Screed system for walls

A screed system for walls for allowing the user to work faster and more efficiently and to effectively plaster a wall to a uniform thickness. The screed system for walls includes a mounting bracket being adapted to removably mount to a wall; and also includes a leveling assembly being movably mounted to the mounting bracket and including a leveling tool; and further includes a squaring level assembly being adapted to be mounted in a corner of two adjoining walls; and also includes ia plurality of screed support members being adapted to be fastened to and extended outwardly from studs supporting the wall; and further includes screed members being securely mounted to the screed support members for determining a depth of plaster and mortar being applied to the wall.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a speed screed system and more particularly pertains to a new screed system for walls for allowing the user to work faster and more efficiently and to effectively plaster a wall to a uniform thickness.

2. Description of the Prior Art

The use of a speed screed system is known in the prior art. More specifically, a speed screed system heretofore devised and utilized are known to consist basically of familiar, expected and obvious structural configurations, notwithstanding the myriad of designs encompassed by the crowded prior art which have been developed for the fulfillment of countless objectives and requirements.

While these devices fulfill their respective, particular objectives and requirements, the aforementioned patents do not disclose a new screed system for walls. The inventive device includes a mounting bracket being adapted to removably mount to a wall; and also includes a leveling assembly being movably mounted to the mounting bracket and including a leveling tool; and further includes a squaring level assembly being adapted to be mounted in a corner of two adjoining walls; and also includes a plurality of screed support members being adapted to be fastened to and extended outwardly from studs supporting the wall; and further includes screed members being securely mounted to the screed support members for determining a depth of plaster and mortar being applied to the wall.

In these respects, the screed system for walls according to the present invention substantially departs from the conventional concepts and designs of the prior art, and in so doing provides an apparatus primarily developed for the purpose of allowing the user to work faster and more efficiently and to effectively plaster a wall to a uniform thickness.

SUMMARY OF THE INVENTION

In view of the foregoing disadvantages inherent in the known types of speed screed system now present in the prior art, the present invention provides a new screed system for walls construction wherein the same can be utilized for allowing the user to work faster and more efficiently and to effectively plaster a wall to a uniform thickness.

The general purpose of the present invention, which will be described subsequently in greater detail, is to provide a new screed system for walls which has many of the advantages of the speed screed system mentioned heretofore and many novel features that result in a new screed system for walls which is not anticipated, rendered obvious, suggested, or even implied by any of the prior art speed screed system, either alone or in any combination thereof.

To attain this, the present invention generally comprises a mounting bracket being adapted to removably mount to a wall; and also includes a leveling assembly being movably mounted to the mounting bracket and including a leveling tool; and further includes a squaring level assembly being adapted to be mounted in a corner of two adjoining walls; and also includes a plurality of screed support members being adapted to be fastened to and extended outwardly from studs supporting the wall; and further includes screed members being securely mounted to the screed support members for determining a depth of plaster and mortar being applied to the wall.

It is therefore an object of the present invention to provide a new screed system for walls which has many of the advantages of the speed screed system mentioned heretofore and many novel features that result in a new screed system for walls which is not anticipated, rendered obvious, suggested, or even implied by any of the prior art speed screed system, either alone or in any combination thereof.

It is another object of the present invention to provide a new screed system for walls which may be easily and efficiently manufactured and marketed.

It is a further object of the present invention to provide a new screed system for walls which is of a durable and reliable construction.

An even further object of the present invention is to provide a new screed system for walls which is susceptible of a low cost of manufacture with regard to both materials and labor, and which accordingly is then susceptible of low prices of sale to the consuming public, thereby making such screed system for walls economically available to the buying public.

Still yet another object of the present invention is to provide a new screed system for walls which provides in the apparatuses and methods of the prior art some of the advantages thereof, while simultaneously overcoming some of the disadvantages normally associated therewith.

Still another object of the present invention is to provide a new screed system for walls for allowing the user to work faster and more efficiently and to effectively plaster a wall to a uniform thickness.

Yet another object of the present invention is to provide a new screed system for walls which includes a mounting bracket being adapted to removably mount to a wall; and also includes a leveling assembly being movably mounted to the mounting bracket and including a leveling tool; and further includes a squaring level assembly being adapted to be mounted in a corner of two adjoining walls; and also includes a plurality of screed support members being adapted to be fastened to and extended outwardly from studs supporting the wall; and further includes screed members being securely mounted to the screed support members for determining a depth of plaster and mortar being applied to the wall.

Still yet another object of the present invention is to provide a new screed system for walls that is more accurate than any of the conventional ways of plastering a wall.

Even still another object of the present invention is to provide a new screed system for walls that allows the user to create perfectly flat, square, and straight walls.

DESCRIPTION OF THE PREFERRED EMBODIMENT

With reference now to the drawings, and in particular to FIGS. 1 through 16 thereof, a new screed system for walls embodying the principles and concepts of the present invention and generally designated by the reference numeral 10 will be described.

As best illustrated in FIGS. 1 through 16 , the screed system for walls 10 generally comprises a mounting bracket 11 being adapted to removably and conventionally mount to a wall 61 . The mounting bracket 11 includes a plate-like member 12 being adapted to be fastened with mounting fasteners to the stud 62 in the wall 61 , and also includes leveling tool support members 13 being spaced apart and being securely and conventionally attached to and extending outwardly from the plate-like member 12 , and further includes spring support members 14 being securely and conventionally attached to and extending outwardly from the plate-like member 12 .

A leveling assembly is movably mounted to the mounting bracket 11 and includes a leveling tool 15 . The leveling tool 15 includes an elongate member 16 having a definite thickness and also having a front 17 and a back 18 and further having a plurality of bores 19 - 22 extending through the elongate member 16 . The bores 19 - 22 include first bores 19 which are spaced apart and which extend from the front 17 through the back 18 of the elongate member 16 and which are adapted to receive the leveling tool support members 13 therethrough. The bores 19 - 22 also include second bores 20 which extend through the elongate member 16 from the front 17 through the back 18 of the elongate member 16 and which are adapted to receive the spring support members 14 therethrough. The bores 19 - 22 further include third bores 21 which extend through a side of the elongate member 16 into the first bores 19 . The bores 19 - 22 also include fourth bores 22 which extend through the elongate member 16 from the front 17 through the back 18 . The elongate member 16 also includes slots 23 being spaced apart and being disposed in the side of the elongate member 16 . The leveling assembly further includes tubular members 24 being securely and conventionally disposed in the slots 23 . Each of the tubular members 24 include liquid and a bubble for leveling purposes. The leveling assembly also includes elongate threaded fasteners 25 being threaded into the third bores 21 and being engagable to the leveling tool support members 13 , and further includes springs 26 being mounted about the spring support members 14 and being biasedly disposed between the elongate member 16 and the plate-like member 12 . The spring support members 14 are adjustably fastened to the elongate member 16 with fastening members. The leveling assembly further includes a sight member 65 being securely and conventionally attached to the elongate member 16 and being disposed between the elongate member 16 and said plate-like member 12 of said mounting bracket 11 . The sight member 65 has a hole 66 extending therethrough.

The squaring level assembly includes a laser assembly having a bracket member 27 being adapted to be mounted in corners of two adjoining walls 61 , and also having a plate-like leveling member 28 being adjustably and conventionally mounted upon the bracket member 27 and having a hole 29 disposed therethrough, and further having a laser support assembly 30 being fastenably mounted upon the plate-like leveling member 28 , and also having laser members 40 being removably disposed in the laser support assembly 30 and through the hole 29 of the plate-like leveling member 28 , and further having elongate threaded members 38 , 39 being securely and conventionally attached to a top and a bottom of the plate-like leveling member 28 , and also having fasteners being threaded upon the elongate threaded members 38 , 39 , and further having spring members 63 mounted about the bottom elongate threaded members 39 and being biasedly disposed between the bracket member 27 and the plate-like leveling member 28 , and also having a level gauge 37 being conventionally disposed upon the top of the plate-like leveling member 28 . Each of the laser members 40 includes a cylindrical housing 41 having an opening 43 through a wall 42 thereof and also having a slot 44 diametrically opposed to the opening 43 and being disposed through the wall 42 , and further includes a laser light-emitting member 46 being conventionally disposed in the cylindrical housing 41 and being adapted to shine a beam of light through the opening 43 , and also includes an annular stop member 45 being fastenably and movably mounted about the cylindrical housing 41 to adjustably set the laser member 40 in the laser support assembly 30 .

A plurality of screed support members 47 are adapted to be fastened to and extended outwardly from studs 62 supporting the wall 61 . Each of the screed support members 47 includes a threaded shaft portion 48 having a pointed front end 49 , and also includes a head portion 50 having a centrally-disposed recessed portion 51 in a back end thereof. The screed support members 47 are adapted to be threaded into the stud 62 of the wall 61 with a plane passing through the back ends of the screed support members 47 .

Screed members 52 are securely and conventionally mounted to the screed support members 47 for determining a depth of plaster 64 to be applied to the wall 61 . Each of the screed members 52 includes a strip of material 53 having a laterally-curved wall and being adapted to fit upon the head portions 50 of the screed support members 47 . The screed members 52 are adapted to determine a depth of plaster 64 and mortar to be applied to the wall 62 .

A tool attachment 54 for holding the screed support members 47 when the screed support members 47 are being threaded into the stud 62 of the wall 61 includes a shaft 55 , a sleeve 59 securely and conventionally attached to the shaft 55 and being adapted to receive the screed support members 47 therein. The shaft 55 has an enlarged end portion 56 which is disposed in the sleeve 59 . The enlarged end portion 56 has a slot 57 therein and a pointed node 58 conventionally disposed in the slot 57 . The head portions 50 of the screed support members 47 are removably received in the slot 57 . The sleeve 59 is removably received in the fourth bores 22 of the elongate member 16 . The tool attachment 54 further includes an annular flange 60 being conventionally disposed about the sleeve 59 to limit extension of the sleeve 59 into the fourth bores 22 . The annular flange 60 is contactable with the elongate member 16 .

As a first embodiment, the laser support assembly 30 includes a block-like member 31 having a top, a bottom, and sides, and also having bores 32 extending through the top, the bottom, and the sides with the bores 32 being adapted to receive the laser members 40 and to receive the top elongate threaded member 38 of the plate-like leveling member 28 .

As a second embodiment, the laser support assembly includes a pair of disc-shaped members 33 , 35 being rotatably mounted upon the plate-like leveling member 28 and being adjustable independently of one another. Each of the disc-shaped members 33 , 35 has a top, a bottom, and a side, and also has bores 34 , extending through the top, the bottom and the side with the bores 34 , being adapted to receive the laser members 40 and to receive the top elongate threaded member 38 of the plate-like leveling member 28 . Each of the disc-shaped members 33 , 35 has degree markings displayed upon the wall thereof.

In use, the user will prepare the surface of the wall by applying waterproof paper along with a wire lathe. The user would then fasten the mounting bracket 11 to the stud 62 in the wall 61 . The user then mounts the leveling tool 15 upon the mounting bracket 11 , and then threads the screed support members 47 into the stud 62 through the fourth bores 22 using a drill. Once the screed support members 47 are extended from the wall 61 at a certain depth, the user then mounts the screed members 52 upon the screed support members 47 . There should be two screed members 52 for every wall 61 being plastered and mortared. To make sure that adjoining walls are square, the user mounts the bracket member 27 of the laser assembly in the corner of two adjoining walls 61 and close to the vertical center thereof. The spring members 63 and the level gauge 37 allows the user to level the laser assembly. The laser members 40 allow the user to shine a beam of light in a plane along the walls 61 to set the depth at which the plaster 64 and mortar are applied to the walls 61 . The leveling assembly is then mounted at the desired positions upon the wall 61 using the sight member 65 being securely attached to said elongate member 16 . The user adjusts the squaring level assembly to shine a beam of light from one of the laser members 40 through the hole 66 in the sight member 65 . The user then threads the screed support members 47 into the studs 62 of the wall 61 to the selected depth and then attached the screed members 52 to the screed support members 47 .