Patent Grant
9027196
This disclosure relates to a tool for use in building, construction, and repair applications. The tool may be used for applying a building material to a target substrate and for finishing a bead of adhesive, caulk, or sealant.
In many constructions or assemblies, there are unavoidable clearances, such as gaps, joints, seams, or the like, which are difficult to seal the openings of the clearances. For instance, the gaps of adjacent sheets of drywall, the seams between adjacent ceramic tiles, and the joints between two adjacent wooden pieces are difficult to be sealed by the materials.
In order to seal or close those clearances, construction adhesives, caulks and sealants are widely applied to the clearances or gaps. The application of the caulk or sealant material seals the gap and prevents the penetration of water, air, liquids, gases, and/or debris.
The caulk or sealant material normally is provided in an initially flowable state. The caulk or sealant material is converted to a solid after it is applied to the construction gap or opening and cured. The flowable sealant is commonly contained within a container such as a flexible paper or polymeric tube or rigid tube. The container is typically engaged with a mechanical application such as a caulking gun for application to a target gap or opening in a construction. The sealant is dispensed through a narrowing nozzle tip of the caulking gun to conveniently apply sealant to the gap or opening.
After filling the gap or openings with the sealant, the applicator may have to use a tool for smoothing and/or shaping the sealant applied on the gaps and openings, so that the sealant is able to be sufficiently filled within the opening for sealing and adhering purposes. If the sealant is not smoothed and shaped by any tool, the surface of the sealant may be unevenly seated at the openings and have an aesthetically unpleasing appearance.
The applicator often uses his finger to press on the sealant applied along the length of the gap or opening, so that the sealant is able to be nicely shaped and smoothed, so as to enhance the adhesiveness between the target substrate and the sealant and to finish the assembly into an aesthetically pleasing and smooth finish.
Although the operation of shaping and smoothing the sealant with the human finger is quick and easy, there are some disadvantages. First, the sealants may contain varieties of chemicals according to the applications of sealants, wherein the containing chemicals of the sealant possibly harmful to the human skin on the finger, so that using the human finger for operating the smooth and shape process of the sealant may be dangerous to human beings. It is also cumbersome to wash the remaining sealant on the finger of human hand. It may be hard to wash away the chemical compounds of the sealant when the chemicals are stained on the finger. If the user used their nails as the rigid spatulas for spreading and shaping the sealant, the sealant tends to deeply stick within the nails, so that cleaning the finger after shaping or smoothing the sealant thereby is even more painful.
Importantly, the use of the human finger to shape and smooth a continuous bead of construction adhesive, caulk, or sealant may lead to inconsistent results in the final aesthetic appearance of the bead of material.
In order to avoid contacting the human finger with the chemicals of the sealants, the current market provides the spatulas or spreader tool for shaping the sealant. Although those tools might be able to protect the human fingers, the structures of spatulas tools do not have the abilities for universally matching and reaching the narrow openings. The openings may be formed by two objects extended to form varieties of angles therebetween, so that the spatulas can not be satisfied for optimum of manipulation of shaping or smoothing the sealants. Therefore, there is a need for an improved tool for shaping and smoothing construction adhesives, caulks, and sealants that are applied to gap or openings.
According to a first illustrative embodiment, the tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and an angled edge extending from said front edge and at least one of said spaced apart side edges of said blade portion.
The tool may comprise a handle portion, a blade portion having spaced apart side edges and a front edge, and an angled edge extending from said front edge and one of said spaced apart side edges of said blade portion.
The tool may comprise a handle portion, a blade portion having spaced apart side edges and a front edge, and an angled edge extending from said front edge and both spaced apart side edges of said blade portion.
According to a second illustrative embodiment, the tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and at least one area of weakness formed in the blade portion and extending between said front edge and at least one of said spaced apart side edges of said blade portion.
According to a second illustrative embodiment, the tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and at least one area of weakness formed in the blade portion and extending between said front edge and one of said spaced apart side edges of said blade portion.
According to a second illustrative embodiment, the tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and at least one area of weakness formed in the blade portion and extending between said front edge and both of said spaced apart side edges of said blade portion.
Disclosed is a multiple use tool for building, construction, repair, and renovation applications. The tool may be used for applying a building material, such as a drywall compound, to a target building substrate, and for shaping and smoothing a bead of caulk or sealant material that has been applied to a narrow opening or joint.
The tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and an angled edge extending from the front edge and at least one of the spaced apart side edges of the blade portion.
According to certain illustrative embodiments, the tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and an angled edge extending between the front edge and one of the spaced apart side edges of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion, a blade portion having spaced apart side edges and a front edge, and angled edges extending from the front edge and both of the spaced apart side edges of the blade portion.
According to further illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion includes at least one area of weakness that is formed in the blade portion.
According to certain embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness formed in the blade portion of the tool.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises a plurality of areas of weakness that are formed in the blade portion.
According to certain embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness extending at an angle between the front edge and one of the side edges of the blade portion.
According to certain embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness extending at an angle between the front edge and one of the side edges of the blade portion, and one area of weakness extending at an angle between the front edge and the other side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises a plurality of areas of weakness extending at an angle between the front edge and both of the side edges of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness extending at an angle between the front edge and one of the side edges of the blade portion, and a plurality of areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness extending at an angle between the front edge and one of the side edges of the blade portion, and two areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness extending at an angle between the front edge and one of the side edges of the blade portion, and three areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises one area of weakness extending at an angle between the front edge and one of the side edges of the blade portion, and four areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises two areas of weakness extending at an angle between the front edge and one of the side edges of the blade portion, and two areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises two areas of weakness each extending at an angle between the front edge and one of the side edges of the blade portion, and three areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
According to other illustrative embodiments, the tool comprises a handle portion and a blade portion having spaced apart side edges and a front edge. The blade portion of the tool comprises two areas of weakness each extending at an angle between the front edge and one of the side edges of the blade portion, and four areas of weakness each extending at an angle between the front edge and the other spaced apart side edge of the blade portion.
The phrase “area of weakness” as used herein refers to a location or multiple locations on the blade portion that have less strength than other areas of the blade or handle portions of the tool. The least one area (i.e., one or more than one area) of weakness is provided in the blade portion of the tool to permit the user to break, cut, snip, or snap off a corner portion of the blade portion of the tool along the line of weakness to form an angled edge extending between the front edge of the blade portion of the tool and a side edge of the blade portion.
The one or more area(s) of weakness formed in the blade portion may include at least one perforated line, a scored line, depression, groove, trough, elongated raised ridges, any other form that provides an area of weakness, and combinations of any of these. According to certain illustrative embodiments having multiple areas of weakness extending at an angle between the front edge and the side edge(es) of the tool, the areas of weakness comprises spaced-apart lines of weakness extending from the front edge to a side edge of the blade handle of the tool.
The angled edge or edges extending between the front edge of the blade portion of the side edges of the blade portion are provided to smooth and shape a bead construction adhesive, caulk, or sealant material. The bead angle may that may be formed in the distal portion of the blade portion of the tool may be ⅛″, ¼″, ⅜″, or ½″. According to certain illustrative embodiments, the tool includes a bead angle edge of ⅜″.
The area or areas of weakness may be color coded to assist the user in obtaining the desired caulk or sealant bead angle size.
According to certain illustrative embodiments, the area of weakness comprises a line of depressions formed in a first surface of the blade portion of the tool.
According to other illustrative embodiments, the area of weakness may comprise a line of depressions formed in both opposing first and second surfaces of the blade portion of the tool.
According to certain illustrative embodiments, there are a plurality of areas of weakness comprising a plurality of spaced apart lines of depressions formed in a first surface of the blade portion of the tool.
According to other illustrative embodiments, there are a plurality areas of weakness comprising spaced apart lines of depressions formed in both opposing first and second surfaces of the blade portion of the tool.
According to certain illustrative embodiments, the area of weakness comprises continuous or discontinuous raised ridges formed in a first surface of the blade portion of the tool.
According to other illustrative embodiments, the area of weakness comprises continuous or discontinuous raised ridges formed in both opposing first and second surfaces of the blade portion of the tool.
According to certain illustrative embodiments, there are a plurality of areas of weakness comprising a plurality of spaced apart lines of continuous or discontinuous raised ridges formed in a first surface of the blade portion of the tool.
According to other illustrative embodiments, there are a plurality areas of weakness comprising spaced apart lines of continuous or discontinuous raised ridges formed in both opposing first and second surfaces of the blade portion of the tool.
According to the illustrative embodiments of the tool where the at least one area of weakness is created by depressions, the depressions may comprise any suitably shaped depression formed in the blade portion of the tool. Without limitation, and only by way of illustration, the depressions may be provided in the form of substantially concave depressions, substantially cup-shaped depressions, substantially bowl shaped depressions, or any other suitably shaped trough or depression formed partially into the thickness of the blade portion of the tool.
According to the illustrative embodiments of the tool where the at least one area of weakness is created by raised ridges, the raised ridges may comprise any suitably shaped ridges extending outwardly from an outer surface of the blade portion of the tool. Without limitation, and only by way of illustration, the depressions may be provided in the form of substantially convex ridges, inverted cup-shaped ridges, inverted bowl shaped depressions, V-shaped ridges, or any other suitably shaped raised ridge that extends outwardly from the outer surface of the blade portion of the tool.
The tool may be manufactured from a material selected from metals, metal alloys, polymers, composite materials, wood, and combinations thereof. According to certain illustrative embodiments, both the handle portion of the tool and the blade portion of the tool are manufactured from the same material. According to other illustrative embodiments, the handle portion of the tool and the blade portion of the tool are manufactured from the same material.
According to certain illustrative embodiments, the handle portion and the blade portion of the tool comprises an integral, one-piece body. The integral body comprising the handle portion and blade portion may be manufactured from natural polymers, synthetic polymers, or a mixture of natural and synthetic polymers. The polymer may be semi-rigid or rigid. Without limitation, and only by way of illustration, the polymers that may be used to manufacture the tool are selected from polyalkylenes and polyvinyl chloride (PVC). Suitable polyalkylenes include, for example, polyethylene and polypropoylene.
According to other illustrative embodiments, the handle portion and the blade portion of the tool comprise separate pieces that are connected together by at least one connecting member. The connecting member used to connect the handle portion of the tool to the blade portion of the tool may be any suitable connecting member that is able to securely connect the handle portion to the blade portion. By way of illustrative, but not in limitation, suitable connecting members that may used to connect or other attach the handle portion of the tool to the blade portion of the tool may be selected from bolts, screws, nails, rivets, tacks, and the like.
The illustrative embodiments of the tool will now be described in greater detail with reference to the various drawing FIGURES. It should be noted that the embodiments of the tool shown in the drawing FIGURES are merely illustrative and the present disclosure should not be limited in any manner or way by the drawing FIGURES.
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