, horizontal arm 64, and skiis 70 all positioned in the same vertical centerline, the roof shingle peeler device in this third embodiment can start to remove shingles from the roof deck from any location on the roof deck; (3) the vertical plate 170 assists in the division or separation of the shingles and the movement of the device up the roof deck is not restrained or inhibited by the cut or removed shingles or the shingles that remains attached to the roof deck and have yet to be removed; (4) the roof shingle peeler device can operate with or without the bag; and (5) provides a more balanced device.
Turning to
This fourth embodiment of the roof shingle peeler device 30, like the third embodiment, comprises a belt drive or pulley motor 160 to operate the saw blades 60. In the preferred embodiment, the pulley motor 160 is a 15 amp, 3½ horsepower electric alternating current (AC) or gas motor which is supported by the square frame 114. The pulley motor 160 is also energized by 110 volts. As this is the same voltage that is provided by a typical house electrical outlet, the pulley motor 160 is ideal for use with the roof shingle peeler device 30 as it eliminates the necessity of having to provide a portable electrical generator to run the motor 61 of the original and second embodiments. As illustrated in
This fourth embodiment provides two differences over the first three embodiments. First, the device provides dual saw blades 60, one located on the left side of the frame 68 and the other located on the right side of the frame 68. The dual saw blades 60 are attached to one another by an axle 240 (
Second, the frame 68 is provided with dual vertical flanges 238 on opposite sides of the frame 68 as illustrated in
Thus, the benefits of this fourth embodiment are that: (1) the pulley motor provides a more convenient and efficient motor; (2) in the original and second embodiments, the roof shingle peeler device started to remove shingles from the roof deck from either the left or right side of the roof deck depending upon whether the saw blade was located on the right or left side of the device, respectively. With the pulley motor, wedge, horizontal arm, and skiis all positioned in the same vertical centerline and coacting with the dual saw blades, the roof shingle peeler device in this fourth embodiment can, like the third embodiment, start to remove shingles from the roof deck from any location on the roof deck; (3) the dual saw blades improve upon the third embodiment as this device can cut the shingles simultaneously on both the left and right sides of the roof shingle peeler device 30; (4) the dual vertical flanges assists in the division or separation of the shingles from the predefined section and also enable the movement of the device traversing up the roof deck without being restrained or inhibited by the shingles that remains attached to the roof deck; (5) the roof shingle peeler device can operate with or without the bag; and (6) provides a more balanced device.
While the hoist 38 is positioned to accommodate the roof angle 36, it is also secured to the roof deck 32. An L-bracket 218, attached to each dual arm 176, and cleats 220, attached to each L-bracket 218, are also used to secure the hoist 38 to the roof deck 32. The L-bracket 218 is preferably welded to each dual arm 176 and provides pockets 222 to retain the cleat 220 to the L-bracket 218. The pockets 222 also facilitate each cleat 220 to be inserted directly into the roof deck 32 thereby securing the hoist 38 to the roof deck 32, especially when in use. Preferably, six cleats 220 per L-bracket 218 on each dual arm 176 is used. Alternatively, it is contemplated that more or less cleats 220 or any other means may be used to secure the hoist 38 to the roof deck 32 provided the hoist 38 is secured to the roof deck 32 sufficient to pull the roof shingle peeler device 30 up the roof deck 32 as described herein.
Referring back to
The hoist motor 178 engages, as illustrated in
As illustrated in
After the predefined section 76 of shingles 34 is removed from the roof deck 32 and the roof shingle peeler device 30 is repositioned for the next strip run, the hoist 38 is likewise correspondingly repositioned. To reposition the hoist 38, the cleats 220 must first be removed from the roof deck 32. Then, a stepdown lever 224 (
Thus, there has been provided a unique method and apparatus for removing shingles from a roof. While the invention has been described in conjunction with a specific embodiment, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, it in intended to embrace all such alternatives, modifications and variations as fall within the spirit and scope of the appended claims.
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Number | Date | Country | |
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20060026909 A1 | Feb 2006 | US |