TOOL TO CUT OUT A PORTION OF THE CORE FOAM FROM A SIP PANEL

Abstract

Tool to scoop out the foam from a SIP panel that complies with the industry safety requirements, it is easy to use, and can be easily adjusted to different types and sizes of SIP panels. The tool to cut out a portion of the core foam from a sip panel, comprising: a power unit; a support frame attached to the power unit; an adjustable guiding unit attached to the support frame; and a scooping unit.

Claims

1. A TOOL TO CUT OUT A PORTION OF THE CORE FOAM FROM A SIP PANEL, comprising: a power unit; a support frame attached to the power unit; an adjustable guiding unit attached to the support frame; and a scooping unit.

2. The tool in accordance to claim 1, wherein the power unit includes an electric motor with a power shaft, a power cord, and a handle.

3. The tool in accordance to claim 1, wherein the adjustable guiding unit attached to the support frame includes a frame to which an adjustable upper flat guide and an adjustable lower flat guide are slidably attached.

4. The tool in accordance to claim 3, wherein the adjustable upper flat guide and the adjustable lower flat guide are facing each other and include an inner flat horizontally-arranged face capable of being in contact with the outer surface of the inner and outer skin of the SIP panel respectively when the tool is scooping out foam from said panel.

5. The tool in accordance to claim 2, wherein the scooping unit includes a scooping head coupled to the power shaft.

6. The tool in accordance to claim 2, wherein the electric motor is electrically fed by the power cord plugged into an external power source.

7. The tool in accordance to claim 2, wherein the electric motor is electrically fed by a rechargeable battery.

8. The tool in accordance to claim 2, wherein the support frame includes a rectangular rigid metal frame with a circular hole through which the power shaft projects, and a set of ventilation grooves.

9. The tool in accordance to claim 1, wherein the scooping head is a solid metal piece with at least two scooping elongated teeth including each a scooping blade.

10. The tool in accordance to claim 1, wherein the adjustable guiding unit comprises a flat base with a frontal flat wall and two lateral walls, the frontal flat wall includes an elongated horizontally-arranged opening.

11. The tool in accordance to claim 10, wherein the frontal flat wall includes two vertically-arranged upper slots and two vertically-arranged lower slots; and the lateral walls include respective horizontally-arranged slots.

12. The tool in accordance to claim 11, wherein to said vertically-arranged upper slots the upper flat guide is slidably attached and to said vertically-arranged lower slots the adjustable lower flat guide is slidable attached.

13. The tool in accordance to claim 1, wherein a foam debris suction channel is attached to the support frame; said channel includes an elongated hollow tube-like body with a debris inlet located next to the scooping head and a debris exit on the opposite side.

14. The tool in accordance to claim 13, wherein the debris exit includes a cylindrical spout to be connected to an outside suction means capable of creating a suction force inside the suction channel to suck the foam debris away from the tool when the tool is scooping the foam out from a SIP panel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0033] These and other features of the subject invention will be better understood in connection with the detailed description in conjunction with the drawings, of which:

[0034] FIG. 1 is a general perspective view of a SIP panels assembly showing two SIP panels to be assembled, a block-spline joint between them and fasteners used to hold the parts together.

[0035] FIGS. 2A-2B is a cross sectional view showing how two SIP panels of FIG. 1 are assembled using a joining spline.

[0036] FIG. 3 is a general perspective view of a SIP panel cut out showing how the foam core flushes with the inner and outer skin of the SIP panel.

[0037] FIG. 4 is a general perspective view of the tool in accordance with the present invention

[0038] FIG. 5A is a general perspective view showing the tool in accordance with the present invention scooping the foam out from a cut out piece of a SIP panel.

[0039] FIG. 5B is a cross sectional view of the tool of FIG. 5A while the scooping head is working on the foam, and the debris are sucked into the suction passage by a suction device (not illustrated).

[0040] FIG. 6 is a left side elevational view of the tool of FIG. 4.

[0041] FIG. 7 is a front elevational view of the tool of FIG. 4.

[0042] FIG. 8 is a rear elevational view of the tool of FIG. 4.

[0043] FIG. 9 is a top plan view of the tool of FIG. 4.

[0044] FIG. 10 is a bottom plan view of the tool of FIG. 4.

[0045] FIG. 11 is another perspective view this time illustrating the tool of the present invention from a frontal angle.

[0046] FIG. 12 is another perspective view showing in detail the scooping device.

[0047] FIG. 13 is a perspective view similar to FIG. 9 showing in detail the scooping device from a different angle.

[0048] FIG. 14 is a perspective view showing the power unit attached to the guiding unit.

[0049] FIG. 15 is a partially exploded perspective view showing the power unit detached from the guiding/scooping unit; finally

[0050] FIG. 16 is an exploded perspective view showing how the parts of the guiding unit are attached to the scooping unit

DETAILED DESCRIPTION

[0051] FIG. 1 shows how two ordinary SIP panels 10-20 are assembled. Each panel 10-20 includes an outer skin 11-21 and an inner skin 12-22. Between both skins 11-12 and 21-22 there is a thick layer of foam core 14-24 forming a solid piece. The foam core is generally one of the following: expanded polystyrene (EPS), extruded polystyrene (XPS), and polyurethane foam (PUR). In order to create a space to fit a block-spline joint 30 when two panels are assembled, each panel includes a lateral space 15-25 between the inner face of the foam 14-24 and the outer side 11-12 of the inner and outer skins 11-12. As it is clearly shown in FIGS. 2A and 2B, the block-spline joint is located in the space created by the respective spaces 15-25 of each panel and then the assembly is secured through adhesives and nails 35.

[0052] Each SIP panel has a predetermined size. In order to adjust the panel to the size of the construction to be built it must be cut out to fit the necessary measures. FIG. 3 shown an example of a piece of SIP panel cut out from a full SIP panel. Every time a piece is cut out, the foam core 14-24 flushes to the edge of the inner and outer skins and there is no space 15-25 to fit the above mentioned joining spline 30. This is the reason why it is necessary to create that space by cutting out a portion of the foam 14.

[0053] The tool 100 in accordance with the present invention is illustrated in FIGS. 4-16. It comprises a power unit 140, a support frame 150 attached to the power unit 140, an adjustable guiding unit 160 attached to the support frame 150, and a scooping unit 170.

[0054] The power unit 140 comprises an external case 141 to which an electric motor 142 is attached, with a power shaft 143, a power cord 144 (with which the power unit 140 may be plugged into a power source) and a handle 145 defined by a protruding arm 146 that ends in a rounded head 147.

[0055] A supporting frame 150 is attached to the power unit 140 (FIG. 16). This frame comprises a rectangular metal piece including a front flat face 151 with two short perpendicular side portions 152. The front face 151 includes a circular hole 153, three sets of curved ventilation grooves 154, a couple of small holes 155 and a suction channel that is part of the scooping unit explained below. Each side portion 152 includes respective spaced apart holes 156.

[0056] The adjustable guiding unit 160 comprises a flat base with a frontal flat wall 161 and two lateral walls 162-162. The frontal flat wall 161 includes a cut-out portion that defines an elongated horizontally-arranged opening 163. The frontal flat wall 161 also includes two vertically-arranged upper slots 164-164 and two vertically-arranged lower slots 165-165, The lateral walls 162-162 include respective horizontally-arranged slots 166-166. Said slots 164-164 and 165-165 may be between 50-200 mm long (1.96-7.87 inches), and said slots 166-166 may be between 0-150 mm long (0-5.9 inches).

[0057] The adjustable guiding unit 160 also includes an adjustable upper flat guide 167 and an adjustable lower flat guide 167. Each guide includes a rectangular flat portion 168-168 and a couple of holes 169-169 The upper flat guide 167 is slidably attached to the frontal flat wall 161 by screwed bolts 169a-169b that pass through the slots 164164 and are threaded to threaded holes 191 of an adjusting bar 190. By using this adjusting bar 190 it is not necessary to use nuts to adjust the flat guide, as it will be explained in detail below.

[0058] The scooping unit 170 includes a scooping head 171 coupled to the electric motor's shaft 143. Said scooping head 171 comprises a solid metal piece defined by a cylindrical shape with two diametrically opposed L-shape cut-out portions 172-172 on one face of which respective blades 173-173 are attached. The scooping unit also includes a suction channel 174 defined by a rectangular hollow tube 157 with a debris inlet 157 and a debris exit 157. As shown in FIG. 16 the debris exit includes a cylindrical spout 158 to be connected to an outside suction means (not illustrated) capable of creating a suction force inside the suction channel 157 to suck the foam debris 211 away from the tool 100 when the tool is scooping the foam out from a SIP panel, as it will be explained in detailed below.

[0059] As shown in FIGS. 5A-B the adjustable upper flat guide 167 and the adjustable lower flat guide 167 are facing each other and include respective inner flat horizontally-arranged faces 175-176 capable of being in contact with the outer surface 201 of the inner skin 205 of the SIP panel 200 and the outer surface 202 of the inner skin 206 of the SIP panel 200 respectively when the tool is scooping out foam 210 from said panel.

[0060] When the operator needs to scoop out a portion of the foam 210 of a cut out SIP panel 200, the tool 100 needs to be connected to a power source with the power cord 144. Then the tool is placed in the scooping position by inserting one end of panel 200 to be scooped (FIGS. 5A and B) between the upper surface 175 of the upper guide 167 and the lower surface 176 of the lower guide 167. To adjust the thickness of the panel to be scooped, the operator needs to adjust the distance between guides 167-167 by unscrewing and screwing back bolts 169a-169b to the adjusting bar 190. The length of slots 164-164 allows the tool to process SIP panels with a 50-200 mm (1.96-7.87 inches) thickness range.

[0061] Then the operator needs to determine how deep the scooping head 171 needs to go into the core foam 210. In order to adjust how deep the scooping head 171 will enter in the foam 200 the operator may move the whole scooping unit 160 away or closer to the power unit 140 using the sliding mounting of the adjustable guiding unit 160 to the support frame 150 through threaded bolts 180 which pass through slots 166-166 and orifices 156 and are threaded to respective nuts (not illustrated)

[0062] Therefore, the tool may adjust to different panel thicknesses in a range of 50-200 mm (1.96-7.87 inches), and to different scooping depths in the range of 0-150 mm (0-5.9 inches). Once the tool 100 is in operating position (FIGS. 5A-B) with all the parameters already set, the engine 142 is turned on and the tool is pushed forward with the handle 147. The scooping head 171 spins at high speed and the blades 173-173 facing the foam 210 scoop said foam out and the suction created inside the suction channel 174 by the suction means (not illustrated) takes the foam debris 211 out of the panel 20 to an appropriate disposal place (a trash bag or the like).

[0063] Even when it has been described and illustrated the present tool fed by an external power source through the power cord 144 it is obvious for those skilled in the art that the electric motor 142 can be electrically fed by a rechargeable battery. Also, the material mentioned in this description used to make the pieces of this tool is metal, but any other appropriate materials may be used, including composite materials involving plastic, fibers, etc.

REFERENCE NUMBERS USED

[0064] 10: SIP Panel [0065] 11: outer skin [0066] 11: outer side [0067] 12: inner skin [0068] 12: outer side [0069] 14: foam core [0070] 15: space [0071] 20: SIP Panel [0072] 21: outer skin [0073] 22: inner skin [0074] 24: foam core [0075] 25: space [0076] 30: spline [0077] 35: nails [0078] 100: tool [0079] 140: power unit [0080] 141: external case [0081] 142: electric motor [0082] 143: power shaft [0083] 144: power cord [0084] 145: handle [0085] 146: arm [0086] 147: head [0087] 150: supporting frame [0088] 151: front flat face [0089] 152: side portions [0090] 153: circular hole [0091] 154: ventilation grooves [0092] 155: small holes [0093] 156: holes [0094] 157: hollow tube [0095] 157: debris inlet [0096] 157: debris exit [0097] 158: cylindrical spout [0098] 160: guiding unit [0099] 161: flat wall [0100] 162-162: lateral walls [0101] 163: opening [0102] 164-164:upper slots [0103] 165-165: lower slots [0104] 166-166: slots [0105] 167: upper flat guide [0106] 167: lower flat guide [0107] 168-168: rectangular flat portion [0108] 169-169: holes [0109] 169a-169b bolts [0110] 170: scooping unit [0111] 171: scooping head [0112] 172-172: cut-out portion [0113] 173-173: blades [0114] 174: suction channel [0115] 175: face [0116] 176: face [0117] 190: adjusting bar [0118] 191: threaded hole [0119] 200: SIP panel [0120] 201: outer surface [0121] 202: outer surface [0122] 205: inner skin [0123] 206: inner skin [0124] 210: foam [0125] 211: foam debris